CN106351082A - Multifunctional railway maintenance automated machine - Google Patents
Multifunctional railway maintenance automated machine Download PDFInfo
- Publication number
- CN106351082A CN106351082A CN201610768428.XA CN201610768428A CN106351082A CN 106351082 A CN106351082 A CN 106351082A CN 201610768428 A CN201610768428 A CN 201610768428A CN 106351082 A CN106351082 A CN 106351082A
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- Prior art keywords
- ring
- square tube
- tube shape
- arm
- fixed
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Classifications
-
- E—FIXED CONSTRUCTIONS
- E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
- E01B—PERMANENT WAY; PERMANENT-WAY TOOLS; MACHINES FOR MAKING RAILWAYS OF ALL KINDS
- E01B27/00—Placing, renewing, working, cleaning, or taking-up the ballast, with or without concurrent work on the track; Devices therefor; Packing sleepers
- E01B27/06—Renewing or cleaning the ballast in situ, with or without concurrent work on the track
- E01B27/11—Renewing or cleaning the ballast in situ, with or without concurrent work on the track combined with concurrent renewal of track components
-
- E—FIXED CONSTRUCTIONS
- E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
- E01B—PERMANENT WAY; PERMANENT-WAY TOOLS; MACHINES FOR MAKING RAILWAYS OF ALL KINDS
- E01B2203/00—Devices for working the railway-superstructure
- E01B2203/04—Cleaning or reconditioning ballast or ground beneath
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- Engineering & Computer Science (AREA)
- Architecture (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Actuator (AREA)
Abstract
The invention discloses a multifunctional railway maintenance automated machine which comprises a tamping ballast leveling device, a runway shoulder and ballast bed shape repair device, a grab bucket stone removing device, a stone ballast collecting and discharging device, a sleeper end stone removing device, a sprocket stone discharging device, a four-nut synchronous assembly and disassembly device, a first rail lifting device, a sleeper rotation and push-pull device, a sleeper lifting device, a power generator, a hydraulic system and control system box and a rail car. A working device can be rapidly aligned to a working position, stone ballasts in space among sleepers, on ballast beds on the outer sides of sleeper ends and on ballast beds below steel rails are automatically discharged, sandy soil in the stone ballasts is automatically separated, the stone ballasts are automatically backfilled in the space between two sides of each replaced sleeper, tamped and leveled, shapes of a runway shoulder and a ballast bed are automatically repaired, four nuts are synchronously assembled and disassembled, the fatigue life of a bolt is prolonged, connection reliability of the sleepers and the steel rails is ensured, and the sleeper rotation and push-pull device is an integrated device which is compact in structure, adaptable to various operations of sleeper replacing of linear and curved rail road sections and high in transition efficiency.
Description
Technical field
The present invention relates to a kind of railway maintenance machinery, particularly to a kind of multifunctional railway maintenance automated machine.
Background technology
Railroad sleeper during long use, due to due to natural subsidence and vibration, under the sleeper of railway local
Heavy, need to carry out maintenance, indivedual sleepers damage, need to change in time, during sleeper replacement, using manual work, take
When laborious, inefficiency is it is impossible to complete work in effective train passage gap (being commonly called as: skylight).
Content of the invention
It is an object of the invention to provide a kind of multifunctional railway maintenance automated machine.
The present invention be by tamping flat quarrel device, road shoulder and railway roadbed modification device, clear stone device of grabbing bucket, ballast collection arranging device,
Pillow end clear stone device, sprocket calculus device, four nut synchronization assembling and disassembling devices, the first rail-lifting equipment, transition and push-and-pull sleeper device,
Sleeper handling apparatus, electromotor, Hydraulic system and control System cabine and railcar composition.Railcar is provided with multiple castors and two
Longeron, tamping flat quarrel device, road shoulder and railway roadbed modification device, clear stone device of grabbing bucket, ballast collection arranging device, pillow end clear stone device,
Sprocket calculus device, four nuts synchronization assembling and disassembling devices, the first rail-lifting equipment, transition and push-and-pull sleeper device, sleeper handling apparatus,
Electromotor and Hydraulic system and control System cabine are arranged on two longerons of railcar, and railcar is drawn by engineering truck, generate electricity
Machine is that oil pump and control system provide power, be provided with Hydraulic system and control System cabine fuel tank, oil pump, hydraulic control system and
Automatic control system;
Described tamping is put down quarrel device and is made up of entablature, the first lowering or hoisting gear and the assembly that vibrates, and entablature is provided with two
Individual connecting plate and four ears rings, connecting plate is provided with several bolts hole;
Described lowering or hoisting gear be by two first series connection parallelogram lindages, the first lifting drive, with dynamic balancing
Support meanss and first laser displacement transducer composition;
Described first series connection parallelogram lindage is by sill, the first fork, the second fork, two the 3rd forks and the
One connecting rod composition, first connecting rod is provided with monaural ring and ears ring;
The first described lifting drive stretches out oil cylinder by double multi-stage expansion shell types pair and two first connecting rods form,
The double two final stage extension sleeve free ends stretching out oil cylinder of double multi-stage expansion shell types are provided with monaural ring;
Described servo-actuated Equipoising support apparatus be by plate shape entablature, the second series connection parallelogram lindage, the first strut, the
Two struts, slide bar, two slide blocks, two turriform linear Stiffness springs, two the first hex nuts, two the first bolts and two
Individual second bolt composition, slide bar is provided with fixed disc, is arranged with two light bar segments and two thread segments;Slide block is provided with circular hole
With a pair of coaxial threaded blind hole;
Described second series connection parallelogram lindage be by plate shape entablature, sill, the 4th fork, the 5th fork, the
Six forks, the 7th fork, two second connecting rods and two bearing pin compositions;
By the first fork and sill chain connection, between the second fork, the 4th fork and three components of sill, hinge connects
Connect, the first fork ears ring, the 3rd fork ears ring and first connecting rod monaural ring coaxially penetrate pin hinge and connect, the second fork
It is same that ears ring, another the 3rd fork ears ring, first connecting rod ears ring and double multi-stage expansion shell type pair stretch out oil cylinder monaural ring
Axle penetrates pin hinge and connects, composition the first series connection parallelogram lindage, repeats aforementioned assembly operation, is symmetrical in sill and upper
The crossbeam vertical plane of symmetry assembles another the first series connection parallelogram lindage;
Two turriform linear Stiffness springs are symmetrically sheathed on two light bar segments of slide bar, then two slide blocks are covered respectively
Located at two light bar segments of slide bar, two the first hex nut pretensions respectively, two slide blocks are made to make turriform linear Stiffness respectively
Spring suitably compresses, and the 5th fork and sill chain connection make the left side monaural ring of two second connecting rods respectively with the 4th
A pair of tapped blind hole of the ears ring of fork, the 6th fork ears ring and slide block is coaxial, two the first bolts pretensions respectively, makes the
Chain connection between four forks, the 6th fork and three components of slide block, by the right monaural ring of two third connecting rods respectively with the 5th
The ears ring of fork, the 7th fork ears ring are coaxial, and two bearing pins respectively penetrate, and make second connecting rod, the 5th fork and the 7th pendulum
Chain connection between three components of bar, composition the second series connection parallelogram lindage;
Coaxial, two the second bolts by a pair of tapped blind hole of the first strut ears ring, the second strut ears ring and slide block
Pretension, makes chain connection between the first strut, the second strut and three components of slide block, the 6th fork, the 7th fork and second respectively
Strut respectively with plate shape entablature chain connection, form servo-actuated Equipoising support apparatus;
Coaxial, two the second bolts by a pair of tapped blind hole of the first strut ears ring, the second strut ears ring and slide block
Pretension, makes chain connection between the first strut, the second strut and three components of slide block, the 6th fork, the 7th fork and second respectively
Strut and plate shape entablature chain connection, form the first servo-actuated Equipoising support apparatus;
Double multi-stage expansion shell types pair are stretched out oil cylinder and is fixed on plate shape entablature, by four the 3rd forks and entablature hinge
Connect, first laser displacement transducer is symmetrically fixed on below entablature;Form the first lowering or hoisting gear;
Described vibrate assembly by entablature, several first elastic connecting component, oscillating plate, eight vibrating spears, eight
Two hex nuts and the first dither motor composition, the first elastic connecting component is by bolt, two helical springs, pads and six
Angle nut composition, oscillating plate is provided with several bolts hole and eight circular holes;
Bolt is passed through entablature connecting plate bolt hole, helical spring is sheathed on bolt, then passes through oscillating plate spiral shell
Keyhole, then another helical spring is sheathed on bolt, pad is sheathed on bolt, hex nut pretension, oscillating plate with upper
Crossbeam realizes elastic connection;Vibrating head passes through oscillating plate bolt hole, the second hex nut pretension, and the first dither motor is symmetrical
It is fixed on above oscillating plate, sill is symmetrically fixed on two longerons of railcar, composition tamping flat quarrel device.
Described road shoulder and railway roadbed modification device are by the first entablature assembly, the first retractable driving device, the second lifting
Device and the first bucket device composition;
The first described entablature assembly is by the first square tube shape fixed arm, the first square tube shape telescopic arm, second laser position
Displacement sensor and the second range finding reference plate composition, the first square tube shape fixed arm is provided with blind end and four ears rings, the first square tube
Shape telescopic arm is provided with blind end;
The first described retractable driving device is by the first square tube shape fixed arm, two-way ram oil cylinder and the first square tube shape
Telescopic arm forms, and two-way ram cylinder block is provided with square slider and ring flange, piston rod free end are provided with ring flange;
First square tube shape telescopic arm is sheathed on two-way ram oil cylinder, make the first square tube shape telescopic arm blind end with double
Effect piston oil-cylinder piston rod ring flange is connected, then the first square tube shape fixed arm is sheathed on the first square tube shape telescopic arm, and
Two-way ram cylinder flange disk is symmetrically fixed on the first square tube shape fixed arm blind end, forms the first retractable driving device,
Two-way ram oil cylinder and the first square tube shape telescopic arm form moving sets, and second laser displacement transducer is symmetrically fixed on first
Above square tube shape fixed arm, the second range finding reference plate is fixed on above the first square telescopic arm;
The second described lowering or hoisting gear and the first lowering or hoisting gear composition, except aforesaid first square tube shape fixed arm and upper
Beam structure form is different, and remaining all component structural form is the same;
Carry out and the first lifting drive identical assembly operation, by four the 3rd forks and the first square tube shape fixed arm
Chain connection, first laser displacement transducer is symmetrically fixed on below the first square tube shape fixed arm;Form the second lowering or hoisting gear;
Described bucket device is made up of the first bucket assembly, arm and u shape suspension rod, arm be provided with monaural ring, first
Ears ring, the second ears ring and ring flange;
The first described bucket assembly is made up of hydraulic jack, strut, connecting rod and bucket body, and the piston rod of hydraulic jack is certainly
Monaural ring is provided with by end, cylinder body is provided with monaural ring;Strut is provided with ears ring and monaural ring;Connecting rod is provided with monaural ring and ears
Ring, bucket body is provided with the first ears ring and the second ears ring;
Cylinder body of hydraulic oil cylinder monaural ring is coaxially penetrated pin hinge with arm the second ears ring be connected, strut monaural ring with
Arm the first ears ring coaxially penetrates pin hinge and connects, and bucket body the second ears ring and arm monaural ring coaxially penetrate pin hinge
Connect, connecting rod monaural ring coaxially penetrates pin hinge with bucket body the first ears ring and is connected, connecting rod ears ring, strut ears ring and liquid
The monocyclic pin hinge that coaxially penetrates of force feed cylinder piston rod connects, and forms the first bucket assembly, and u shape suspension rod is solid with arm ring flange
Even, form bucket device, u shape suspension rod is fixed on the first square tube shape telescopic arm, composition road is takeed on and railway roadbed modification device;
Described grab bucket clear stone device is entablature, two the 3rd lowering or hoisting gears, four the first grab mechanisms, traversing assemblies
Form with cross sliding driving device, entablature is provided with three longerons, and longeron is provided with groove;
As the composition of the 3rd described lowering or hoisting gear and the first lowering or hoisting gear, except aforesaid 3rd lowering or hoisting gear entablature
Different with the first lowering or hoisting gear entablature version, remaining all component structural form is the same;
Carry out and the first lifting drive identical assembly operation, by four the 3rd forks respectively with entablature hinge even
Connect, form the 3rd lowering or hoisting gear, be symmetrical in the entablature horizontal vertical plane of symmetry and assemble another the 3rd lowering or hoisting gear, by the
One laser displacement sensor is fixed on below entablature;Form the 3rd lowering or hoisting gear;
The first described grab mechanisms are made up of two the second bucket assemblies and arm, and arm is arranged with two monaurals
Ring, two the first ears rings, 2 second ears rings and ring flange;
Second bucket assembly and the first bucket assembly composition and version the same;
Two cylinder body of hydraulic oil cylinder monaural rings are coaxially penetrated pin hinge with two the second ears rings of arm respectively be connected,
Two strut monaural rings coaxially penetrate pin hinge with two the first ears rings of arm respectively and are connected, two bucket body the second ears rings
Coaxially penetrate pin hinge with two monaural rings of arm respectively to be connected, two connecting rod monaural rings respectively with two bucket body first ears
Ring coaxially penetrates pin hinge and connects, connecting rod ears ring, strut ears ring and hydraulic cylinder piston rod is monocyclic coaxially penetrates bearing pin
Chain connection, forms the first grab mechanisms;
Described traversing assembly be by the second square tube shape fixed arm, two the second square tube shape telescopic arms, two coupling assemblies,
Four cantilever beams, the 3rd laser displacement sensor and the 3rd range finding reference plate composition;Second square tube shape fixed arm is arranged with four
Individual long slot bore, the second square tube shape telescopic arm is provided with blind end and symmetrical four screwed holes, and cantilever beam is provided with ring flange;
Described coupling assembly is made up of two connecting plates, two rollers, two bearing pins and four bolts, and connecting plate sets
There are ring flange, two axis holes and a rectangular flange, rectangular flange is provided with two bolts hole;
Described cross sliding driving device is by the second square tube shape fixed arm, the double rod hydraulic jack of dual Piston and two the
Two square tube shape telescopic arm compositions, dual Piston is double, and rod cylinder body of hydraulic oil cylinder is provided with square flange, piston rod free end is provided with
Ring flange;
Two the second square tube shape telescopic arms are sheathed thereon from the double rod hydraulic jack two ends of dual Piston respectively, make two
Double two piston rod ring flanges of rod hydraulic jack are connected individual second square tube shape telescopic arm blind end with dual Piston respectively, and second
Square tube shape fixed arm is sheathed on two the second square tube shape telescopic arms, makes the double rod hydraulic jack square flange pair of dual Piston
Claim to be fixed on the second square tube shape fixed arm endoporus upper surface, it is solid that the 3rd laser displacement sensor is symmetrically fixed on the second square tube shape
Determine above arm, the 3rd range finding reference plate is fixed on above the second square tube shape telescopic arm, forms cross sliding driving device, by traversing driving
Device is symmetrically fixed in three longeron grooves of entablature;
Insert connecting plate flange in the second square tube shape fixed arm long slot bore, make two bolts hole of connection plate flange and second
Two screwed holes of square tube shape telescopic arm are coaxial, and two bolts screw in pretension, and two rollers are same with two axis holes of connecting plate respectively
Axle penetrates bearing pin;Again by two shaft hole sleeves of another connecting plate on two bearing pins, two connecting plate ring flanges are fixed with one,
So that this connection plate flange is inserted in the second square tube shape fixed arm long slot bore, make two bolts hole of this connection plate flange and the second square tube
Two screwed holes of shape telescopic arm are coaxial, and in addition two bolts screw in pretension, form coupling assembly, repeat aforementioned assembly operation, group
Become another coupling assembly, four grab mechanisms arm ring flanges are respectively fixedly connected with below four cantilever beams, the composition clear stone of grab bucket
Device;
Described ballast collection arranging device be by cmos imageing sensor, casing, two stone removing doors, two collection crossdrifts, two
Calculus door drive, two collection crossdrift driving means, crossbeam, several second elastic connecting component, the second dither motors
Form with two end caps, crossbeam is provided with several bolts hole, and end cap is provided with sand discharge Tu Zui;
Described casing be provided with base plate, flechette-type bottom, two the first Ji Shicang, the second Ji Shicang, two square tube shape holes, two
Individual gradual change isosceles trapezoid skewed slot, four first convex stupefied and two second convex stupefied, base plate is provided with several bolts hole, and flechette-type bottom sets
There are several sieve apertures, the first Ji Shicang is provided with symmetrical two calculus mouth and two Ji Shikou, the second Ji Shicang is provided with symmetrical two
Individual calculus mouth and two Ji Shikou, the first convex stupefied top and bottom are provided with symmetrical two ears ring, and it is right that the second convex stupefied top and bottom are provided with
The two ears rings claiming, stone removing door is provided with two the first monaural rings and four the second monaural rings, and collection crossdrift is provided with two first lists
Earrings, four the second monaural rings and six spill plates;
Described calculus door drive drives oil cylinder, the first push-pull bar and the second push-pull bar to form by stone removing door, the
One push-pull bar is provided with the first ears ring and the second ears ring, and the second push-pull bar is provided with the first ears ring and the second ears ring;
Described collection crossdrift driving means drive oil cylinder, the 3rd push-pull bar and the 4th push-pull bar to form by collection crossdrift, the
Three push-pull bars are provided with the first ears ring and the second ears ring, and the 4th push-pull bar is provided with the first ears ring and the second ears ring;
The second described elastic connecting component and the first Flexible Connector composition and version the same;
Stone removing door drives cylinder piston rod monaural ring, first push-pull bar the first ears ring, second push-pull bar the first ears ring
Coaxially penetrate pin hinge to connect, form calculus door drive, collection crossdrift cylinder piston rod monaural ring, the 3rd push-pull bar first
Ears ring, the 4th push-pull bar the first ears ring coaxially penetrate pin hinge and connect, composition collection crossdrift driving means;
Four the second monaural rings of stone removing door respectively with the ears ring of two the first convex stupefied lower surfaces, second convex stupefied following
Two ears rings coaxially penetrate pin hinge and connect, and four the second monaural rings of collection crossdrift are first convex stupefied above with two respectively
Ears ring, two ears rings of the second convex stupefied upper surface coaxially penetrate pin hinge and connect;
Stone removing door two is driven oil cylinders to be respectively fixedly connected with the medial wall in two square tube shape holes, two the first push-pull bars the
Two ears rings are co-axially inserted pin hinge with two the first monaural rings of stone removing door respectively and are connected, two second push-pull bar the second ears
Ring is co-axially inserted pin hinge with two the first monaural rings of another stone removing door respectively and is connected, will be solid respectively for two collection crossdrift oil cylinders
Be connected on the lateral wall in two square tube shape holes, two the 3rd push-pull bar the second ears rings respectively with collection two the first monaural rings of crossdrift
Be co-axially inserted pin hinge to connect, two the 4th push-pull bar the second ears rings respectively with two the first monaural rings of another stone removing door
It is co-axially inserted pin hinge to connect, two end caps are respectively fixedly connected with casing;
Bolt is passed through sill bolt hole, helical spring is sheathed on bolt, then passes through box bottom bolt hole,
Again another helical spring is sheathed on bolt, pad is sheathed on bolt, hex nut pretension, casing and crossbeam realize bullet
Property connect;Second dither motor is symmetrically connected on box bottom, and crossbeam is symmetrically fixed on two longerons of railcar,
Cmos imageing sensor is fixed on below crossbeam, forms ballast collection arranging device;
Described pillow end clear stone device be by the second entablature assembly, the second retractable driving device, the 4th lowering or hoisting gear,
Two grab mechanisms and u shape bar composition;
The second described entablature assembly and the first entablature assembly composition and version are the same, carry out with first on horizontal
Beam assembly identical assembly operation, forms the second entablature assembly;
The second described retractable driving device forms with the first retractable driving device and version is the same, carries out and first
Retractable driving device identical assembly operation, forms the second retractable driving device;
The 4th described lowering or hoisting gear and the first lowering or hoisting gear composition and version the same, carry out and the first lowering or hoisting gear
Identical assembly operation, forms the 4th lowering or hoisting gear;
The second described grab mechanisms and the first grab mechanisms composition and version the same, carry out and the first grab mechanisms
Identical assembles, and forms the second grab mechanisms;
Arm ring flange is connected with u shape bar, then u shape bar is fixed on the first square tube shape telescopic arm, composition pillow end is clear
Stone device;
Described sprocket calculus device is by the 3rd entablature assembly, the 3rd retractable driving device the 5th lowering or hoisting gear and chain
Tooth row stone assembly forms;
The 3rd described entablature assembly is by third party's tubular fixed arm, two third party's tubular telescopic arms, the 4th swashs
Optical displacement sensor and the 4th range finding reference plate composition, third party's tubular fixed arm is provided with four ears rings, and third party's tubular is stretched
Contracting arm is provided with blind end;
The 3rd described retractable driving device is by third party's tubular fixed arm, the double rod hydraulic jack and two of dual Piston
Individual third party's tubular telescopic arm composition, the cylinder body of the double rod hydraulic jack of dual Piston is provided with square flange, piston rod freely
End is provided with ring flange;
Two third party's tubular telescopic arms are sheathed thereon from the double rod hydraulic jack two ends of dual Piston respectively, make the
Double rod hydraulic cylinder piston rod ring flanges are connected three square tube shape telescopic arm blind ends with dual Piston, third party's tubular fixed arm
It is sheathed on two third party's tubular telescopic arms, make the double rod hydraulic jack square flange of dual Piston symmetrically be fixed on the 3rd
On square tube shape fixed arm endoporus upper surface, form the 3rd retractable driving device, the 4th laser displacement sensor is symmetrically fixed on the
Above three square fixed arms, the 4th range finding reference plate is fixed on above third party's tubular telescopic arm;
As the composition of the 5th lowering or hoisting gear and the first lowering or hoisting gear, except aforesaid third party's tubular fixed arm and first liter
Falling unit entablature version is different, and remaining all component structural form is the same;
Carry out and the first lowering or hoisting gear identical assembly operation, by four the 3rd forks and the second square tube shape fixed arm hinge
Connect, first laser displacement transducer is fixed on below third party's tubular fixed arm, form the 5th lowering or hoisting gear;
Described sprocket calculus assembly is by double output shaft hydraulic motor, two yielding couplings, two sprocket calculus portions
Part, u shape bar, eight c shape bars and suspension bracket composition, u shape bar is provided with two circular flange disks and square flange, and c shape bar is provided with the
One ring flange and second flange disk, suspension bracket is provided with two first flange disks and eight second flange disks;
Described sprocket calculus part be by square beam, sprocket wheel, sprocket wheel wheel shaft, inducer, inducer wheel shaft, four hold
Roller, four BOGEY WHEEL wheel shafts, several chain tooth assembly sum bearing pins composition, square beam be provided with the first ears ring, second
Ears ring and four the 3rd ears rings;
By square beam the first ears ring and sprocket coaxiality, penetrate sprocket wheel wheel shaft chain connection, square beam second ears
Ring is coaxial with inducer, penetrates inducer wheel shaft chain connection, and square beam the 3rd ears ring is coaxial with BOGEY WHEEL, penetrates load-bearing
Wheel wheel shaft chain connection, makes square beam, sprocket wheel, inducer and four BOGEY WHEELs be assembled into one;
Described chain tooth assembly is made up of sleeve and chain link;
Described chain link is made up of two bolts, two nuts, chain tooth plate, the first carrier bar and the second carrier bar, chain tooth plate
It is provided with two bolts hole and several equal strength sprocket, the first carrier bar is provided with the first monaural ring, the second monaural ring and the 3rd monaural ring,
Second carrier bar is provided with the first monaural ring, the second monaural ring and the 3rd monaural ring;
Will be coaxial to sprocket crab bolt hole and first carrier bar the second monaural ring, penetrate bolt, nut pretension, chain tooth plate another
Bolt hole and second carrier bar the second monaural ring are coaxial, penetrate bolt, nut pretension, form chain link, by the first chain of the first chain link
Plate the first monaural ring, second chain link the first carrier bar the 3rd monaural ring, sleeve, second chain link the second carrier bar the 3rd monaural ring and first
Chain link the second carrier bar the first monaural ring coaxially penetrates pin hinge and connects, and repeats aforementioned operation, until by hinged for several chain links one
Body, will be placed on it to the square beam being assembled into one, sprocket wheel, inducer and four BOGEY WHEELs, by the first carrier bar of last chain link
First monaural ring, first chain link the first carrier bar the 3rd monaural ring, sleeve, first chain link the second carrier bar the 3rd monaural ring and last chain
Save second carrier bar the first monaural ring and coaxially penetrate pin hinge connection, make all chain tooth assembly chain connections annular integrative-structures,
Composition sprocket calculus part,
Double output shaft hydraulic motor double output shaft, two yielding couplings and two sprocket wheel wheel shafts are connected, u shape bar is square
Ring flange is fixed on the 3rd double output shaft hydraulic motor, eight c shape bar second flange disks be respectively symmetrically be fixed on two square
On crossbeam, eight second flange disks of suspension bracket respectively with eight c shape bar first flange disks be connected, two circular flange disks of u shape bar and
Two first flange disks of suspension bracket are respectively fixedly connected with third party's tubular telescopic arm, form sprocket calculus device;
Described sleeper four nut synchronization assembling and disassembling device is by entablature, the 6th lowering or hoisting gear and two nut assembling and disassembling devices
Composition, entablature is provided with four ears rings;
The 6th described lowering or hoisting gear and the first lowering or hoisting gear composition, the 6th lowering or hoisting gear the first series connection parallel four-bar
The sill of mechanism is provided with five ears rings and symmetrical two long slot bores, and the first fork is provided with ladder slotted eye, except aforesaid
The entablature version of six lowering or hoisting gear entablatures and the first lowering or hoisting gear is different, the 6th lowering or hoisting gear sill and first
The Lower Crossbeam Structure form of lowering or hoisting gear is different, the first fork knot of the 6th lowering or hoisting gear the first fork and the first lowering or hoisting gear
Configuration formula is different, and remaining all component structural form is the same;
Carry out and the first lowering or hoisting gear identical assembly operation, by four the 3rd forks and entablature chain connection, by the
One laser displacement sensor is fixed on below entablature, forms the 6th lowering or hoisting gear;
Described nut assembling and disassembling device be by two suspension rods, the first spiral rotary actuator, Shang Gai, circular connecting plate,
First hex nut, internal gear, two power transmission shafts, two gears, housing, two the first thrust bearings, two the second thrust axis
Hold, two the second hex nuts, two yielding couplings and two interior wide-mouth magnetic coupling boxs form, the first spiral swings liquid
Pressure motor is provided with ring flange, its output shaft is provided with circular shaft section and six prism shaft parts, is above covered with axis hole, circular connecting plate is provided with six
Prism hole, power transmission shaft is provided with the first axle journal, the second axle journal, the 3rd axle journal, the 4th axle journal and thread segment, housing be provided with ring flange and
Two axis holes, interior wide-mouth magnetic coupling box is provided with axle journal;
Upper lid is sheathed on the first spiral rotary actuator output shaft circular shaft section, makes lid swing hydraulic pressure with the first spiral
Motor ring flange is connected, more circular connecting plate is sheathed on the first spiral rotary actuator output shaft six prism shaft part, and first
Hex nut pretension, internal gear is coaxially connected with circular connecting plate, and geared sleeve is connected located at power transmission shaft first axle journal, the first thrust
On power transmission shaft second axle journal, power transmission shaft makes the first thrust bearing contact with housing through housing axis hole to bearing holder (housing, cover), and second pushes away
On power transmission shaft the 3rd axle journal, the second hex nut screws on power transmission shaft thread segment pretension to power bearing holder (housing, cover), and yielding coupling makes biography
Moving axis the 4th axle journal is coaxially connected with interior wide-mouth magnetic coupling box axle journal, and internal gear is inserted in housing, the gear teeth of two gears
The flank of tooth gear teeth face with internal gear respectively, upper lid is connected with shell flange disk, and one end of two suspension rods is symmetrically fixed on
Housing both sides, form nut assembling and disassembling device, and the other end of two suspension rods is symmetrically fixed on two sides of entablature, and sill is connected
On two side rail inner faces of railcar, composition sleeper four nut synchronization assembling and disassembling device;
The first described rail-lifting equipment by entablature, the 7th lowering or hoisting gear and carries rail assembly and forms, and entablature is provided with four
Individual ears ring;
As the 7th described lowering or hoisting gear is formed with the first lowering or hoisting gear, except aforesaid 7th lowering or hoisting gear entablature and
First lowering or hoisting gear entablature version is different, and remaining all component structural form is the same;
Carry out and the first lowering or hoisting gear identical assembly operation, by four the 3rd forks and entablature chain connection, by the
One laser displacement sensor is fixed on below entablature, forms the 7th lowering or hoisting gear;
The described rail assembly that carries is by two suspension rods, suspension bracket, the second spiral rotary actuator, opposite crank, two companies
Bar, two I-shaped tubular travelling arms, I-shaped tubular fixed arm and two first carry rail hydraulic jack composition, and suspension rod is provided with the first method
Blue disk and second flange disk, the second spiral rotary actuator output shaft free end is provided with ring flange, and opposite crank is provided with two
Monaural ring, connecting rod is provided with monaural ring and ears ring, and I-shaped tubular travelling arm is provided with semicylindrical opening and ears ring, and I-shaped tubular is fixed
Arm is provided with two symmetrical semicylindrical openings, and first carries that rail cylinder body of hydraulic oil cylinder is provided with gusset, piston rod free end is provided with support
Plate;
First is carried rail hydraulic jack be fixed in I-shaped tubular travelling arm semicylindrical opening, opposite crank and the second spiral are put
Hydrodynamic pressure motor output shaft ring flange is coaxially connected, and the second spiral rotary actuator is symmetrically fixed on suspension bracket lower surface, suspension bracket
Symmetrically it is fixed on I-shaped tubular fixed arm upper surface, I-shaped tubular travelling arm is sheathed on it from I-shaped tubular fixed arm two ends
On, I-shaped tubular travelling arm ears ring coaxially penetrates pin hinge with connecting rod monaural ring and is connected, connecting rod ears ring and opposite crank
Monaural ring coaxially penetrates pin hinge and connects, and makes two first to carry rail hydraulic jack and is symmetrical arranged, two suspension rod second flange disks
Symmetrically it is fixed on above suspension bracket, composition carries rail assembly, and two suspension rod first flange disks are symmetrically fixed on entablature side, and composition carries
Rail device;
Described swivel block and push-and-pull sleeper device be by first crossbeam telescopic component, first crossbeam retractable driving device,
One tumbler, two connecting plates and crawl and swivel block device composition;
Described first crossbeam telescopic component is by the 4th square tube shape fixed arm, the 4th square tube shape telescopic arm, the 5th laser
Displacement transducer forms, and the 4th square tube shape fixed arm is provided with blind end, and the 4th square tube shape telescopic arm is provided with dividing plate;
As described first crossbeam retractable driving device is formed with the first retractable driving device, except aforementioned 4th square tube shape
Fixed arm and the first square tube shape fixed arm version is different, the 4th square tube shape telescopic arm and the first square tube shape telescopic arm structure
Form is different, and remaining all component structural form is the same;
Carry out and the first retractable driving device identical assembly operation, form first crossbeam retractable driving device, the 5th swashs
Optical displacement sensor is symmetrically fixed on above the 4th square tube shape fixed arm;
The first described tumbler is hollow by the 4th square tube shape telescopic arm, the 3rd spiral rotary actuator, cantilever
Multidiameter, the first thrust bearing, the first casing, the second thrust bearing, the first hex nut, circular connecting plate, the second hexagonal spiral shell
Mother, end cap and equi intensity cantilever composition, the 3rd spiral rotary actuator output shaft is provided with thread segment and six prism shaft parts, hangs
The hollow multidiameter of arm is provided with thread segment, the first axle journal, the second axle journal, the 3rd axle journal and connecting plate, and connecting plate is provided with spacing circular arc
Groove, the first casing is provided with spacer pin and cantilever ladder axle sleeve, and cantilever multidiameter is arranged with the first axle sleeve, the second axle sleeve and the 3rd axle
Set, end cap is provided with bearing pin, and circular connecting plate is provided with six prism axis holes, and equi intensity cantilever is provided with pin shaft hole and ring flange;
3rd spiral rotary actuator is fixed on the 4th square tube shape telescopic arm plate front end base plate, hollow cantilever rank
Terraced axle sleeve, on the 3rd spiral rotary actuator, makes cantilever hollow multidiameter connecting plate be fixed on the 4th square tube shape telescopic arm
End face, the first thrust bearing is sheathed on the hollow multidiameter of cantilever the 3rd axle journal, and the first casing cantilever ladder axle sleeve is sheathed on sky
On heart cantilever multidiameter, the first thrust bearing is made to insert the first casing cantilever ladder axle sleeve the 3rd axle sleeve section, cantilever ladder axle sleeve
Second axle sleeve section is sheathed on hollow multidiameter second axle journal, and the second thrust bearing is sheathed on cantilever hollow multidiameter the first axle journal
On, insert cantilever ladder axle sleeve first axle set section, the first hex nut screws in cantilever hollow multidiameter thread segment pretension, makes first
Casing and cantilever hollow multidiameter chain connection, circular connecting plate is sheathed on the 3rd spiral rotary actuator output shaft six prism
Shaft part, makes circular connecting plate be fixed on casing cantilever ladder axle sleeve free end, the second hex nut screws in the 3rd spiral and swings liquid
Pressure motor output shaft thread segment pretension, makes the 3rd spiral rotary actuator output shaft and the first casing be connected, end cap is fixed on
On first casing, equi intensity cantilever pin-and-hole is sheathed on end cap bearing pin, and equi intensity cantilever ring flange is fixed on the 4th square tube
Above shape telescopic arm, form the first tumbler;
Described crawl and swivel block device are by the second casing, the 3rd spiral rotary actuator, hydraulic jack, first push away
Power bearing, the second thrust bearing, the 3rd hex nut, piston, piston rod, ladder u shape support, first connecting rod, second connecting rod, two
Individual second fork, two rollers, end cap and two mechanical gripper device compositions, the second casing be provided with symmetrical four screwed hole, the
One circular hole portion, fan-shaped hole section, the second circular hole portion, axle sleeve section and the 3rd circular hole portion, the 3rd spiral rotary actuator output shaft is solid
Even ring flange, ring flange is provided with spacing sector boss, and fan-shaped hole section is provided with the first confined planes and the second confined planes, and hydraulic jack sets
There are ring flange, the first axle journal, the second axle journal and the 3rd axle journal, ring flange is provided with spacing sector boss, piston is provided with axis hole, piston
Bar is provided with axle journal and ears ring, and ladder u shape support is provided with flange, axis hole, two slotted eyes, two pin-and-holes, four the first monaural rings
With eight the second monaural rings, first connecting rod is provided with ears ring and monaural ring, and second connecting rod is provided with two ears rings, and the second fork sets
There are monaural ring, pin-and-hole and ears ring;
Described gripper is made up of ladder u shape support, four the 3rd forks, two helical springs and pressing plate, the
Three forks are provided with two ears rings, and pressing plate is provided with two the first monaural rings and four the second monaural rings;
By spacing for the 3rd spiral rotary actuator output shaft ring flange sector boss and the spacing fan of hydraulic jack ring flange
Shape boss aligns connected, and the first thrust bearing is sheathed on hydraulic jack first axle journal, and hydraulic jack is penetrated the second casing rank
Terraced in the hole, makes the 3rd spiral rotary actuator output shaft ring flange and hydraulic jack ring flange insert second casing the first circular hole
Section, makes the 3rd spiral rotary actuator output shaft ring flange spacing sector boss and hydraulic jack ring flange spacing sector boss
Insert in fan-shaped hole section, so that two spacing sector boss left surfaces is contacted with fan-shaped hole section first confined planes, make the first thrust axis
Bearing enters second casing the second circular hole portion, so that the 3rd spiral rotary actuator is fixed on the second box bottom, make end cap with
Second casing is connected;
Second thrust bearing is sheathed on so as to insert the second casing the 3rd circular hole portion section on hydraulic jack the 3rd axle journal,
Piston rod passes through ladder u shape rack shaft hole, and piston shaft hole sleeve, located at piston rod axle journal, the 3rd hex nut pretension, piston is put
Enter in hydraulic jack cylinder barrel, ladder u shape bracket flange is penetrated hydraulic jack cylinder barrel and is connected, make oil cylinder second axle journal and the first case
Body axle sleeve section chain connection, piston rod ears ring, second connecting rod ears ring and first connecting rod monaural ring are coaxially penetrated bearing pin hinge
Chain connects, and the second fork ears ring coaxially penetrates pin hinge with roller and be connected, the second fork pin-and-hole and ladder u shape support pin-and-hole
Coaxially penetrate pin hinge to connect, first connecting rod ears ring and second connecting rod ears ring are same with two the first fork monaural rings respectively
Axle penetrates pin hinge and connects;
The ears ring of four the second forks coaxially penetrates pin hinge even respectively with four the second monaural rings of ladder u shape support
Connect, another ears ring of four the second forks coaxially penetrates pin hinge with four the second monaural rings of pressing plate respectively and is connected, two
Individual helical spring one end is connected with two the first monaural rings of ladder u shape support respectively, and two helical spring other ends are respectively
It is connected with two the first monaural rings of pressing plate, form gripper, the pulling force of two helical springs, make to be articulated with the rolling of the first fork
Wheel is contacted with pressing plate all the time, repeats aforementioned assembly operation, assembles another gripper, composition crawl and swivel block device;
First casing is fixed with one by two connecting plates with the second casing, forms swivel block and push-and-pull sleeper device;
The refitting by the second rail-lifting equipment, reciprocating motion storage sleeper device and rigid hanger of described sleeper handling apparatus
Put composition;
The second described rail-lifting equipment be by second cross beam telescopic component, second cross beam retractable driving device, two second
Tumbler, four connecting plates, two box connectors and two second carry rail hydraulic jack composition, and box connector symmetrically sets
There is semicylindrical opening, second carries that rail cylinder body of hydraulic oil cylinder is provided with gusset, piston rod free end is provided with fagging;
Described second cross beam telescopic component be by the 5th square tube shape fixed arm, two the 5th square tube shape telescopic arms, the 6th
Laser displacement sensor and the 6th range finding reference plate composition, the 5th square tube shape telescopic arm is provided with dividing plate;
Described second cross beam retractable driving device is the same with the composition of the 3rd retractable driving device, except aforesaid 5th side
Tubular fixed arm and third party's tubular fixed arm version is different, the 5th square tube shape telescopic arm and third party's tubular telescopic arm
Version is different, and remaining all component structural form is the same;
Carry out and the 3rd retractable driving device identical assembly operation, form second cross beam retractable driving device, the 6th swashs
Optical displacement sensor is symmetrically fixed on the 5th square tube shape fixed arm side, and the 6th range finding reference plate is fixed on the 5th square tube shape and stretches
Arm side;
Second tumbler form with the first tumbler and version as, carry out and the first tumbler identical
Assembly operation, forms the second tumbler;
First casing is fixed with one by two connecting plates with box connector, two second is carried rail hydraulic jack solid respectively
It is connected in two box connecting rod semicylindrical openings, form the second rail-lifting equipment, the 5th square tube shape fixed arm is symmetrically fixed on track
On two longerons of car;
Described reciprocating motion storage sleeper device is made up of reciprocator and storage sleeper case, stores sleeper case
It is provided with two rollers and several sleeper storehouse, wherein left side half sleeper storehouse is used for having stored sleeper, and right side half sleeper storehouse is used for
Store bad sleeper.
Described reciprocator is by base plate, two series connection parallelogram lindages, reciprocating movement driving devices and the
Seven laser displacement sensor compositions;
Described series connection parallelogram lindage is by fixed cross beam, two the first forks, connecting rod, two the second forks and shiftings
Crossbeam forms, and connecting rod is provided with two monaural rings, and moving beam is provided with two rollers and a circular hole;
Described reciprocating movement driving device is by hydraulic motor, yielding coupling, monaural ring bearing, screw rod and square spiral shell
Female composition, screw rod is provided with the first axle journal and the second axle journal;
By two the first forks respectively with fixed cross beam chain connection, the first fork ears ring, the second fork ears ring and
Connecting rod monaural ring coaxially penetrates pin hinge and connects, another the first fork ears ring, another the second fork ears ring and company
Another monaural ring of bar coaxially penetrates pin hinge and connects, two the second forks respectively with moving beam chain connection, organize bunchiness
Connection parallelogram lindage, repeats aforementioned assembly operation, is symmetrical in fixed cross beam and the vertical plane of symmetry assembling of moving beam is another
Individual parallelogram lindage, base plate is fixed on fixed cross beam lower surface, so that two rollers of moving beam is contacted with plate upper surface,
Hydraulic motor is symmetrically fixed on fixed cross beam side, and monaural ring bearing is sheathed on screw rod second axle journal, and square nut screws on spiral shell
Bar appropriate location, screw rod passes through the circular hole of moving beam, makes square nut be fixed on moving beam side, yielding coupling makes liquid
Pressure motor output shaft is connected with screw rod first axle journal, and monaural ring bearing is fixed on base plate, forms reciprocating movement driving device;
Base plate is fixed on fixed cross beam lower surface, make the four rolling of two rollers of moving beam and motorcycle respectively with
Plate upper surface contacts, and the 7th laser displacement sensor is symmetrically fixed on motion crossbeam side, forms reciprocator;
Base plate is fixed in track car crossbeam and the 5th square tube shape fixed arm, storage sleeper case is fixed on moving beam
On, so that two rollers of storage sleeper case is contacted with substrate, composition moves back and forth storage sleeper device;
Described rigid hanger hoisting apparatus be by two telescopic cantilever boom devices, telescoping crossbeam device, rigid hanger, two
Individual pick-and-place sleeper device and the 8th laser displacement sensor composition;
Described telescopic cantilever boom device is by the first ladder square tube shape fixed arm, the first ladder square tube shape telescopic arm, side
Tubular telescopic arm, the first multi-stage expansion shell type oil cylinder, cantilever beam, end plate, cantilever and the 9th laser displacement sensor composition, first
Ladder square tube shape fixed arm is provided with ring flange and cylinder shoulder, and the first ladder square tube shape telescopic arm is provided with ring flange and cylinder shoulder, square tube shape
Telescopic arm is provided with ring flange and blind end, the first multi-stage expansion shell type oil cylinder be provided with first flange disk, the first extension sleeve, second
Extension sleeve and second flange disk, cantilever beam is provided with ring flange;
End plate is symmetrically fixed on the first multi-stage expansion shell type oil cylinder first flange disk, square tube shape telescopic arm is sheathed on first
Multi-stage expansion shell type oil cylinder, makes the first multi-stage expansion shell type oil cylinder second flange disk symmetrically be fixed on the closing of square tube shape telescopic arm
End, the first ladder square tube shape telescopic arm is sheathed on square tube shape telescopic arm, and the first ladder square tube shape fixed arm is sheathed on the first rank
On terraced square tube shape telescopic arm, the first ladder square tube fixed arm ring flange is made to be connected with end plate, cantilever beam ring flange is fixed on square tube
On shape telescopic arm blind end, cantilever is fixed on cantilever beam ring flange, and the 9th laser displacement sensor is fixed on cantilever, composition
Telescopic cantilever boom device;
Described telescoping crossbeam device be by the second ladder square tube shape fixed arm, the second ladder square tube shape telescopic arm, the 3rd
Ladder square tube shape telescopic arm, the second multi-stage expansion shell type oil cylinder, end cap and push pedal composition, the second ladder square tube shape fixed arm is provided with
Ring flange, cylinder shoulder and long slot bore, the second ladder square tube shape telescopic arm is provided with first shoulder, second shoulder and long slot bore, the 3rd rank
Terraced square tube shape telescopic arm is provided with cylinder shoulder and two monaural rings, and the second multi-stage expansion shell type oil cylinder is provided with first flange disk, the first order
Extension sleeve, second level extension sleeve and second flange disk;
End cap is symmetrically fixed on the second multi-stage expansion shell type oil cylinder first flange disk, the 3rd ladder square tube shape telescopic arm set
On the second multi-stage expansion shell type oil cylinder, the second multi-stage expansion shell type oil cylinder second flange disk is made to stretch with the 3rd ladder square tube shape
Contracting arm blind end is connected, and the second ladder square tube shape telescopic arm is sheathed on the 3rd ladder square tube shape telescopic arm, then by the second ladder
Square tube shape fixed arm is sheathed on the second ladder square tube shape telescopic arm, so that end cap is connected with ladder square tube shape fixed arm ring flange,
Push pedal is fixed on the 3rd ladder square tube shape telescopic arm blind end, and the 8th laser displacement sensor is symmetrically fixed on the second ladder side
Tubular fixed arm side, forms telescoping crossbeam device;
Described rigid hanger is made up of entablature, two pull bars and sill, and entablature is provided with two ears rings, under
Crossbeam is provided with two circular holes;
One end of two pull bars is symmetrically fixed on below entablature, the other end of two pull bars is symmetrically fixed on sill
Above, form rigid hanger;
Described pick-and-place sleeper device is by the 5th spiral rotary actuator, yielding coupling and interior wide-mouth nut group
Become, the 5th spiral rotary actuator is provided with ring flange and output shaft, and interior wide-mouth nut is provided with axle journal;
5th spiral rotary actuator is penetrated in sill circular hole, the 5th spiral rotary actuator ring flange is fixed on down
Above crossbeam, the 3rd yielding coupling makes the 5th spiral rotary actuator output shaft be connected with interior wide-mouth nut axle journal, forms pick-and-place
Sleeper device;
Two telescopic cantilever boom devices are symmetrically fixed on two longerons of railcar, telescoping crossbeam device second ladder side
Tubular fixed arm is fixed on below two cantilever girder cantilevers, and two ears rings of entablature are stretched with the 3rd ladder square tube shape respectively
Two monaural ring coaxial bolts of arm connect, and form sleeper handling apparatus.
The invention has the beneficial effects as follows:
1. quickly equipment can be directed at operating position;
2. can quickly discharge the ballast between sleeper, automatically remove the sandy soil in rock ballast simultaneously;
3. can quickly remove railway roadbed ballast outside pillow end;
4. can quickly remove railway roadbed ballast below rail;
5. it is capable of four nuts synchronously to assemble and disassemble, make four nut pretightning forces consistent, improve the fatigue life of bolt, protect
The reliability that card sleeper is connected with rail;
6. swivel block and push-and-pull sleeper are integrating device, compact conformation, swivel block and push-and-pull sleeper high working efficiency;
7. can quickly handling and put sleeper work;
8. quickly rock ballast can be backfilled to and switch tracks between the sleeper of pillow both sides;
9. can quickly repair the shape of shoulder and railway roadbed;
10. can by be backfilling into the quick tamping of the ballast switching tracks between pillow shake flat;
11. can adapt to straight line and the work in every of pillow is changed in curved rail length section;
12. are capable of automatically controlling, easy to operate, change pillow high working efficiency.
Brief description
Fig. 1 is the off working state schematic perspective view of the present invention.
Fig. 2 is the front view of Fig. 1.
Fig. 3 is that quarrel device off working state schematic perspective view is put down in the tamping of the present invention.
Fig. 4 is that quarrel working state of device schematic perspective view is put down in the tamping of the present invention.
Fig. 5 is the first lifting drive exploded perspective schematic diagram of the present invention.
Fig. 6 is the first servo-actuated Equipoising support apparatus exploded perspective schematic diagram of lifting of the present invention.
Fig. 7 is the front view of Fig. 3.
Fig. 8 is close-up schematic view at a in Fig. 7.
Fig. 9 is road shoulder and the railway roadbed modification device working condition schematic perspective view of the present invention.
Figure 10 is the first retractable driving device exploded perspective schematic diagram of the present invention.
Figure 11 is the second lifting drive exploded perspective schematic diagram of the present invention.
Figure 12 is the second servo-actuated Equipoising support apparatus exploded perspective schematic diagram of lifting of the present invention.
Figure 13 is the first bucket device exploded perspective schematic diagram of the present invention.
Figure 14 is that the grab bucket clear stone device lasher of the present invention makees one of state schematic perspective view.
Figure 15 is that the grab bucket clear stone device lasher of the present invention makees two schematic perspective views of state.
Figure 16 is the grab bucket clear stone device collection stone working condition schematic perspective view of the present invention.
Figure 17 is the grab bucket clear stone device calculus working condition schematic perspective view of the present invention.
Figure 18 is the 3rd lifting drive exploded perspective schematic diagram of the present invention.
Figure 19 is the 3rd servo-actuated Equipoising support apparatus exploded perspective schematic diagram of lifting of the present invention.
Figure 20 is the first grab mechanisms exploded perspective schematic diagram of the present invention.
Figure 21 is the cross sliding driving device exploded perspective schematic diagram of the present invention.
Figure 22 is the coupling assembly of the present invention and two cantilever beam exploded perspective schematic diagrams.
Figure 23 is the ballast collection arranging device collection stone working condition schematic perspective view of the present invention.
Figure 24 is close-up schematic view at b in Figure 23.
Figure 25 is the ballast collection arranging device calculus working condition schematic perspective view of the present invention.
Figure 26 is n-n section view schematic perspective view in Figure 23.
Figure 27 is the pillow end clear stone working state of device schematic perspective view of the present invention.
Figure 28 is the second retractable driving device exploded perspective schematic diagram of the present invention.
Figure 29 is the 4th lifting drive exploded perspective schematic diagram of the present invention.
Figure 30 is the 4th servo-actuated Equipoising support apparatus exploded perspective schematic diagram of lifting of the present invention.
Figure 31 is the second grab mechanisms exploded perspective schematic diagram of the present invention.
Figure 32 is the sprocket calculus working state of device schematic perspective view of the present invention.
Figure 33 is the 3rd retractable driving device exploded perspective schematic diagram of the present invention.
Figure 34 is the 5th lifting drive exploded perspective schematic diagram of the present invention.
Figure 35 is the 5th servo-actuated Equipoising support apparatus exploded perspective schematic diagram of lifting of the present invention.
Figure 36 is the sprocket calculus device schematic perspective view of the present invention.
Figure 37 is the sprocket calculus assembly exploded perspective schematic diagram of the present invention.
Figure 38 is the chain link exploded perspective schematic diagram of the present invention.
Figure 39 is the sleeper four nut synchronization assembling and disassembling device working condition schematic perspective view of the present invention.
Figure 40 is the 6th lifting drive exploded perspective schematic diagram of the present invention.
Figure 41 is the 6th servo-actuated Equipoising support apparatus exploded perspective schematic diagram of lifting of the present invention.
Figure 42 is the nut assembling and disassembling device exploded perspective schematic diagram of the present invention.
Figure 43 is rail-lifting equipment and swivel block and the push-and-pull sleeper device off working state schematic perspective view of the present invention.
Figure 44 is the 7th lifting drive exploded perspective schematic diagram of the present invention.
Figure 45 is the 7th servo-actuated Equipoising support apparatus exploded perspective schematic diagram of lifting of the present invention.
Figure 46 be the present invention carry rail assembly schematic perspective view.
Figure 47 is the swivel block of the present invention and working condition schematic perspective view cut open by push-and-pull sleeper device side wall.
Figure 48 is the first crossbeam retractable driving device exploded perspective schematic diagram of the present invention.
Figure 49 is the first tumbler exploded perspective schematic diagram of the present invention.
Figure 50 is crawl and the swivel block device exploded perspective schematic diagram of the present invention.
Figure 51 is the handling sleeper device off working state schematic perspective view of the present invention.
Figure 52 is the second rail-lifting equipment working condition schematic perspective view of the present invention.
Figure 53 is that off working state schematic perspective view cut open by the second rail-lifting equipment side wall of the present invention.
Figure 54 is the second cross beam retractable driving device exploded perspective schematic diagram of the present invention.
Figure 55 is the second tumbler exploded perspective schematic diagram of the present invention.
Figure 56 makes two connecting plates of the present invention, box connector and second carry rail hydraulic jack exploded perspective schematic diagram.
Figure 57 is the reciprocator schematic perspective view of the present invention.
Figure 58 is the storage sleeper case schematic perspective view of the present invention.
Figure 59 is the handling sleeper working state of device schematic perspective view of the present invention.
Figure 60 is the telescopic cantilever boom device exploded perspective schematic diagram of the present invention.
Figure 61 is the telescoping crossbeam device exploded perspective schematic diagram of the present invention.
Figure 62 is the left view of Figure 51.
Figure 63 is close-up schematic view at d in Figure 62.
Specific embodiment
Refer to shown in Fig. 1 and Fig. 2, the present invention is clear by tamping flat quarrel device 1, road shoulder and railway roadbed modification device 2, grab bucket
Stone device 3, ballast collection arranging device 4, pillow end clear stone device 5, sprocket calculus device 6, four nuts synchronization assembling and disassembling devices 7, first carry
Rail device 8, transition and push-and-pull sleeper device 9, sleeper handling apparatus 15, electromotor 18, Hydraulic system and control System cabine 19 and
Railcar 20 forms.Railcar is provided with multiple castors 201 and two longerons 202, tamping flat quarrel device 1, road shoulder and railway roadbed correction of the flank shape
Device 2, clear stone device 3 of grabbing bucket, ballast collection arranging device 4, pillow end clear stone device 5, sprocket calculus device 6, four nuts are synchronously assembled and disassembled
Device 7, the first rail-lifting equipment 8, transition and push-and-pull sleeper device 9, sleeper handling apparatus 15, electromotor 18 and hydraulic system and control
System cabine 19 processed is arranged on two longerons 202 of railcar, and railcar 20 is drawn by engineering truck, and electromotor 18 is oil pump and control
System processed provides power, is provided with fuel tank, oil pump, hydraulic control system and automatically controls and be in Hydraulic system and control System cabine 19
System;
Refer to shown in Fig. 3 to Fig. 8, it is by entablature 11, the first lowering or hoisting gear 12 and to shake that quarrel device 1 is put down in described tamping
Smash assembly 13 to form, entablature 11 is provided with two connecting plates 111 and four ears rings 112, connecting plate is provided with several bolts hole
1111;
Described lowering or hoisting gear 12 be by two first series connection parallelogram lindages 121, the first lifting drive 122,
Servo-actuated Equipoising support apparatus 124 and first laser displacement transducer 125 form;
Described first series connection parallelogram lindage 121 by sill 1211, the first fork 1212, the second fork 1213,
Two the 3rd forks 1213 and first connecting rod 1215 form, and first connecting rod 1215 is provided with monaural ring 12151 and ears ring 12152;
The first described lifting drive 122 is to stretch out oil cylinder 1221 and two first companies by double multi-stage expansion shell types are double
Bar 1215 forms, and the double two final stage extension sleeve free ends stretching out oil cylinder 1221 of double multi-stage expansion shell types are provided with monaural ring
12211;
Described servo-actuated Equipoising support apparatus 124 be by plate shape entablature 1240, second connect parallelogram lindage 1241,
First strut 1242, the second strut 1243, slide bar 1245, two turriform linear Stiffness springs 1246, two of 1244, two slide blocks
Individual 1247, two the first bolts 1248 of first hex nut and two the second bolts 1249 form, and slide bar 1244 is provided with fixation
Disk 12441, it is arranged with two light bar segments 11342 and two thread segments 11343;Slide block 1245 is provided with circular hole 12451 and
To coaxial threaded blind hole 12452;
The second described series connection parallelogram lindage 1241 is by plate shape entablature 1240, sill 1211, the 4th fork
12412nd, the 5th fork 12413, the 6th fork 12414,12415, two second connecting rods 12416 of the 7th fork and two bearing pins
12417 compositions;
By the first fork 1212 and sill 1211 chain connection, the second fork 1213, the 4th fork 12412 and sill
Chain connection between 1211 3 components, the first fork 1212 ears ring, the 3rd fork 1213 ears ring and first connecting rod 1215 are single
Earrings coaxially penetrates pin hinge and connects, the second fork 1213 ears ring, another the 3rd fork 1213 ears ring, first connecting rod
1215 ears rings and the double oil cylinder monaural ring 12211 that stretches out of double multi-stage expansion shell type coaxially penetrate pin hinge connection, form first
Series connection parallelogram lindage 121, repeats aforementioned assembly operation, is symmetrical in sill 1211 and the assembling of the entablature 11 vertical plane of symmetry
Another the first series connection parallelogram lindage 121;
Two turriform linear Stiffness springs 1246 are symmetrically sheathed on two light bar segments 12442 of slide bar, then by two
Slide block 1245 is sheathed on two light bar segments 12442 of slide bar, two the first hex nut 1247 pretensions respectively respectively, makes two cunnings
Block 1245 makes turriform linear Stiffness spring 1246 suitably compress respectively, by the 5th fork 12413 with sill 1211 hinge even
Connect, make left side monaural ring ears ring, the 6th fork 12414 pairs with the 4th fork 12412 respectively of two second connecting rods 12416
A pair of tapped blind hole 12452 of earrings and slide block is coaxial, two the first bolts 1248 pretensions respectively, make the 4th fork 12412, the
Chain connection between six forks 12414 and 1,245 3 components of slide block, by the right monaural ring of two third connecting rods 12416 respectively with
The ears ring of the 5th fork 12413, the 7th fork 12415 ears ring are coaxial, and two bearing pins 12417 respectively penetrate, and make second even
Chain connection between bar 12416, the 5th fork 12413 and 12,415 3 components of the 7th fork, composition the second series connection parallel four-bar machine
Structure 1241;
A pair of tapped blind hole 12452 by the first strut 1242 ears ring, the second strut 1243 ears ring and slide block 1245
Coaxially, two the second bolt 1249 pretensions respectively, make between the first strut 1242, the second strut 1243 and 1,245 3 components of slide block
Chain connection, the 6th fork 12414, the 7th fork 12415 and the second strut 1243 are respectively with plate shape entablature 1240 hinge even
Connect, form servo-actuated Equipoising support apparatus 124;
A pair of tapped blind hole 23452 by the first strut 2342 ears ring, the second strut 2343 ears ring and slide block 2345
Coaxially, two the second bolt 2349 pretensions respectively, make between the first strut 2342, the second strut 2343 and 2,345 3 components of slide block
Chain connection, the 6th fork 12414, the 7th fork 12415 and the second strut 2343 and plate shape entablature 2340 chain connection, group
Become the first servo-actuated Equipoising support apparatus 234;
Double multi-stage expansion shell types pair are stretched out oil cylinder 1221 and is fixed on plate shape entablature 1240, by four the 3rd forks 1214
With entablature 11 chain connection, first laser displacement transducer 125 is symmetrically fixed on below entablature;Form the first lowering or hoisting gear
12;
The described assembly 13 that vibrates is vibrated by entablature 11, several first elastic connecting component 131, oscillating plate 132, eight
Excellent 133, eight the second hex nuts 134 and the first dither motor 135 form, and the first elastic connecting component 131 is by bolt
1311st, two helical springs 1312, pad 1313 and hex nut 1314 form, and oscillating plate 132 is provided with several bolts hole 1321
With eight circular holes 1322;
Bolt 1311 is passed through entablature 11 connecting plate bolt hole 1311, helical spring 1312 is sheathed on bolt 1311
On, then pass through oscillating plate bolt hole 1321, then another helical spring 1312 is sheathed on bolt 1311,1313 sets of pad
On bolt 1311, hex nut 1314 pretension, elastic connection realized by oscillating plate 132 and entablature 11;Vibrating head 133 passes through
Oscillating plate bolt hole 1321, the second hex nut 134 pretension, the first dither motor 135 is symmetrically fixed on above oscillating plate,
Sill 1211 is symmetrically fixed on two longerons 202 of railcar, composition tamping flat quarrel device 1.
Refer to shown in Fig. 9 to Figure 13, described road shoulder and railway roadbed modification device 2 be by the first entablature assembly 21, the
One retractable driving device 22, the second lowering or hoisting gear 23 and the first bucket device 24 form;
The first described entablature assembly 21 be by the first square tube shape fixed arm 211, the first square tube shape telescopic arm 212,
Dual-laser displacement transducer 213 and the second range finding reference plate 214 form, and the first square tube shape fixed arm 211 is provided with blind end 2111
With four ears rings 2112, the first square tube shape telescopic arm 212 is provided with blind end 2121;
The first described retractable driving device 22 is by the first square tube shape fixed arm 211, two-way ram oil cylinder 221 and
One square tube shape telescopic arm 212 forms, and two-way ram oil cylinder 221 cylinder body is provided with square slider 2211 and ring flange 2212, piston
Bar free end is provided with ring flange 2213;
First square tube shape telescopic arm 212 is sheathed on two-way ram oil cylinder 221, makes the first square tube shape telescopic arm closing
End 2121 is connected with two-way ram cylinder piston rod ring flange 2213, then the first square tube shape fixed arm 211 is sheathed on first
On square tube shape telescopic arm 212, and two-way ram cylinder flange disk 2212 is symmetrically fixed on the first square tube shape fixed arm closing
End 2111, forms the first retractable driving device 22, and two-way ram oil cylinder 221 and the first square tube shape telescopic arm 212 form and move
Pair, second laser displacement transducer 213 is symmetrically fixed on above the first square tube shape fixed arm 211, the second range finding reference plate 214
It is fixed on above the first square telescopic arm 212;
The second described lowering or hoisting gear 23 and the first lowering or hoisting gear 12 form the same, except aforesaid first square tube shape fixed arm
211 and entablature 11 version different, remaining all component structural form is the same;
Carry out and the first lifting drive 12 identical assembly operation, by four the 3rd forks 1214 and the first square tube shape
Fixed arm 211 chain connection, first laser displacement transducer 125 is symmetrically fixed on below the first square tube shape fixed arm 211;Group
Become the second lowering or hoisting gear 23;
Described bucket device 24 is made up of the first bucket assembly 25, arm 26 and u shape suspension rod 27, and arm 26 is provided with list
Earrings 261, the first ears ring 262, the second ears ring 263 and ring flange 264;
The first described bucket assembly 25 is made up of hydraulic jack 251, strut 252, connecting rod 253 and bucket body 254, hydraulic pressure
The piston rod free end of oil cylinder 251 is provided with monaural ring 2511, cylinder body is provided with monaural ring 2512;Strut 252 is provided with ears ring
2521 and monaural ring 2522;Connecting rod 253 is provided with monaural ring 2531 and ears ring 2532, and bucket body 254 is provided with the first ears ring
2541 and the second ears ring 2542;
Cylinder body of hydraulic oil cylinder monaural ring 2512 is coaxially penetrated pin hinge with arm the second ears ring 263 be connected, strut
Monaural ring 2522 coaxially penetrates pin hinge with arm the first ears ring 262 and is connected, bucket body the second ears ring 2542 and arm list
Earrings 261 coaxially penetrates pin hinge and connects, and connecting rod monaural ring 2531 and bucket body the first ears ring 2541 coaxially penetrate bearing pin hinge
Chain connects, and connecting rod ears ring 2532, strut ears ring 2521 and hydraulic cylinder piston rod monocyclic 2511 coaxially penetrate pin hinge
Connect, form the first bucket assembly 25, u shape suspension rod 27 and arm ring flange 264 are connected, form bucket device 24, u shape is hung
Bar 27 is fixed on the first square tube shape telescopic arm 212, and composition road is takeed on and railway roadbed modification device 2;
Refer to shown in Figure 14 to Figure 26, described grab bucket clear stone device 3 is 31, two the 3rd lowering or hoisting gears of entablature
32nd, four the first grab mechanisms 33, traversing assembly 36 and cross sliding driving device 37 form, and entablature 31 is provided with three longerons 311,
Longeron 311 is provided with groove 3111;
The 3rd described lowering or hoisting gear 32 is the same with the composition of the first lowering or hoisting gear 12, except on aforesaid 3rd lowering or hoisting gear
Crossbeam 31 and the first lowering or hoisting gear entablature 11 version are different, and remaining all component structural form is the same;
Carry out and the first lifting drive 12 identical assembly operation, by four the 3rd forks 1214 respectively with entablature
31 chain connections, form the 3rd lowering or hoisting gear, are symmetrical in the horizontal vertical plane of symmetry of entablature 31 and assemble another the 3rd liter
Falling unit, first laser displacement transducer 125 is fixed on below entablature 31;Form the 3rd lowering or hoisting gear 32;
The first described grab mechanisms 33 are made up of two the second bucket assemblies 34 and arm 35, and arm 35 is arranged with
351, two the first ears rings 352 of two monaural rings, 2 second ears rings 353 and ring flange 354;
Second bucket assembly 34 forms with the first bucket assembly 25 and version is the same;
Two cylinder body of hydraulic oil cylinder monaural rings 2512 are coaxially penetrated respectively bearing pin hinge with two the second ears rings 353 of arm
Chain connects, and two strut monaural rings 2522 coaxially penetrate pin hinge with two the first ears rings 352 of arm respectively and are connected, two
Bucket body the second ears ring 2542 coaxially penetrates pin hinge with two monaural rings 351 of arm respectively and is connected, two connecting rod monaural rings
2531 coaxially penetrate pin hinge with two bucket body the first ears rings 2541 respectively is connected, connecting rod ears ring 2532, strut ears
Ring 2521 and hydraulic cylinder piston rod monocyclic 2511 coaxially penetrate pin hinge and connect, and form the first grab mechanisms 33;
Described traversing assembly 36 is by 361, two the second square tube shape telescopic arms of the second square tube shape fixed arm 362, two
363, four cantilever beams 364 of coupling assembly, the 3rd laser displacement sensor 365 and the 3rd range finding reference plate 366 form;Second party
Tubular fixed arm 361 is arranged with four long slot bores 3611, and the second square tube shape telescopic arm 362 is provided with blind end 3621 and symmetrical four
Individual screwed hole 3622, cantilever beam 364 is provided with ring flange 3641;
Described coupling assembly 363 is by two connecting plates, 3632, two bearing pins 3633 of 3631, two rollers and four spiral shells
Bolt 3634 forms, and connecting plate 3631 is provided with 36311, two axis holes 36312 of ring flange and a rectangular flange 36313, rectangular
Shape flange 36313 is provided with two bolts hole 36314;
Described cross sliding driving device 37 is by the second square tube shape fixed arm 362, the double rod hydraulic jack 371 of dual Piston
Form with two the second square tube shape telescopic arms 362, double rod hydraulic jack 371 cylinder body of dual Piston is provided with square flange
3711st, piston rod free end is provided with ring flange 3712;
Two the second square tube shape telescopic arms 372 are sheathed on it from double rod hydraulic jack 371 two ends of dual Piston respectively
On, make two the second square tube shape telescopic arm blind ends 3621 double two piston rod flanges of rod hydraulic jack with dual Piston respectively
Disk 3712 is connected, and the second square tube shape fixed arm 361 is sheathed on two the second square tube shape telescopic arms 362, so that dual Piston pair is gone out
Bar hydraulic jack square flange 3611 is symmetrically fixed on the second square tube shape fixed arm 361 endoporus upper surface, the 3rd laser position
Displacement sensor 365 is symmetrically fixed on above the second square tube shape fixed arm 361, and the 3rd range finding reference plate 366 is fixed on the second square tube
Above shape telescopic arm 362, form cross sliding driving device 37, cross sliding driving device 37 is symmetrically fixed on three longerons of entablature recessed
In groove 3111;
Insert connecting plate flange 36313 in the second square tube shape fixed arm long slot bore 3611, make two spiral shells of connection plate flange
Two screwed holes 3622 of keyhole 36314 and the second square tube shape telescopic arm are coaxial, and two bolts 3634 screw in pretension, by two rollers
3632 coaxially penetrate bearing pin 3633 with two axis holes 36312 of connecting plate respectively;Again by 36312 sets of two axis holes of another connecting plate
On two bearing pins 3633, two connecting plate ring flanges 36311 are fixed with one, and make this connection plate flange 36313 insert second
In square tube shape fixed arm long slot bore 3611, make two bolts hole 36314 of this connection plate flange and the second square tube shape telescopic arm two
Screwed hole 3622 is coaxial, and in addition two bolts 3634 screw in pretension, form coupling assembly 363, repeat aforementioned assembly operation, composition
Another coupling assembly 363, four grab mechanisms arm ring flanges 354 are respectively fixedly connected with below four cantilever beams 364, and composition is grabbed
Struggle against clear stone device 3;
Described ballast collection arranging device 4 is by cmos imageing sensor 40,42, two collection stones of 41, two stone removing doors of casing
44, two collection crossdrift driving means 45 of 43, two calculus door drives of door, crossbeam 46, several second elastic connecting component 47,
Second dither motor 48 and two end caps 49 form, and crossbeam 46 is provided with several bolts hole 461, and end cap 49 is provided with sand discharge Tu Zui
491;
Described casing 41 is provided with base plate 411,412, two first collection stone storehouses 413, second of flechette-type bottom collect stone storehouse 414,
Two 415, two, square tube shape hole gradual change isosceles trapezoid skewed slots 416, four first convex stupefied 417 and two second convex stupefied 418, base plate
411 are provided with several bolts hole 4111, and flechette-type bottom 412 is provided with several sieve apertures 4121, and the first collection stone storehouse 413 is provided with symmetrical two
Individual calculus mouth 4131 and two collection stone mouths 4132, the second collection stone storehouse 414 is provided with symmetrical two calculus mouth 4141 and two collection stones
Mouth 4142, the first convex stupefied 417 top and bottom are provided with symmetrical two ears ring 4171, and the second convex stupefied 418 top and bottom are provided with symmetrical
Two ears rings 4181, stone removing door 42 is provided with two the first monaural rings 421 and four the second monaural rings 422, and collection crossdrift 43 is provided with
431, four the second monaural rings 432 of two the first monaural rings and six spill plates 433;
Described calculus door drive 44 is to drive oil cylinder 441, the first push-pull bar 442 and the second push-pull bar by stone removing door
443 compositions, the first push-pull bar 442 is provided with the first ears ring 4421 and the second ears ring 4422, and the second push-pull bar 443 is provided with first
Ears ring 4431 and the second ears ring 4432;
Described collection crossdrift driving means 45 are to drive oil cylinder 451, the 3rd push-pull bar 452 and the 4th push-pull bar by collection crossdrift
453 compositions, the 3rd push-pull bar 452 is provided with the first ears ring 4521 and the second ears ring 4522, and the 4th push-pull bar 453 is provided with first
Ears ring 4531 and the second ears ring 4532;
The second described elastic connecting component 47 forms with the first Flexible Connector 131 and version is the same;
Stone removing door drives oil cylinder 441 piston rod monaural ring, first push-pull bar the first ears ring 4421, the second push-pull bar first
Ears ring 4431 coaxially penetrates pin hinge and connects, and forms calculus door drive 44, collects crossdrift oil cylinder 451 piston rod monaural
Ring, the 3rd push-pull bar the first ears ring 4521, the 4th push-pull bar the first ears ring 4531 coaxially penetrate pin hinge and connect, composition
Collection crossdrift driving means 45;
Four the second monaural rings 422 of stone removing door 42 respectively with the ears ring 4171 of two the first convex stupefied 417 lower surfaces,
Two ears rings 4181 below two convex stupefied 418 coaxially penetrate pin hinge and connect, four the second monaural rings 432 of collection crossdrift 43
Coaxially wear with the two ears rings 4181 of convex stupefied 418 upper surfaces of ears ring 4171, second above two first convex stupefied 417 respectively
Enter pin hinge to connect;
By stone removing door, two drive oil cylinder 441 to be respectively fixedly connected with the medial wall in two square tube shape holes 415, and two first push away
Pull bar the second ears ring 4422 is co-axially inserted pin hinge with two the first monaural rings 421 of stone removing door respectively and is connected, two second
Push-pull bar the second ears ring 4432 is co-axially inserted pin hinge with two the first monaural rings 421 of another stone removing door respectively and is connected,
Two are collected crossdrift oil cylinder 451 be respectively fixedly connected with the lateral wall in two square tube shape holes 415, two the 3rd push-pull bar the second ears
Ring 4522 is co-axially inserted pin hinge and is connected with collection two the first monaural rings 431 of crossdrift respectively, two the 4th push-pull bars second pair
Earrings 4432 is co-axially inserted pin hinge with two the first monaural rings 431 of another stone removing door respectively and is connected, 49 points of two end caps
It is not fixed on casing 41;
Bolt 1311 is passed through sill bolt hole 461, helical spring 1312 is sheathed on bolt 1311, then passes through
Box bottom bolt hole 4111, then another helical spring 1312 is sheathed on bolt 1311, pad 1313 is sheathed on bolt
On 1311, hex nut 1314 pretension, casing 41 and crossbeam 46 realize elastic connection;Second dither motor 48 is symmetrically connected
On box bottom 411, crossbeam 46 is symmetrically fixed on two longerons 202 of railcar, and cmos imageing sensor 40 is fixed on horizontal stroke
Below beam 46, form ballast collection arranging device 4;
Refer to shown in Figure 27 to Figure 31, described pillow end clear stone device 5 is by the second entablature assembly 51, second stretches
Driving means 52, the 4th lowering or hoisting gear 53, the second grab mechanisms 54 and u shape bar 55 form;
The second described entablature assembly 51 forms with the first entablature assembly 21 and version is the same, carries out and first
Entablature assembly 21 identical assembly operation, forms the second entablature assembly 52;
The second described retractable driving device 52 forms with the first retractable driving device 22 and version is the same, carry out with
First retractable driving device 22 identical assembly operation, forms the second retractable driving device 52;
The 4th described lowering or hoisting gear 53 forms with the first lowering or hoisting gear 12 and version is the same, carries out and the first lifting
Device 12 identical assembly operation, forms the 4th lowering or hoisting gear 53;
The second described grab mechanisms 54 form with the first grab mechanisms 33 and version is the same, carry out and the first grab bucket
Device 33 identical assembles, and forms the second grab mechanisms 54;
Arm ring flange 354 is connected with u shape bar 55, then u shape bar 55 is fixed on the first square tube shape telescopic arm 212,
Composition pillow end clear stone device 5;
Refer to shown in Figure 32 to Figure 38, described sprocket calculus device 6 is to be stretched by the 3rd entablature assembly the 61, the 3rd
Driving means 62 the 5th lowering or hoisting gear 63 and sprocket calculus assembly 64 form;
The 3rd described entablature assembly 61 is by 611, two third party's tubular telescopic arms of third party's tubular fixed arm
612nd, the 4th laser displacement sensor 613 and the 4th range finding reference plate 614 form, and third party's tubular fixed arm 611 is provided with four
Ears ring 6111, third party's tubular telescopic arm 612 is provided with blind end 6121;
The 3rd described retractable driving device 62 is by third party's tubular fixed arm 611, the double rod hydraulic oil of dual Piston
Cylinder 621 and two third party's tubular telescopic arms 612 form, and the cylinder body of the double rod hydraulic jack 621 of dual Piston is provided with square method
Blue disk 6211, piston rod free end are provided with ring flange 6212;
Two third party's tubular telescopic arms 612 are sheathed on it from double rod hydraulic jack 621 two ends of dual Piston respectively
On, so that the double rod hydraulic cylinder piston rod ring flange 6212 of third party's tubular telescopic arm blind end 6121 and dual Piston is connected,
Third party's tubular fixed arm 611 is sheathed on two third party's tubular telescopic arms 612, makes the double rod hydraulic jack side of dual Piston
Shape ring flange 6211 is symmetrically fixed on third party's tubular fixed arm 611 endoporus upper surface, forms the 3rd retractable driving device 62,
4th laser displacement sensor 613 is symmetrically fixed on above third party's shape fixed arm 611, and the 4th range finding reference plate 614 is fixed on
Above third party's tubular telescopic arm 612;
5th lowering or hoisting gear 63 is the same with the composition of the first lowering or hoisting gear 12, except aforesaid third party's tubular fixed arm 611
Different with the first lowering or hoisting gear entablature 11 version, remaining all component structural form is the same;
Carry out and the first lowering or hoisting gear 12 identical assembly operation, four the 3rd forks 1214 are fixed with the second square tube shape
Arm 611 chain connection, first laser displacement transducer 125 is fixed on below third party's tubular fixed arm 611, forms the 5th liter
Falling unit 63;
Described sprocket calculus assembly 64 is by double output shaft hydraulic motor 642, two chains of 641, two yielding couplings
Tooth row Plumbum preparatium part 643,644, eight c shape bars 645 of u shape bar and suspension bracket 646 form, and u shape bar 644 is provided with two circular flange disks
6441 and square flange 6442, c shape bar 645 is provided with first flange disk 6451 and second flange disk 6452, and suspension bracket 646 is provided with two
Individual first flange disk 6461 and eight second flange disks 6462;
Described sprocket calculus part 643 is by square beam 6431, sprocket wheel 6432, sprocket wheel wheel shaft 6433, inducer
6434th, 6436, four BOGEY WHEEL wheel shafts 6437 of 6435, four BOGEY WHEELs of inducer wheel shaft, several chain tooth assembly 6438 and several
Bearing pin 6439 forms, and square beam 6431 is provided with the first ears ring 64311, the second ears ring 64312 and four the 3rd ears
Ring 64313;
Will be coaxial with sprocket wheel 6432 for square beam the first ears ring 64311, penetrate sprocket wheel wheel shaft 6433 chain connection, square
Crossbeam the second ears ring 64312 is coaxial with inducer 6334, penetrates inducer wheel shaft 6435 chain connection, square beam the 3rd pair
Earrings 64313 is coaxial with BOGEY WHEEL 6436, penetrates BOGEY WHEEL wheel shaft 6437 chain connection, make square beam 6431, sprocket wheel 6432,
Inducer 6434 and four BOGEY WHEELs 6436 are assembled into one;
Described chain tooth assembly 6438 is made up of sleeve 64381 and chain link 64382;
Described chain link 64382 is by two bolts 64383, two nuts 64384, chain tooth plate 64385, the first carrier bars
64388 and second carrier bar 64392 form, chain tooth plate 64385 is provided with two bolts hole 64386 and several equal strength sprocket 64387,
First carrier bar 64388 is provided with the first monaural ring 64389, the second monaural ring 64390 and the 3rd monaural ring 64391, the second carrier bar
64392 are provided with the first monaural ring 64393, the second monaural ring 64394 and the 3rd monaural ring 64395;
Will be coaxial to sprocket crab bolt hole 64386 and first carrier bar the second monaural ring 64390, penetrate bolt 64383, nut
64384 pretensions, another bolt hole 64386 of chain tooth plate and second carrier bar the second monaural ring 64394 are coaxial, penetrate bolt 64383,
Nut 64384 pretension, forms chain link 64382, by first carrier bar the first monaural ring 64389 of the first chain link, the second chain link first
Carrier bar the 3rd monaural ring 64391, sleeve 64381, second chain link the second carrier bar the 3rd monaural ring 64395 and first chain link the second chain
Plate the first monaural ring 64393 coaxially penetrates bearing pin 6439 chain connection, repeats aforementioned operation, until several chain links 64382 are cut with scissors
Connect one, will be placed on it to the square beam being assembled into one 6431, sprocket wheel 6432, inducer 6434 and four BOGEY WHEELs 6436,
By first carrier bar the first monaural ring 64389 of last chain link, first chain link the first carrier bar the 3rd monaural ring 64391, sleeve
64381st, first chain link the second carrier bar the 3rd monaural ring 64393 and last chain link the second carrier bar the first monaural ring 64395 are coaxially worn
Enter bearing pin 6339 chain connection, make all chain tooth assembly 6438 chain connection annular integrative-structures, form sprocket calculus part
643,
Will be solid to double output shaft hydraulic motor 641 double output shaft, two yielding couplings 642 and two sprocket wheel wheel shafts 6433
Even, u shape bar 644 square flange is fixed on the 3rd double output shaft hydraulic motor 641, eight c shape bar second flange disks 6452
Be respectively symmetrically and be fixed on two square beams 6431, eight second flange disks 6462 of suspension bracket respectively with eight c shape bar the first methods
Blue disk 6451 is connected, and two circular flange disks 6441 of u shape bar and two first flange disks 6461 of suspension bracket are respectively fixedly connected with third party
On tubular telescopic arm 612, form sprocket calculus device 6;
Refer to shown in Figure 39 to Figure 42, described sleeper four nut synchronization assembling and disassembling device 7 be by entablature 71, the 6th liter
Falling unit 72 and two nut assembling and disassembling devices 73 form, and entablature 71 is provided with four ears rings 711;
The 6th described lowering or hoisting gear 72 and the first lowering or hoisting gear 12 form the same, and the 6th lowering or hoisting gear 72 first series connection is flat
The sill 7211 of row four-bar mechanism is provided with five ears rings 72111 and symmetrical two long slot bores 72112, the first fork 7212
It is provided with ladder slotted eye 72121, the entablature 11 except aforesaid 6th lowering or hoisting gear 72 entablature 71 and the first lowering or hoisting gear 12 is tied
Configuration formula is different, sill 1211 version of the 6th lowering or hoisting gear 72 sill 7211 and the first lowering or hoisting gear 12 differs
First fork 1212 version of sample, the 6th lowering or hoisting gear 72 first fork 7212 and the first lowering or hoisting gear 12 is different, its
Remaining all component structural forms are the same;
Carry out and the first lowering or hoisting gear 12 identical assembly operation, by four the 3rd forks 1214 with entablature 71 hinge even
Connect, first laser displacement transducer 125 is fixed on below entablature 71, form the 6th lowering or hoisting gear 72;
Described nut assembling and disassembling device 73 be by two suspension rods 731, the first spiral rotary actuator 732, upper lid 733,
Circular connecting plate 734, the first hex nut 735, internal gear 737, two gears 738 of 736, two power transmission shafts, housing 739, two
740, two the second thrust bearings of individual first thrust bearing, 742, two yielding coupling 743 and of 741, two the second hex nuts
Two interior wide-mouth magnetic coupling boxs 744 form, and the first spiral rotary actuator 732 is provided with ring flange 7321, its output shaft
It is provided with circular shaft section 7322 and six prism shaft parts 7323, upper lid 733 is provided with axis hole 7331, and circular connecting plate 734 is provided with six prism holes
7341, power transmission shaft 737 is provided with the first axle journal 7371, the second axle journal 7372, the 3rd axle journal 7373, the 4th axle journal 7374 and thread segment
7375, housing 739 is provided with ring flange 7391 and two axis holes 7392, and interior wide-mouth magnetic coupling box 744 is provided with axle journal 7441;
Upper lid 733 is sheathed on the first spiral rotary actuator output shaft circular shaft section 7322, makes lid 733 and the first spiral shell
Rotation rotary actuator ring flange 7321 is connected, more circular connecting plate 734 is sheathed on the first spiral rotary actuator output
Axle six prism shaft part 7323, the first hex nut 735 pretension, internal gear 736 is coaxially connected with circular connecting plate 734, gear 738
It is sheathed on power transmission shaft the first axle journal 7371 to be connected, the first thrust bearing 740 is sheathed on power transmission shaft the second axle journal 7372, power transmission shaft
737 make the first thrust bearing 740 contact with housing 739 through housing axis hole 7392, and the second thrust bearing 741 is sheathed on power transmission shaft
On 3rd axle journal 7373, the second hex nut 742 screws on power transmission shaft thread segment 7375 pretension, and yielding coupling 743 makes power transmission shaft
4th axle journal 7374 is coaxially connected with interior wide-mouth magnetic coupling box axle journal 7441, and internal gear 736 is inserted in housing 739, two
The gear teeth flank of tooth of gear 738 gear teeth face with internal gear 736 respectively, upper lid 733 and shell flange disk 7391 are connected, and two
One end of individual suspension rod 731 is symmetrically fixed on housing 739 both sides, forms nut assembling and disassembling device 73, the other end pair of two suspension rods 731
Claim to be fixed on 71 2 sides of entablature, sill 7211 is fixed on two longeron 202 medial surface of railcar, form sleeper four
Nut synchronization assembling and disassembling device 7;
Refer to shown in Figure 43 to Figure 50, the first described rail-lifting equipment 8 is by entablature 81, the 7th lowering or hoisting gear 82 and
Carry rail assembly 83 to form, entablature 81 is provided with four ears rings 811;
The 7th described lowering or hoisting gear 82 and the first lowering or hoisting gear 12 form, except horizontal on aforesaid 7th lowering or hoisting gear
Beam 81 and the first lowering or hoisting gear 12 entablature, 11 versions are different, and remaining all component structural form is the same;
Carry out and the first lowering or hoisting gear 12 identical assembly operation, by four the 3rd forks 1214 with entablature 81 hinge even
Connect, first laser displacement transducer 125 is fixed on below entablature 81, form the 7th lowering or hoisting gear 82;
The described rail assembly 83 that carries is by two suspension rods 831, suspension bracket 832, the second spiral rotary actuator 833, opposed
Crank 835, two I-shaped tubular travelling arms 836 of 834, two connecting rods, I-shaped tubular fixed arm 837 and two first carry rail hydraulic pressure
Oil cylinder 838 forms, and suspension rod 831 is provided with first flange disk 8311 and second flange disk 8312, the second spiral rotary actuator 833
Output shaft free end is provided with ring flange 8331, and opposite crank 834 is provided with two monaural rings 8341, and connecting rod 835 is provided with monaural ring
8351 and ears ring 8352, I-shaped tubular travelling arm 836 is provided with semicylindrical opening 8361 and ears ring 8362, I-shaped tubular fixed arm
837 are provided with two symmetrical semicylindrical openings 8371, and first carries rail hydraulic jack 838 cylinder body is provided with gusset 8381, piston rod
Free end is provided with fagging 8382;
First is carried rail hydraulic jack 838 be fixed in I-shaped tubular travelling arm semicylindrical opening 8361, opposite crank 834 with
Second spiral rotary actuator output shaft ring flange 8331 is coaxially connected, and the second spiral rotary actuator 833 is symmetrically connected
In suspension bracket 832 lower surface, suspension bracket 832 is symmetrically fixed on I-shaped tubular fixed arm 837 upper surface, by I-shaped tubular travelling arm 836
Sheathed thereon from I-shaped tubular fixed arm 837 two ends, I-shaped tubular travelling arm ears ring 8362 and connecting rod 835 monaural ring 8351
Coaxially penetrate pin hinge to connect, connecting rod ears ring 8352 coaxially penetrates pin hinge with opposite crank monaural ring 8341 and is connected,
Make two first to carry rail hydraulic jack 838 to be symmetrical arranged, two suspension rod 831 second flange disks 8312 are symmetrically fixed on suspension bracket 832
Above, composition carries rail assembly 83, and two suspension rod 831 first flange disks 8311 are symmetrically fixed on entablature 81 side, and composition carries rail
Device 8;
Described swivel block and push-and-pull sleeper device 9 are by first crossbeam telescopic component 90, first crossbeam retractable driving device
91st, 92, two connecting plates 93 of the first tumbler and crawl and swivel block device 94 form;
Described first crossbeam telescopic component 90 be by the 4th square tube shape fixed arm 901, the 4th square tube shape telescopic arm 902,
5th laser displacement sensor 903 forms, and the 4th square tube shape fixed arm 901 is provided with blind end 9011, the 4th square tube shape telescopic arm
902 are provided with dividing plate 9021;
Described first crossbeam retractable driving device 91 and the first retractable driving device 22 form, except aforementioned four directions
Tubular fixed arm 901 and the first square tube shape fixed arm 211 version is different, the 4th square tube shape telescopic arm 902 and first party
Tubular telescopic arm 212 version is different, and remaining all component structural form is the same;
Carry out and the first retractable driving device 22 identical assembly operation, form first crossbeam retractable driving device 91, the
Five laser displacement sensors 903 are symmetrically fixed on above the 4th square tube shape fixed arm 901;
The first described tumbler 92 be by the 4th square tube shape telescopic arm 902, the 3rd spiral rotary actuator 921,
Cantilever hollow multidiameter 922, the first thrust bearing 923, the first casing 924, the second thrust bearing 925, the first hex nut
926th, circular connecting plate 927, the second hex nut 928, end cap 929 and equi intensity cantilever 930 form, and the 3rd spiral swings liquid
Pressure motor 921 output shaft is provided with thread segment 9211 and six prism shaft parts 9212, and the hollow multidiameter of cantilever 922 is provided with thread segment
9221st, the first axle journal 9222, the second axle journal 9223, the 3rd axle journal 9224 and connecting plate 9225, connecting plate 9225 is provided with spacing circle
Arc groove 92251, the first casing 924 is provided with spacer pin 9241 and cantilever ladder axle sleeve 9242, and cantilever ladder axle sleeve 9242 is provided with
One axle sleeve 92421, the second axle sleeve 92422 and the 3rd axle sleeve 92423, end cap 929 is provided with bearing pin 9291, and circular connecting plate 927 sets
There are six prism axis holes 9271, equi intensity cantilever 930 is provided with pin shaft hole 9301 and ring flange 9302;
3rd spiral rotary actuator 921 is fixed on the 4th square tube shape telescopic arm dividing plate 9021 front end base plate, empty
Heart cantilever multidiameter 922 is sheathed on the 3rd spiral rotary actuator 921, so that cantilever hollow multidiameter connecting plate 9225 is connected
In the 4th square tube shape telescopic arm 902 end face, the first thrust bearing 923 is sheathed on the hollow multidiameter of cantilever the 3rd axle journal 9224,
First casing cantilever ladder axle sleeve 9242 is sheathed on hollow cantilever multidiameter 922, makes the first thrust bearing 923 insert the first case
Body cantilever ladder axle sleeve the 3rd axle sleeve section 92423, cantilever ladder axle sleeve the second axle sleeve section 92422 is sheathed on hollow multidiameter second
On axle journal 9223, the second thrust bearing 925 is sheathed on cantilever hollow multidiameter the first axle journal 9222, inserts cantilever ladder axle sleeve
First axle sleeve section 92421, the first hex nut 926 screws in cantilever hollow multidiameter thread segment 9221 pretension, makes the first casing 924
Hollow multidiameter 922 chain connection with cantilever, circular connecting plate 927 is sheathed on the 3rd spiral rotary actuator output shaft six rib
Axis of a cylinder section 9212, makes circular connecting plate 927 be fixed on casing cantilever ladder axle sleeve 9242 free end, the second hex nut 928 revolves
Enter the 3rd spiral rotary actuator output shaft thread segment 9211 pretension, make the 3rd spiral rotary actuator 921 output shaft with
First casing 924 is connected, and end cap 929 is fixed on the first casing 924, and equi intensity cantilever pin-and-hole 9301 is sheathed on end cap bearing pin
On 9291, equi intensity cantilever ring flange 9302 is fixed on above the 4th square tube shape telescopic arm 902, forms the first tumbler
92;
Described crawl and swivel block device 94 are by the second casing 941, the 3rd spiral rotary actuator 942, hydraulic oil
Cylinder 943, the first thrust bearing 944, the second thrust bearing 945, the 3rd hex nut 946, piston 947, piston rod 948, ladder u
Shape support 949, first connecting rod 950, second connecting rod 952, two rollers 953 of 951, two the second forks, end cap 954 and two machines
Machinery claw 955 device forms, and the second casing 941 is provided with symmetrical four screwed hole 9411, the first circular hole portion 9412, fan-shaped hole section
9413rd, the second circular hole portion 9414, axle sleeve section 9415 and the 3rd circular hole portion 9416, the 3rd spiral rotary actuator 942 output shaft
Connected ring flange 9421, ring flange 9421 is provided with spacing sector boss 94211, and fan-shaped hole section 9413 is provided with the first confined planes
94131 and second confined planes 94132, hydraulic jack 943 is provided with ring flange 9431, the first axle journal 9432, the second axle journal 9433 and
3rd axle journal 9434, ring flange 9431 is provided with spacing sector boss 94311, and piston 947 is provided with axis hole 9471, and piston rod 948 sets
There are axle journal 9481 and ears ring 9482, ladder u shape support 949 is provided with flange 9491,9492, two slotted eyes of axis hole 9493, two
9494, four the first monaural rings 9495 of pin-and-hole and eight the second monaural rings 9496, first connecting rod 950 is provided with ears ring 9501 and list
Earrings 9502, second connecting rod 951 is provided with two ears rings 9511, and the second fork 952 is provided with monaural ring 9521, pin-and-hole 9522 and double
Earrings 9523;
Described gripper 955 is by ladder u shape support 9551, two helical springs 9552 of 949, four the 3rd forks
Form with pressing plate 9553, the 3rd fork 9551 is provided with two ears rings 95511, pressing plate 9553 is provided with two the first monaural rings
95531 and four the second monaural rings 95532;
By spacing for the 3rd spiral rotary actuator output shaft ring flange sector boss 9421 and hydraulic jack ring flange limit
The fan-shaped boss 94311 in position aligns connected, and the first thrust bearing 944 is sheathed on hydraulic jack the first axle journal 9432, by hydraulic oil
Cylinder penetrates the second casing 941 ladder in the hole, makes the 3rd spiral rotary actuator output shaft ring flange 9421 and hydraulic jack method
Second casing the first circular hole portion 9413 inserted by blue disk 9431, makes the spacing sector of the 3rd spiral rotary actuator output shaft ring flange
Boss 94211 and hydraulic jack ring flange spacing sector boss 94311 are inserted in fan-shaped hole section 9413, make two spacing sectors convex
Platform left surface is contacted with fan-shaped hole section the first confined planes 94131, makes the first thrust bearing 944 insert second casing the second circular hole portion
9414, so that the 3rd spiral rotary actuator 942 is fixed on the second casing 941 base plate, make end cap 954 and the second casing 941
It is connected;
Second thrust bearing 945 is sheathed on hydraulic jack the 3rd axle journal 9434 so as to insert the second casing the 3rd circle
9416 sections of hole section, piston rod 948 passes through ladder u shape rack shaft hole 9492, and piston axis hole 9471 is sheathed on piston rod axle journal 9481,
3rd hex nut 946 pretension, piston 947 is inserted in hydraulic jack 943 cylinder barrel, and ladder u shape bracket flange 9491 is penetrated
Hydraulic jack 943 cylinder barrel is connected, and makes oil cylinder the second axle journal 9433 and the first housing bushing section 9415 chain connection, and piston rod is double
Earrings 9482, second connecting rod ears ring 9511 and first connecting rod monaural ring 9502 coaxially penetrate pin hinge and connect, the second fork
Ears ring 9523 coaxially penetrates pin hinge with roller 953 and is connected, the second fork pin-and-hole 9522 and ladder u shape support pin-and-hole 9494
Coaxially penetrate pin hinge to connect, first connecting rod ears ring 9501 and second connecting rod ears ring 9511 respectively with two the first forks
Monaural ring 9521 coaxially penetrates pin hinge and connects;
The ears ring 95511 of four the second forks 9551 is coaxial with four the second monaural rings 9496 of ladder u shape support respectively
Penetrate pin hinge to connect, another ears rings 95511 of four the second forks 9551 respectively with four the second monaural rings of pressing plate
95532 coaxially penetrate pin hinge connects, two helical spring 9552 one end respectively with ladder two the first monaurals of u shape support
Ring 9495 is connected, and two helical spring 9552 other ends are connected with two the first monaural rings 95531 of pressing plate respectively, composition machinery
Pawl 955, the pulling force of two helical springs 9552, so that the roller 953 being articulated with the first fork 9523 is connect with pressing plate 9553 all the time
Touch, repeat aforementioned assembly operation, assemble another gripper 955, composition crawl and swivel block device 94;
First casing 924 is fixed with one by two connecting plates 93 with the second casing 941, forms swivel block and push-and-pull sleeper device
9;
Refer to shown in Figure 51 to Figure 63, described sleeper handling apparatus 15 are by the second rail-lifting equipment 150, reciprocating motion storage
Deposit sleeper device 160 and rigid hanger hoisting apparatus 168 forms;
The second described rail-lifting equipment 150 be by second cross beam telescopic component 151, second cross beam retractable driving device 152,
Two the second tumblers, 154, two box connectors of 153, four connecting plates 155 and two second carry rail hydraulic jack 156
Composition, box connector 155 is arranged with semicylindrical opening 1551, and second carries rail hydraulic jack 156 cylinder body is provided with gusset
1561st, piston rod free end is provided with fagging 1562;
Described second cross beam telescopic component 151 is to be stretched by 1511, two the 5th square tube shapes of the 5th square tube shape fixed arm
Arm 1512, the 6th laser displacement sensor 1513 and the 6th range finding reference plate 1514 form, and the 5th square tube shape telescopic arm 1512 sets
There is dividing plate 15121;
Second cross beam retractable driving device 152 is the same with the composition of the 3rd retractable driving device 62, except aforesaid 5th side
Tubular fixed arm 1511 and third party's tubular fixed arm 611 versions are different, and remaining all component structural form is the same;
Carry out and the 3rd retractable driving device 62 identical assembly operation, form second cross beam retractable driving device 152, the
Six laser displacement sensors 1513 are symmetrically fixed on the 5th square tube shape fixed arm 1511 side, and the 6th range finding reference plate 1514 is connected
In the 5th square tube shape telescopic arm 1512 side;
Second tumbler 153 form with the first tumbler 92 and version as, carry out and the first tumbler
92 identical assembly operations, form the second tumbler 153;
First casing 924 and box connector 155 are fixed with one by two connecting plates 154, and two second are carried rail hydraulic pressure
Oil cylinder 156 is respectively fixedly connected with two box connecting rod semicylindrical openings 1551, forms the second rail-lifting equipment 150, by the 5th square tube shape
Fixed arm 1511 is symmetrically fixed on two longerons 202 of railcar;
Described reciprocating motion storage sleeper device 160 is made up of reciprocator 161 and storage sleeper case 167,
Storage sleeper case 167 is provided with two rollers 1671 and several sleeper storehouse 1672, and wherein left side half sleeper storehouse is used for having stored rail
Pillow, right side half sleeper storehouse is used for storing bad sleeper.
Described reciprocator 161 is by 162, two series connection parallelogram lindages 163 of base plate, moves back and forth driving
Device 165 and the 7th laser displacement sensor 166 form;
Described series connection parallelogram lindage 163 be by 1631, two the first forks 1632 of fixed cross beam, connecting rod 1633,
Two the second forks 1634 and shifting crossbeam 1635 form, and connecting rod 1633 is provided with two monaural rings 16331, and moving beam 1635 is provided with
Two rollers 16351 and a circular hole 16352;
Described reciprocating movement driving device 165 is by hydraulic motor 1651, yielding coupling 1652, monaural ring bearing
1653rd, screw rod 1654 and square nut 1655 form, and screw rod 1654 is provided with the first axle journal 16541 and the second axle journal 16542;
By two the first forks 1632 respectively with fixed cross beam 1631 chain connection, the first fork 1632 ears ring, second
Fork 1634 ears ring and connecting rod monaural ring 16331 coaxially penetrate pin hinge and connect, another the first fork 1632 ears ring,
Another the second fork 1634 ears ring and another monaural ring 16331 of connecting rod coaxially penetrate pin hinge and connect, two second
Fork 1634 respectively with moving beam 1635 chain connection, composition series connection parallelogram lindage 163, repeat aforementioned assembly operation,
It is symmetrical in fixed cross beam 1631 and the vertical plane of symmetry of moving beam 1635 assembles another parallelogram lindage 163, base plate 162
It is fixed on fixed cross beam 1631 lower surface, make two rollers 16351 and base plate 162 upper surface of moving beam, hydraulic pressure horse
Reach 1651 and be symmetrically fixed on fixed cross beam 1631 side, monaural ring bearing 1653 is sheathed on screw rod the second axle journal 16542, square
Nut 1655 screws on screw rod 1654 appropriate location, and screw rod passes through the circular hole 16552 of moving beam, so that square nut 1655 is fixed on
Moving beam 1635 side, yielding coupling 1652 makes hydraulic motor 1651 output shaft be connected with screw rod the first axle journal 16541, single
Earrings bearing 1653 is fixed on base plate 162, forms reciprocating movement driving device 165;
Base plate 162 is fixed on fixed cross beam 1631 lower surface, makes two rollers 16351 of moving beam and the four of motorcycle
Individual roller respectively with base plate 162 upper surface, the 7th laser displacement sensor 166 is symmetrically fixed on motion crossbeam 1635 side
Face, forms reciprocator 161;
Base plate 162 is fixed on railcar 20 crossbeam and the 5th square tube shape fixed arm 1511, storage sleeper case 167 is connected
On moving beam 1635, two rollers 1671 of storage sleeper case are made to be contacted over base plate 162, composition moves back and forth storage
Sleeper device 160;
Described rigid hanger hoisting apparatus 168 is by two telescopic cantilever boom devices 169, telescoping crossbeam device 170, just
Property 171, two pick-and-place sleeper devices 172 of suspension bracket and the 8th laser displacement sensor 173 form;
Described telescopic cantilever boom device 169 is to be stretched by the first ladder square tube shape fixed arm 1691, the first ladder square tube shape
Contracting arm 1692, square tube shape telescopic arm 1693, the first multi-stage expansion shell type oil cylinder 1694, cantilever beam 1695, end plate 1696, cantilever
1697 and the 9th laser displacement sensor 1698 form, the first ladder square tube shape fixed arm 1691 is provided with ring flange 16911 and cylinder
Shoulder 16912, the first ladder square tube shape telescopic arm 1692 is provided with ring flange 16921 and cylinder shoulder 16922, and square tube shape telescopic arm 1693 sets
There are ring flange 16931 and blind end 16932, the first multi-stage expansion shell type oil cylinder 1694 is provided with first flange disk 16941, first stretches
Contracting sleeve 16942, the second extension sleeve 16943 and second flange disk 16944, cantilever beam 1695 is provided with ring flange 16951;
End plate 1696 is symmetrically fixed on the first multi-stage expansion shell type oil cylinder first flange disk 16941, square tube shape telescopic arm
1693 are sheathed on the first multi-stage expansion shell type oil cylinder 1694, make the first multi-stage expansion shell type oil cylinder second flange disk 16944 symmetrical
It is fixed on square tube shape telescopic arm blind end 16932, the first ladder square tube shape telescopic arm 1692 is sheathed on square tube shape telescopic arm 1693
On, the first ladder square tube shape fixed arm 1691 is sheathed on the first ladder square tube shape telescopic arm 1692, makes the first ladder square tube solid
Determine arm ring flange 16911 to be connected with end plate 1696, cantilever beam ring flange 16951 is fixed on square tube shape telescopic arm blind end 16932
On, cantilever 1697 is fixed on cantilever beam ring flange 16951, and the 9th laser displacement sensor 1698 is fixed on cantilever 1697,
Composition telescopic cantilever boom device 169;
Described telescoping crossbeam device 170 is to be stretched by the second ladder square tube shape fixed arm 1701, the second ladder square tube shape
Arm 1702, the 3rd ladder square tube shape telescopic arm 1703, the second multi-stage expansion shell type oil cylinder 1704, end cap 1705 and 1706 groups of push pedal
Become, the second ladder square tube shape fixed arm 1701 is provided with ring flange 17011, cylinder shoulder 17012 and long slot bore 17013, the second ladder side
Tubular telescopic arm 1702 is provided with 17021, second shoulder 17022 of first shoulder and long slot bore 17023, and the 3rd ladder square tube shape is stretched
Arm 1703 is provided with cylinder shoulder 17031 and two monaural rings 17032, and the second multi-stage expansion shell type oil cylinder 1704 is provided with first flange disk
17041st, first order extension sleeve 17042, second level extension sleeve 17043 and second flange disk 17044;
End cap 1705 is symmetrically fixed on the second multi-stage expansion shell type oil cylinder first flange disk 17041, the 3rd ladder square tube
Shape telescopic arm 1703 is sheathed on the second multi-stage expansion shell type oil cylinder 1704, makes the second multi-stage expansion shell type oil cylinder second flange disk
17044 and the 3rd ladder square tube shape telescopic arm 1703 blind end be connected, the second ladder square tube shape telescopic arm 1702 is sheathed on the 3rd
On ladder square tube shape telescopic arm 1703, then the second ladder square tube shape fixed arm 1701 is sheathed on the second ladder square tube shape telescopic arm
On 1702, end cap 1705 is made to be connected with ladder square tube shape fixed arm ring flange 17011, push pedal 1706 is fixed on the 3rd ladder square tube
Shape telescopic arm 1703 blind end, the 8th laser displacement sensor 173 is symmetrically fixed on the second ladder square tube shape fixed arm 1701
Side, forms telescoping crossbeam device 170;
Described rigid hanger 171 is made up of 1711, two pull bars 1712 of entablature and sill 1713, entablature
1711 are provided with two ears rings 17111, and sill 1713 is provided with two circular holes 17131;
One end of two pull bars 1712 is symmetrically fixed on below entablature 1711, the other end of two pull bars 1712 is symmetrical
It is fixed on above sill 1713, form rigid hanger 171;
Described pick-and-place sleeper device 172 is by the 5th spiral rotary actuator 1721, the 3rd yielding coupling 1722
Form with interior wide-mouth nut 1723, the 5th spiral rotary actuator 1721 is provided with ring flange 17211 and output shaft 17212, interior
Wide-mouth nut 1723 is provided with axle journal 17231;
5th spiral rotary actuator 1721 is penetrated in sill circular hole 17131, the 5th spiral rotary actuator flange
Disk 17211 is fixed on above sill 1713, the 3rd yielding coupling 1722 make the 5th spiral rotary actuator output shaft 17212 with
Interior wide-mouth nut axle journal 17231 is connected, and forms pick-and-place sleeper device 172;
Two telescopic cantilever boom devices 169 are symmetrically fixed on two longerons 202 of railcar, telescoping crossbeam device second
Ladder square tube shape fixed arm 1701 is fixed on below two cantilever beam 169 cantilevers, two ears rings 17111 of entablature respectively with
Two monaural ring 17032 coaxial bolts of the 3rd ladder square tube shape telescopic arm connect, and form sleeper handling apparatus 15.
The work process of the present embodiment and principle are as follows:
1. clear stone screening work: outside sleeper to be changed, bolt is good with machine oil labelling, engineering truck traction track car runs to treating
When switching tracks near resting the head on, the image information of cmos imageing sensor collection, by pattern recognition system automatic identification, so that engineering truck is stopped
In the cmos imageing sensor position coaxial with machine oil labelling bolt, two ranked first grab mechanisms is located at sleeper both sides to be changed sleeper
Between, position shown in Fig. 1, oil pump is started working, and hydraulic oil makes the 3rd lifting drive double multi-stage expansion shell types pair to stretch out oil cylinder two ends
Multi-stage sleeve start to stretch out step by step, promote the synchronization translations of two first connecting rods respectively, make symmetrically arranged two first series connection
Parallelogram lindage each two pairs of fork dorsad synchronous hunting up and down, the 3rd lowering or hoisting gear is entrusted two and be ranked first grab mechanisms decline,
By first laser displacement sensor, it drives the double displacement signal stretching out oil cylinder of double multi-stage expansion shell types with the 3rd lifting,
To control the 3rd lifting to drive double multi-stage expansion shell types pair to stretch out oil cylinder and two hydraulic jack work of grab bucket, to treat when grab bucket is close
Switch tracks ballast between pillow both sides sleeper when, two cylinder piston rods of grab bucket start to retract, and pull two link motions respectively, make symmetrical
Two bucket bodies of setting, relative to arm monaural ring backswing, make grab bucket be flared to maximum opening, two cylinder piston rods of grabbing bucket
Stop motion, when bucket tooth contact ballast, the 3rd lifting drives the double final stage stretching out oil cylinder two ends of double multi-stage expansion shell types to stretch
Sleeve stops stretching out, position shown in Figure 14, and two cylinder piston rods of grab bucket start to stretch out, and promote two link motions respectively, make
Symmetrically arranged two bucket bodies swing in opposite directions relative to arm monaural ring, so that grab bucket is gradually closed, ballast between sleeper in crawl rail,
Two cylinder piston rods of grabbing bucket stop stretching out, and hydraulic oil makes the 3rd lifting drive double multi-stage expansion shell types pair to stretch out oil cylinder two simultaneously
The multi-stage sleeve at end starts to retract step by step, pulls two first connecting rod synchronization translations respectively, makes symmetrically arranged two first strings
The opposite synchronous hunting of each up and down two pairs of forks of connection parallelogram lindage, the 3rd lowering or hoisting gear is entrusted two and be ranked first on grab mechanisms
Rise to position shown in Figure 16, two driving cylinder piston rods of collection crossdrift start synchronization and stretch out, and promote two the 3rd push-pull bars respectively
With two the 4th push-pull bars, make two collection crossdrift synchronous hunting to position shown in Figure 16, collect two driving cylinder piston rods of crossdrift
Stopping is stretched out, and the second dither motor is started working, and casing starts to vibrate, and two hydraulic cylinder piston rods of grab bucket start synchronization
Retract, pull two link motions respectively, make grab bucket slowly be flared to maximum opening, two hydraulic cylinder piston rods of grab bucket stop
Retract, the ballast in grab bucket rushes down and drops down onto in two collection crossdrifts, is slipped in collection stone storehouse along two collection crossdrifts, casing vibration makes collection stone
Sandy soil in ballast in storehouse pass through the sieve aperture of flechette-type bottom, are separated in two gradual change isosceles trapezoid skewed slots, sandy soil are along two gradually
Become isosceles trapezoid skewed slot and slide into two end cap sand discharges Tu Zui discharges, the ballast in waiting to grab bucket is slipped in collection stone storehouse completely, collection
Crossdrift two drives cylinder piston rod to start synchronous retraction, pulls two the 3rd push-pull bars and two the 4th push-pull bars respectively, makes
Two collection crossdrift synchronous hunting, to position shown in Fig. 1, collect crossdrift two and drive cylinder piston rod to stop retracting, the second dither
Motor quits work;
Hydraulic oil makes the double rod hydraulic cylinder piston rod of traversing driving dual Piston start to stretch out, and promotes respectively and is connected with it
Two the second square tube shape telescopic arms synchronously stretch out, two the second square tube shape telescopic arms entrust two coupling assemblies respectively along second
Square tube shape fixed arm moves out, and makes cantilever beam entrust the first grab mechanisms and moves out, the 3rd laser displacement sensor measurement
Its displacement signal with the 3rd range finding reference plate, to control the double rod hydraulic jack work of traversing driving dual Piston, to work as grab bucket
When device moves out to rail top between sleeper, the double rod hydraulic cylinder piston rod of traversing driving dual Piston stops stretching
Go out, hydraulic oil makes the 3rd lifting drive the double multi-stage sleeve stretching out oil cylinder two ends of double multi-stage expansion shell types to start to stretch step by step simultaneously
Go out, the 3rd lowering or hoisting gear is entrusted two and be ranked first grab mechanisms decline, when bucket tooth contact ballast, the 3rd lifting driving pair is multistage to stretch
The double final stage sleeve stretching out oil cylinder two ends of contracting shell type stops stretching out, position shown in Figure 15, and two hydraulic cylinder piston rods of grab bucket are opened
Beginning synchronization is stretched out, and so that grab bucket is gradually closed, ballast between crawl rail outer sleeper, and two hydraulic cylinder piston rods stoppings of grab bucket are stretched
Go out, hydraulic oil makes the 3rd lifting drive the double multi-stage sleeve stretching out oil cylinder two ends of double multi-stage expansion shell types to start to retract step by step, the
Three lowering or hoisting gears are entrusted two and be ranked first grab mechanisms and rise to height shown in Figure 16, and collection crossdrift two drives cylinder piston rods to start
Stretch out, make two collection crossdrifts be rocked to position shown in Figure 16, collection crossdrift two drives cylinder piston rod to stop stretching out, the second high frequency
Vibrating motor is started working, and casing starts to vibrate, and the sandy soil isolated in ballast pass through end cap sand discharge Tu Zui and discharge, and grab bucket two
Hydraulic cylinder piston rod starts synchronous retraction, makes grab bucket slowly be flared to aperture shown in Figure 16, two hydraulic cylinder pistons of grabbing bucket
Bar stops retracting, and the ballast in waiting to grab bucket is slipped in collection stone storehouse completely, and collection crossdrift two drives cylinder piston rod to start to retract,
Make two collection crossdrift synchronous hunting to position shown in Fig. 1, collect crossdrift two and drive cylinder piston rod to stop retracting, the second high frequency vibrating
Galvanic electricity machine quits work, and two hydraulic cylinder piston rods of grab bucket start to stretch out, and so that grab bucket is gradually closed, two hydraulic jacks of grabbing bucket
Piston rod stops stretching out, and hydraulic oil makes the double rod hydraulic cylinder piston rod of traversing driving dual Piston start to retract, respectively simultaneously
Two the second square tube shape telescopic arms being connected with it are pulled synchronously to retract, two the second square tube shape telescopic arms entrust two companies respectively
Connected components, along the second square tube shape fixed arm inward, make cantilever beam entrust the first grab mechanisms inward to position shown in Fig. 1
Put, traversing driving dual Piston pair rod hydraulic cylinder piston rod piston rod stops retracting, and clear stone sieves end-of-job;
2. pillow end lasher makees: engineering truck traction track car moves to left, by the firm rail of pattern recognition system automatic identification sleeper
The number of outer bolt image, makes railcar move to left two sleeper pitches, and the second grab mechanisms are located above the pillow end of sleeper to be changed,
Hydraulic oil makes the second telescopic drive two-way ram cylinder piston rod start to stretch out, and promotes the first square tube shape telescopic arm to entrust second
Grab mechanisms move out, its displacement signal with the second range finding reference plate of second laser displacement sensor, to control the
Two telescopic drive two-way ram oil cylinders and two hydraulic jacks of grab bucket work, and hydraulic oil makes the 4th lifting driving double multistage simultaneously
The double multi-stage sleeve stretching out oil cylinder two ends of flexible shell type starts to stretch out step by step, promotes two first connecting rod synchronization translations respectively, makes
Symmetrically arranged two first series connection parallelogram lindage each two pairs of fork dorsad synchronous hunting up and down, the 4th lowering or hoisting gear is entrusted
Second grab mechanisms decline, and by first laser displacement sensor, it drives double multi-stage expansion shell types pair to stretch with the 4th lifting
Go out the displacement signal of oil cylinder, to control the 4th lifting to drive double multi-stage expansion shell types pair to stretch out oil cylinder and two hydraulic jacks of grab bucket
Work, when the bucket tooth of grab bucket is close to pillow end railway roadbed ballast, two hydraulic cylinder piston rods of grab bucket start synchronous retraction, draw respectively
Dynamic two link motions, make grab bucket be flared to maximum opening, two hydraulic cylinder piston rods of grab bucket stop retracting, when grab bucket bucket tooth
During contact ballast, the 4th lifting drives the double final stage extension sleeve stretching out oil cylinder two ends of double multi-stage expansion shell types to stop stretching out, figure
Position shown in 27, grab bucket liquid two force feed cylinder piston rod starts synchronization and stretches out, and promotes two link motions respectively, so that grab bucket is gradually closed
Close crawl ballast, two hydraulic cylinder piston rods of grab bucket stop stretching out, hydraulic oil makes the 4th lifting drive double multi-stage expansions simultaneously
The double multi-stage sleeve stretching out oil cylinder two ends of shell type starts to retract step by step, pulls two first connecting rod synchronization translations respectively, makes symmetrical
The opposite synchronous hunting of each up and down two pairs of forks of two first series connection parallelogram lindages of setting, the 4th lowering or hoisting gear entrusts the
Two grab mechanisms rise, and hydraulic oil makes the second telescopic drive two-way ram cylinder piston rod start to stretch out simultaneously, promote first
When square tube shape telescopic arm is entrusted the second grab mechanisms and moved out superior self-cultivation shoulder top, the 4th lifting drives double multi-stage expansion shell types double
The final stage extension sleeve stretching out oil cylinder two ends stops retracting, and the second telescopic drive two-way ram cylinder piston rod stops stretching out,
Two hydraulic cylinder piston rods of grab bucket start to retract and pull two link motions respectively, so that grab bucket is gradually opened, make the stone in grab bucket
Quarrel is slipped on shoulder, and two hydraulic cylinder piston rods of grab bucket start synchronization and stretch out, and promote two link motions respectively, make grab bucket
Gradually close, the second telescopic drive two-way ram cylinder piston rod starts to retract, the 4th lifting simultaneously drives double multi-stage expansions
The double multi-stage sleeve stretching out oil cylinder two ends of shell type starts to retract step by step, and the 4th lowering or hoisting gear is entrusted the second grab mechanisms and moved to figure
Position shown in 1, the second telescopic drive two-way ram cylinder piston rod stops retracting, and the 4th lifting simultaneously drives double multi-stage expansions
The double chopped-off head sleeve stretching out oil cylinder two ends of shell type stops retracting, and pillow end lasher makees to terminate;
3. calculus work below rail: engineering truck traction track car moves to left, by pattern recognition system automatic identification sleeper
Just the number of rail outer bolt image, makes railcar move to left a sleeper pitch, and sprocket calculus device is located at sleeper two siding track to be changed
Top between pillow, hydraulic oil makes the double rod hydraulic cylinder piston rod of the 3rd telescopic drive dual Piston start to stretch out, promote respectively with
Two third party's tubular telescopic arms that it is connected synchronously stretch out, and make two third party's tubular telescopic arms entrust two chain tooth rows respectively
Stone device moves out, and the 4th laser displacement sensor measures its displacement signal with the 4th range finding reference plate, to control the 3rd
The double rod hydraulic jack of telescopic drive dual Piston and the work of sprocket calculus assembly double output shaft hydraulic motor, treat that sprocket calculus fill
Put when moving out to rail between the sleeper of sleeper both sides to be changed top, the double rod hydraulic oil of the 3rd telescopic drive dual Piston
Cylinder piston rod stops stretching out, and hydraulic oil makes the 5th lifting drive the double multistage set stretching out oil cylinder two ends of double multi-stage expansion shell types simultaneously
Cylinder starts to stretch out step by step, and the 5th lowering or hoisting gear support two band chain tooth row stone device declines, and is surveyed by first laser displacement transducer
Measure it and drive the double displacement signal stretching out oil cylinder of double multi-stage expansion shell types with the 5th lifting, to control the 5th lifting to drive double multistage
Flexible shell type is double to stretch out oil cylinder and the work of sprocket calculus assembly double output shaft hydraulic motor, when sprocket calculus device contacts ballast
When, the 5th lifting drives the double final stage sleeve stretching out oil cylinder two ends of double multi-stage expansion shell types to stop stretching out, and hydraulic oil makes chain tooth row
Stone assembly double output shaft hydraulic motor rotates forward, and makes two sprocket wheel forward direction synchronous axial system, chain wheel drive is by several chain connections
Several sprocket component movement of one, the ballast that the sprocket of sprocket calculus device following chain tooth plate is contacted is pushed to outside railway roadbed
Side, hydraulic oil makes the double rod hydraulic cylinder piston rod of the 3rd telescopic drive dual Piston start to retract, and pulls respectively and is connected with it
Two third party's tubular telescopic arms synchronously retract, two third party's tubular telescopic arms entrust two sprocket calculus device phases respectively
Interior motion, sprocket calculus device inward sprocket of chain tooth plate to inside it is contacted with the ballast below rail, by ballast land
Continue and gnaw between the adjacent two chain tooth plate sprockets of sprocket calculus device, ballast is pushed into outside railway roadbed successively by chain tooth plate, when chain tooth row
To position shown in Figure 32, below rail, calculus terminate stone device inward, the double rod hydraulic pressure of the 3rd telescopic drive dual Piston
Cylinder piston rod stops retracting, and sprocket calculus assembly double output shaft hydraulic motor stops rotating forward, the 3rd telescopic drive dual-active
The double rod hydraulic cylinder piston rod of plug starts to stretch out, and makes two third party's tubular telescopic arms entrust two sprocket calculus dresses respectively
Put and move out, when inside sprocket calculus device moves out to it, the sprocket of chain tooth plate leaves outside rail lower flange, the
The double rod hydraulic cylinder piston rod of three telescopic drive dual Pistons stops stretching out, and hydraulic oil makes the 5th lifting drive double multi-stage expansions
The double multi-stage sleeve stretching out oil cylinder two ends of shell type starts to retract step by step, and two sprocket calculus device liters entrusted by the 5th lowering or hoisting gear
Height, simultaneously hydraulic oil make the double rod hydraulic cylinder piston rod of the 3rd telescopic drive dual Piston start to retract, make two third parties
Tubular telescopic arm entrusts two sprocket calculus device inward respectively, treats that sprocket calculus device moves to position shown in Fig. 1, the
The double rod hydraulic cylinder piston rod of three telescopic drive dual Pistons stops retracting, and the double multi-stage expansion shell types of the 5th lifting driving are double to stretch
The chopped-off head sleeve going out oil cylinder two ends stops retracting, calculus end-of-job below rail;
4. dismounting nut work: engineering truck traction track car moves to left, by the firm rail of pattern recognition system automatic identification sleeper
The number of outer bolt image, makes railcar move to left a sleeper pitch, four interior wide-mouth magnetic coupling boxs are located at sleeper to be changed
Directly over four bolts, hydraulic oil makes hydraulic oil make the 6th lifting drive double multi-stage expansion shell types pair to stretch out the multistage of oil cylinder two ends
Sleeve starts to stretch out step by step, and the 6th lowering or hoisting gear is entrusted two nut assembling and disassembling devices and declined, by first laser displacement transducer
Measure the displacement signal of itself and sill, to control the 6th lifting to drive double multi-stage expansion shell types pair to stretch out oil cylinder and the first spiral
Rotary actuator works, when interior wide-mouth magnetic coupling box is sheathed on nut, position shown in Figure 39, and the 6th lifting drives double
The double final stage sleeve stretching out oil cylinder two ends of multi-stage expansion shell type stops stretching out, and hydraulic oil makes two the first spiral rotary actuators
Start reverse sync to rotate, drive two circular connecting plates to entrust two internal gears respectively and rotate backward, each internal gear is simultaneously
Engage with two gears, drive two drive axis, so that four interior wide-mouth magnetic coupling box reverse sync is rotated, in four
Wide-mouth magnetic coupling box synchronously screws off four nuts, and it is interior wide that the magnetic of interior wide-mouth magnetic coupling box makes the nut screwing off stay
In mouth magnetic coupling box, two the first spiral rotary actuators stop rotating backward, and hydraulic oil makes the 6th lifting drive simultaneously
The multi-stage sleeve that dynamic double multi-stage expansion shell type pair stretches out oil cylinder two ends starts to retract step by step, and two nuts entrusted by the 6th lowering or hoisting gear
Assembling and disassembling device rises to position shown in Fig. 1, and the 6th lifting drives the double chopped-off head sleeve stretching out oil cylinder two ends of double multi-stage expansion shell types
Stop retracting, dismantle nut end-of-job;
5. pull-out bad sleeper work: engineering truck traction track car moves to left, firm by pattern recognition system automatic identification sleeper
The number of rail outer bolt image, makes railcar move to left a sleeper pitch, swivel block and push-and-pull sleeper device are just gone up positioned at bad sleeper
Side, directly over the first rail-lifting equipment is located on the right side of bad sleeper between sleeper, hydraulic oil makes first crossbeam telescopic drive two-way ram
Cylinder piston rod starts to stretch out, and promotes the 4th square tube shape telescopic arm to stretch out, the 4th square tube shape telescopic arm entrusts the first tumbler
Move out with crawl and swivel block device, its displacement letter with the 5th range finding reference plate is measured by the 5th laser displacement sensor
Number, to control first crossbeam telescopic drive two-way ram oil cylinder, the 3rd spiral rotary actuator and the 4th spiral to swing liquid
Pressure motor works, and the first tumbler and crawl and swivel block device move out to appropriate location, and first crossbeam telescopic drive is double
Effect piston oil-cylinder piston rod stops stretching out, and hydraulic oil makes the 3rd spiral rotary actuator start to rotate forward, and drives first
Casing rotates forward, and the first casing is entrusted the second casing being connected with it and rotated forward, and the second casing entrusts crawl and swivel block dress
Put and rotate forward, when the first casing rotates forward to its spacer pin and cantilever hollow multidiameter connecting plate spacing arc groove one termination
When tactile, crawl entrusted by the second casing and swivel block device rotates forward 90 °, and the 3rd spiral rotary actuator stops rotating forward,
The middle position of solenoid directional control valve makes the 3rd spiral rotary actuator pressurize, and hydraulic oil makes first crossbeam telescopic drive double acting simultaneously
Piston oil-cylinder piston rod starts to retract, and pulls the 4th square tube shape telescopic arm to stretch out, makes the 4th square tube shape telescopic arm entrust first turn
Dynamic device and crawl and swivel block device inward, when two pressing plate inward of gripper are to bad sleeper both sides appropriate location
When, first crossbeam telescopic drive two-way ram cylinder piston rod stops retracting, and hydraulic oil makes hydraulic cylinder piston rod start to stretch
Go out, make first connecting rod and second connecting rod promote symmetrically arranged two the second forks to swing in opposite directions respectively, be articulated with the second fork
The roller of ears ring pushes down pressing plate, and roller rolls makes pressing plate overcome the pulling force of two cylindrically coiled springs to make translation, two parallel connections
Parallelogram lindage is positive to be swung, and when two platen clamp sleepers, the middle position of solenoid directional control valve makes hydraulic jack pressurize;
Hydraulic oil makes the 7th lifting drive the double multi-stage sleeve stretching out oil cylinder two ends of double multi-stage expansion shell types to start to stretch step by step
Go out, the 7th lowering or hoisting gear is entrusted the first rail-lifting equipment and declined, by first laser displacement sensor, it is driven with the 7th lifting
Dynamic double multi-stage expansion shell type pair stretches out the displacement signal of oil cylinder, to control the 7th lifting to drive the double rod hydraulic jack of dual Piston
Work with the second spiral rotary actuator, put forward rail cylinder body of hydraulic oil cylinder gusset upper table when the first rail-lifting equipment drops to first
When face is coplanar with rail lower surface, the 7th lifting drives the double final stage sleeve stretching out oil cylinder two ends of double multi-stage expansion shell types to stop stretching
Go out, hydraulic oil makes the second spiral rotary actuator start to rotate forward, and so that opposite crank is rotated forward, promote two companies respectively
Plane motion made by bar, and two connecting rods promote two I-shaped tubular travelling arms to slide in and out respectively, and two I-shaped tubular travelling arms divide
Do not entrust two first and carry rail hydraulic jack and move out, when first puies forward rail cylinder body of hydraulic oil cylinder and rail lower flange contacts side surfaces
When, first carries rail cylinder body of hydraulic oil cylinder gusset upper surface contacts with below rail, and the second spiral rotary actuator just stops
To rotation, hydraulic oil makes first to carry rail hydraulic cylinder piston rod to stretch out, when the fagging being fixed on piston rod contacts railway roadbed ballast simultaneously
After being compacted into, constantly stretching out with piston rod, the first cylinder body carrying rail hydraulic jack is entrusted gusset and is moved upwards, makes steel
Rail jack-up, the middle position of solenoid directional control valve makes first to propose rail hydraulic jack pressurize;
Hydraulic oil makes the 4th spiral rotary actuator start to rotate forward, and makes hydraulic jack entrust positive turn of gripper
Dynamic, gripper makes sleeper rotate forward, when the 4th spiral rotary actuator ring flange and the spacing sector of hydraulic jack ring flange
When boss is contacted with second casing scallop hole the second confined planes, gripper makes sleeper rotate forward 90 °, and the 4th spiral swings hydraulic pressure
Motor stops rotating forward, and hydraulic oil makes first crossbeam telescopic drive two-way ram cylinder piston rod start to stretch out, four directions
Tubular telescopic arm entrusts the first tumbler and crawl and swivel block device moves out, and gripper pulls bad sleeper to move out,
When bad sleeper moves out to end face thereafter and above rail lower flange trailing flank is coplanar, first crossbeam telescopic drive double acting
Piston oil-cylinder piston rod stops stretching out, and hydraulic oil makes the 4th spiral rotary actuator start to rotate backward, and makes hydraulic jack cylinder
Body is entrusted gripper and is rotated backward, and gripper makes sleeper rotate backward, when the 4th spiral rotary actuator ring flange and hydraulic pressure
When cylinder flange disk spacing sector boss is contacted with second casing scallop hole the first confined planes, gripper makes sleeper rotate backward
90 °, position shown in Figure 43, the 4th spiral rotary actuator stops rotating backward;
Hydraulic oil makes hydraulic cylinder piston rod start to retract, and pulls first connecting rod and second connecting rod to make respectively symmetrically arranged
Two the second fork backswings, under the pulling force effect of two cylindrically coiled springs, make two pressing plates make translation, two parallel connections
Parallelogram lindage backswing, when two pressing plates and sleeper side disengage and contact, hydraulic cylinder piston rod stops retracting;
Hydraulic oil makes first crossbeam telescopic drive two-way ram cylinder piston rod start to stretch out, the 4th square tube shape telescopic arm
Entrust the first tumbler and crawl and swivel block device moves out to appropriate location, first crossbeam telescopic drive two-way ram
Cylinder piston rod stops stretching out;Hydraulic oil makes the 3rd spiral rotary actuator start to rotate backward, and drives the first casing reverse
Rotate, the first casing is entrusted the second casing being connected with it and rotated backward, crawl entrusted by the second casing and swivel block device reversely turns
Dynamic, when the first casing rotates backward to its spacer pin and another end in contact of the spacing arc groove of cantilever hollow multidiameter connecting plate,
Crawl entrusted by second casing and swivel block device rotates backward 90 °, and the 3rd spiral rotary actuator stops rotating backward, and electromagnetism changes
Make the 3rd spiral rotary actuator pressurize to the middle position of valve, first crossbeam telescopic drive two-way ram cylinder piston rod starts
Retract, the 4th square tube shape telescopic arm entrusts the first tumbler and crawl and swivel block device inward to position shown in Fig. 1, the
One crossbeam telescopic drive two-way ram cylinder piston rod stops retracting;
Hydraulic oil makes first to carry rail hydraulic cylinder piston rod to start to retract, and its piston rod hauls fagging and move upwards, rail
Fall to original position, bad sleeper is pushed down so as to upper surface is parallel with two rail lower surfaces, first carries rail hydraulic cylinder piston
Bar is retracted to stop,
Hydraulic oil makes the second spiral rotary actuator start to rotate backward, and drives opposite crank to rotate backward, draws respectively
Plane motion made by dynamic two connecting rods, and two connecting rods pull two I-shaped tubular travelling arm slid inward, two I-shaped tubulars respectively
Travelling arm is entrusted two respectively and is carried rail hydraulic jack inward, when its gusset and rail disengage and contact, the second spiral pendulum
Hydrodynamic pressure motor stops rotating backward;
Hydraulic oil makes the 7th lifting drive the double multi-stage sleeve stretching out oil cylinder two ends of double multi-stage expansion shell types to start to contract step by step
Return, the 7th lowering or hoisting gear is entrusted the first rail-lifting equipment and risen, when the first rail-lifting equipment rises to position shown in Fig. 1, the 7th lifting
Drive the double chopped-off head sleeve stretching out oil cylinder two ends of double multi-stage expansion shell types to stop retracting, pull out bad sleeper end-of-job;
6. handling bad sleeper work: engineering truck traction track car moves to left, firm by pattern recognition system automatic identification sleeper
The number of rail outer bolt image, makes railcar move to left six sleeper pitches, and the second rail-lifting equipment is located at adjacent on the right side of sleeper to be changed
Directly between sleeper, position shown in Figure 51, hydraulic oil makes the double rod hydraulic cylinder piston of second cross beam telescopic drive dual Piston
Bar starts to stretch out, and promotes two the 5th square tube shape telescopic arms being connected with it synchronously to stretch out respectively, and two the 5th square tube shapes are flexible
Arm is entrusted two the second tumblers and second respectively and is carried rail hydraulic jack and is outwards synchronized with the movement, and is sensed by the 6th laser displacement
Device measures its displacement signal with the 6th range finding reference plate, to control the double rod hydraulic oil of second cross beam telescopic drive dual Piston
Cylinder and the work of the 3rd spiral rotary actuator, when two second carry rail hydraulic jack and move out to appropriate location, second is horizontal
The double rod hydraulic cylinder piston rod of beam telescopic drive dual Piston stops stretching out, and hydraulic oil makes the second spiral rotary actuator open
Beginning rotates forward, and drives the first casing to rotate forward, the first casing is entrusted the rail hydraulic jack that carries being connected with it and rotated forward, when
When first casing rotates forward to its spacer pin and cantilever hollow multidiameter connecting plate spacing arc groove end thereof contacts, carry rail hydraulic pressure
Oil cylinder rotates forward 90 °, and the second spiral rotary actuator stops rotating forward, and the middle position of solenoid directional control valve makes the second spiral pendulum
Hydrodynamic pressure motor pressurize, the double rod hydraulic cylinder piston rod of second cross beam telescopic drive dual Piston starts to retract, and pulls respectively
Two the 5th tubular telescopic arms being connected with it are synchronously retracted, and make two the 5th square tube shape telescopic arms entrust two second turn respectively
Dynamic device and second carries rail hydraulic jack and is inwardly synchronized with the movement, when second carries rail hydraulic jack inward to its cylinder body and rail
During the contact outside of lower flange, second carries rail cylinder body of hydraulic oil cylinder gusset upper surface contacts with below rail, and second cross beam stretches
The double rod hydraulic cylinder piston rod of dual Piston is driven to stop retracting;
Hydraulic oil makes reciprocating motion drive hydraulic motor to start to rotate forward, and drive screw rotates forward, and makes square nut
Pull moving beam to left movement, moving beam entrusts storage sleeper case to left movement, surveys by the 7th laser displacement sensor
Measure the displacement signal of itself and fixed cross beam, to control reciprocating motion to drive hydraulic motor work, when storage sleeper case is to left movement
To store bad sleeper position in storehouse immediately below pick-and-place sleeper device when, move back and forth drive hydraulic motor stop rotate forward;
Hydraulic oil makes the second level extension sleeve of the second multi-stage expansion shell type oil cylinder start to stretch out with first order extension sleeve,
The 3rd ladder square tube shape telescopic arm is promoted to stretch out, the 3rd ladder square tube shape telescopic arm is entrusted rigid hanger and moved out, when the 3rd
Ladder square tube shape telescopic arm extend out to its shoulder with second second shoulder grafting of ladder square tube shape telescopic arm touch when, the second multi-stage expansion
Shell type oil cylinder second level extension sleeve starts to stretch out, and promotes the 3rd ladder square tube shape telescopic arm to stretch by first order extension sleeve
Go out, the 3rd ladder square tube shape telescopic arm pulls the second ladder square tube shape telescopic arm to stretch out, and is surveyed by the 8th laser displacement sensor
Measure the displacement signal of itself and push pedal, to control the second multi-stage expansion shell type cylinder efficient, when two interior wide-mouths of pick-and-place sleeper device
When above nut and the bad sleeper having been pulled out between sleeper, two bolts in inner side are coaxial, the second multi-stage expansion shell type oil cylinder second level is stretched
Contracting sleeve stops stretching out;
Hydraulic oil makes the sleeve of the first multi-stage expansion shell type oil cylinder start to retract step by step, square tube shape telescopic arm and the first ladder
Square tube shape telescopic arm starts to retract successively, and rigid hanger is entrusted pick-and-place sleeper device and declined, by the 8th laser displacement sensor
Measure the displacement signal of itself and sill, to control the first multi-stage expansion shell type cylinder efficient, when two interior wide-mouth nuts and rail
When above pillow, two bolts in inner side are close, hydraulic oil makes two the 5th spiral rotary actuators start to rotate forward, and makes two
Interior wide-mouth nut forward rotates, and when two interior wide-mouth nuts screw on two bolts in inner side above sleeper, swings liquid to the 5th spiral
Pressure motor rotates forward to hard-over, position shown in Figure 58, and the 5th spiral rotary actuator stops rotating forward, more than first
The first order sleeve of the flexible shell type oil cylinder of level stops retracting;
Hydraulic oil makes the piston rod carrying rail hydraulic jack start to stretch out, and makes rail jack-up, and the middle position of solenoid directional control valve makes to carry
Rail hydraulic jack pressurize;
Hydraulic oil makes the second multi-stage expansion shell type oil cylinder second level extension sleeve start to stretch out again, promotes the 3rd ladder square tube
Shape telescopic arm stretches out, and the 3rd ladder square tube shape telescopic arm pulls the second ladder square tube shape telescopic arm to stretch out, the 3rd ladder square tube shape
Telescopic arm entrusts rigid hanger and pick-and-place sleeper device moves out, and pick-and-place sleeper device is entrusted bad sleeper and moved out, when bad
Sleeper move out to end face thereafter leave sleeper lower flange appropriate location when, second the multi-stage expansion shell type oil cylinder second level stretch
Sleeve stops stretching out;
Hydraulic oil makes the first order sleeve of the first multi-stage expansion shell type oil cylinder start to stretch out, and entrusts square tube shape telescopic arm and stretches
Go out, rigid hanger is entrusted pick-and-place sleeper device and risen, when square tube shape telescopic arm ring flange and the flexible arm cylinder of the first ladder square tube shape
When shoulder grafting touches, the second level sleeve of the second multi-stage expansion shell type oil cylinder starts to stretch out, and square tube shape telescopic arm pulls the first ladder side
Tubular telescopic arm stretches out, when pick-and-place sleeper device rises to suitable height, the second level sleeve of the first multi-stage expansion shell type oil cylinder
Stopping is stretched out;
Hydraulic oil makes the second multi-stage expansion shell type oil cylinder second level extension sleeve start to retract, and pulls the 3rd ladder square tube shape
Telescopic arm is retracted, and the 3rd ladder square tube shape telescopic arm entrusts rigid hanger and pick-and-place sleeper device inward, when push pedal and the
During the flexible arm contact of two ladder square tube shapes, second level extension sleeve is retracted with first order extension sleeve, and the 3rd ladder square tube shape is stretched
Contracting arm draws push pedal to retract, and push pedal promotes the second ladder square tube shape telescopic arm to retract, when sleeper inward is to storing bad sleeper storehouse
During surface, the second multi-stage expansion shell type oil cylinder first order extension sleeve stops retracting, and hydraulic oil makes the first multi-stage expansion shell type
The sleeve of oil cylinder starts to retract step by step, and pick-and-place sleeper device is entrusted bad sleeper and declined, when bad sleeper declines close to bad sleeper orlop
Or previously put into bad sleeper when, hydraulic oil make two the 5th spiral rotary actuators start reverse sync rotate, make two
Interior wide-mouth nut rotates backward, and when bad sleeper is discharged in storehouse, the 5th spiral rotary actuator stops rotating backward, and first
The sleeve of multi-stage expansion shell type oil cylinder starts to stretch out step by step, and rigid hanger and pick-and-place sleeper device rise to position shown in Fig. 1, the
The second level sleeve of one multi-stage expansion shell type oil cylinder stops stretching out, and the work of handling bad sleeper completes;
7. handling is well placed sleeper work: hydraulic oil makes reciprocating motion drive hydraulic motor to start to rotate backward, and drives spiral shell
Bar rotates backward, and makes square nut promote moving beam to move right, moving beam is entrusted storage sleeper case and moved right, and works as storage
Deposit sleeper case move right to stored sleeper position in storehouse immediately below pick-and-place sleeper device when, move back and forth drive hydraulic motor stop
Only rotate backward;
Hydraulic oil makes the sleeve of the first multi-stage expansion shell type oil cylinder start to stretch out step by step, and rigid hanger entrusts pick-and-place sleeper dress
Put rising, pick-and-place sleeper device has been entrusted sleeper and risen to suitable height, the first order sleeve of the first multi-stage expansion shell type oil cylinder
Stopping is stretched out;
Hydraulic oil makes the first order extension sleeve of the second multi-stage expansion shell type oil cylinder and second level extension sleeve stretch out successively,
Make the 3rd ladder square tube shape telescopic arm entrust rigid hanger to move out, pick-and-place sleeper device has been entrusted sleeper and moved out to suitable
Work as position, the first order extension sleeve of the second multi-stage expansion shell type oil cylinder stops stretching out, and hydraulic oil makes the first multi-stage expansion shell type
The sleeve of oil cylinder starts to retract step by step, and when pick-and-place sleeper device has been entrusted sleeper and dropped to it and contacted with railway roadbed, hydraulic oil makes
The first order sleeve of one multi-stage expansion shell type oil cylinder stops retracting;
Hydraulic oil makes the second multi-stage expansion shell type oil cylinder second level extension sleeve start to retract, and the 3rd ladder square tube shape is stretched
Arm entrusts rigid hanger inward, and pick-and-place sleeper device has been entrusted sleeper inward to appropriate location, so that sleeper is penetrated
Under rail, when having made sleeper rear end face and above rail lower flange trailing flank be coplanar, the second multi-stage expansion shell type oil cylinder second level
Extension sleeve stops retracting;
Hydraulic oil makes second to carry rail hydraulic cylinder piston rod to start to retract, and rail falls to original position, good sleeper is pushed down,
Make its upper surface parallel with two rail lower surfaces, second carries rail hydraulic jack quits work, hydraulic oil makes second cross beam stretch
Drive the double rod hydraulic cylinder piston rod of dual Piston to start to stretch out, make two the 5th square tube shape telescopic arms entrust two the respectively
Two tumblers and second carry rail hydraulic jack and move out to appropriate location, the double rod of second cross beam telescopic drive dual Piston
Hydraulic cylinder piston rod stops stretching out, and hydraulic oil makes the 3rd spiral rotary actuator start to rotate backward, when the first casing is anti-
To when turning to its spacer pin with another end in contact of the spacing arc groove of cantilever hollow multidiameter connecting plate, carry rail hydraulic jack reverse
Rotate 90 °, the 3rd spiral rotary actuator stops rotating backward, the middle position of solenoid directional control valve makes the 3rd spiral swing hydraulic pressure horse
Reach pressurize;The double rod hydraulic cylinder piston rod of second cross beam telescopic drive dual Piston starts to retract, and makes two first to rotate dress
Put and carry rail hydraulic jack inward to position shown in Fig. 1, the double rod hydraulic jack of second cross beam telescopic drive dual Piston
Piston rod stops retracting;
Hydraulic oil makes the 5th spiral rotary actuator start to rotate backward, when the 5th spiral rotary actuator reversely turns
When moving to hard-over, discharge sleeper, the 5th spiral rotary actuator stops rotating backward, the first multi-stage expansion shell type oil cylinder
Sleeve start to stretch out step by step, rigid hanger is entrusted pick-and-place sleeper device and is risen to suitable height, and hydraulic oil makes second multistage to stretch
The extension sleeve of contracting shell type oil cylinder is retracted successively, makes the 3rd ladder square tube shape telescopic arm entrust rigid hanger and pick-and-place sleeper device
Inward, pick-and-place sleeper device moves to position shown in Fig. 1, and the second level sleeve of the first multi-stage expansion shell type oil cylinder stops stretching
Go out, the first order sleeve of the second multi-stage expansion shell type oil cylinder stops retracting, handling is well placed sleeper work and completes;
8. advanced sleeper to work: journey car traction track car moves to right, by the firm rail of pattern recognition system automatic identification sleeper
The number of outer bolt image, makes railcar move to right six sleeper pitches, swivel block and push-and-pull sleeper device are located above good sleeper, the
Directly over one rail-lifting equipment is located on the right side of good sleeper between sleeper, hydraulic oil makes first crossbeam telescopic drive two-way ram oil cylinder live
Stopper rod starts to stretch out, and promotes the 4th square tube shape telescopic arm to stretch out, the 4th square tube shape telescopic arm entrusts the first tumbler and crawl
And swivel block device moves out, when the 4th square tube shape telescopic arm extend out to stop, first crossbeam telescopic drive two-way ram
Cylinder piston rod stops stretching out, and hydraulic oil makes the 3rd spiral rotary actuator start to rotate forward, and turns when the first casing is positive
When moving to its spacer pin and the spacing arc groove end thereof contacts of cantilever hollow multidiameter connecting plate, the second casing entrusts crawl and swivel block
Device rotates forward 90 °, and the 3rd spiral rotary actuator stops rotating forward, and the middle position of solenoid directional control valve makes the 3rd spiral pendulum
Hydrodynamic pressure motor pressurize;
Hydraulic oil makes first crossbeam telescopic drive two-way ram cylinder piston rod start to retract, when two pressures of gripper
During plate inward most intimate friend's sleeper both sides appropriate location, position shown in Figure 43, first crossbeam telescopic drive two-way ram oil cylinder
Piston rod stops retracting, and hydraulic oil makes hydraulic cylinder piston rod start to stretch out, and when two platen clamp sleepers, hydraulic jack is lived
Stopper rod stops stretching out, and the middle position of solenoid directional control valve makes hydraulic jack pressurize;
Hydraulic oil makes the 7th lifting drive the double multi-stage sleeve stretching out oil cylinder two ends of double multi-stage expansion shell types to start to stretch step by step
Go out, the 7th lowering or hoisting gear is entrusted the first rail-lifting equipment and declined, and carries rail cylinder body of hydraulic oil cylinder when the first rail-lifting equipment drops to first
When gusset upper surface is coplanar with rail lower surface, the 7th lifting drives the double final stage stretching out oil cylinder two ends of double multi-stage expansion shell types
Sleeve stops stretching out, and hydraulic oil makes the second spiral rotary actuator start to rotate forward, and so that two I-shaped tubular travelling arms is divided
Do not entrust two first and carry rail hydraulic jack and move out, when first puies forward rail cylinder body of hydraulic oil cylinder and rail lower flange contacts side surfaces
When, first carries rail cylinder body of hydraulic oil cylinder gusset upper surface contacts with below rail, and the second spiral rotary actuator just stops
To rotation, hydraulic oil makes first to carry rail hydraulic cylinder piston rod to stretch out, make rail jack-up, and the middle position of solenoid directional control valve makes first to carry
Rail hydraulic jack pressurize;
Hydraulic oil makes the 3rd spiral rotary actuator start to rotate forward, and gripper makes sleeper rotate forward 90 °, and the 3rd
Spiral rotary actuator stops rotating forward, and hydraulic oil makes first crossbeam telescopic drive two-way ram cylinder piston rod start
Retract, gripper has promoted sleeper inward, during position, first crossbeam stretches and drives to shown in Fig. 1 to have made sleeper inward
Dynamic two-way ram cylinder piston rod stops retracting, and hydraulic oil makes the 3rd spiral rotary actuator start to rotate backward, machinery
Pawl makes sleeper rotate backward 90 °, and the 3rd spiral rotary actuator stops rotating backward;
Hydraulic oil makes hydraulic cylinder piston rod start to retract, when two pressing plates of gripper and sleeper disengage and contact, hydraulic pressure
Cylinder piston rod stops retracting, and hydraulic oil makes first crossbeam telescopic drive two-way ram cylinder piston rod start to stretch out, and the 4th
Square tube shape telescopic arm entrusts the first tumbler and crawl and swivel block device moves out to appropriate location, and first crossbeam stretches and drives
Dynamic two-way ram cylinder piston rod stops stretching out;Hydraulic oil makes the 3rd spiral rotary actuator start to rotate backward, and makes
When one casing rotates backward to its spacer pin and another end in contact of the spacing arc groove of cantilever hollow multidiameter connecting plate, the second casing
Entrust crawl and swivel block device rotates backward 90 °, the 3rd spiral rotary actuator stops rotating backward, in solenoid directional control valve
Position makes the 3rd spiral rotary actuator pressurize, and first crossbeam telescopic drive hydraulic double-acting piston oil-cylinder piston rod starts to contract
Return, the 4th square tube shape telescopic arm entrusts the first tumbler and crawl and swivel block device inward to position shown in Fig. 1, first
Crossbeam telescopic drive two-way ram cylinder piston rod stops retracting;
Hydraulic oil makes first to carry rail hydraulic cylinder piston rod to start to retract, and rail falls to original position, and first carries rail hydraulic pressure
Cylinder piston rod is retracted to stop, and hydraulic oil makes the second spiral rotary actuator start to rotate backward, and drives opposite crank anti-
To rotation, two connecting rods are pulled to make plane motion respectively, two connecting rods pull two I-shaped tubular travelling arm slid inward respectively,
Two I-shaped tubular travelling arms are entrusted two first respectively and are carried rail hydraulic jack inward, connect when its gusset is disengaged with rail
When tactile, the second spiral rotary actuator stops rotating backward;
Hydraulic oil makes the 7th lifting drive the double multi-stage sleeve stretching out oil cylinder two ends of double multi-stage expansion shell types to start to contract step by step
Return, the 7th lowering or hoisting gear is entrusted the first rail-lifting equipment and risen to position shown in Fig. 1, the 7th lifting drives double multi-stage expansion shell types double
The chopped-off head sleeve stretching out oil cylinder two ends stops retracting, and has advanced sleeper end-of-job;
9. nut work is installed: engineering truck traction track car moves to right, the image information of cmos imageing sensor collection, pass through
The number of pattern recognition system automatic identification sleeper firm rail outer bolt image, makes railcar move to right a sleeper pitch, four are stayed
There is wide-mouth magnetic coupling box in nut coaxial with four bolts on sleeper respectively, hydraulic oil makes the double multi-stage expansion of the 6th lifting
The double multi-stage sleeve stretching out oil cylinder two ends of shell type starts to stretch out step by step, and the 6th lowering or hoisting gear is entrusted under two nut assembling and disassembling devices
Fall, when dropping to the nut in interior wide-mouth magnetic coupling box and the pillow threaded bolt contacts that switch tracks, position shown in Figure 39, the 6th lifts
The double final stage sleeve stretching out oil cylinder two ends of double multi-stage expansion shell types stops stretching out, and hydraulic oil makes two the first spirals swing hydraulic pressure horse
Reach the positive synchronous axial system of beginning, drive two circular connecting plates to entrust two internal gears respectively and rotate forward, each internal gear is same
When engage with two gears, drive two drive axis, make four interior wide-mouth magnetic coupling box forward direction synchronous axial system, four
Nut in interior wide-mouth magnetic coupling box synchronously screws in four bolts of sleeper pretension, two the first spiral rotary actuators
Stopping rotates forward, and hydraulic oil makes the double multi-stage sleeve stretching out oil cylinder two ends of the double multi-stage expansion shell type of the 6th lifting start to contract step by step
Return, the 6th lowering or hoisting gear is entrusted two nut assembling and disassembling devices and risen to position shown in Fig. 1, the double multi-stage expansion shell type of the 6th lifting is double
The chopped-off head sleeve stretching out oil cylinder two ends stops retracting, and installs nut work and completes;
10. ballast backfilling working: engineering truck traction track car moves to right, the image information of cmos imageing sensor collection, lead to
Cross the number of pattern recognition system automatic identification sleeper firm rail outer bolt image, make railcar move to right four sleeper pitches, ballast
Collection arranging device is located at directly over the pillow that switched tracks, and the second dither motor is started working, two driving cylinder piston rods of stone removing door
Start to stretch out, promote two the first push-pull bars and two the second push-pull bars to make two stone removing door synchronous hunting to shown in Figure 17 respectively
Position, the ballast in stone storehouse to be collected rushes down to fall completely and switches tracks between the sleeper of pillow both sides, and the second dither motor quits work, row
Crossdrift two drives cylinder piston rod to start to retract, and pulls two the first push-pull bars and two the second push-pull bars to make two rows respectively
Crossdrift synchronous hunting completes to position shown in Fig. 1, ballast backfilling working;
11. road shoulders and railway roadbed correction of the flank shape work: engineering truck traction track car moves to right, by pattern recognition system automatic identification rail
Rest the head on the number of firm rail outer bolt image, make railcar move to right two sleeper pitches, bucket device is located on the pillow end of the pillow that switched tracks
Side, hydraulic oil makes the first telescopic drive two-way ram cylinder piston rod start to stretch out, and promotes the first square tube shape telescopic arm to stretch out,
First square tube shape telescopic arm is entrusted bucket device and is moved out, second laser displacement sensor its with second range finding reference plate
Displacement signal, to control the first telescopic drive two-way ram oil cylinder and the work of bucket hydraulic jack, hydraulic oil makes the simultaneously
Two liftings drive the double multi-stage expansion sleeve stretching out oil cylinder two ends of double multi-stage expansion shell types to start to stretch out step by step, the second lowering or hoisting gear
Entrust bucket device to decline, by first laser displacement sensor, it drives double multi-stage expansion shell types pair to stretch with the second lifting
Go out the displacement signal of oil cylinder, to control the second lifting to drive double multi-stage expansion shell types pair to stretch out oil cylinder and bucket hydraulic jack work
Make, when the bucket tooth of bucket is close to road shoulder ballast, bucket hydraulic cylinder piston rod stretches out, and promotes link motion, makes bucket positive
Swing suitable angle, be easy to during shoulder correction of the flank shape combine in unnecessary ballast in bucket, when bucket motion superior self-cultivation shoulder base angle, first stretches
Contracting drives two-way ram cylinder piston rod to stop stretching out, and the double multi-stage expansion shell types of the second lifting driving are double to stretch out oil cylinder two ends
Final stage extension sleeve stops stretching out, position shown in Fig. 9, and hydraulic oil makes the first telescopic drive two-way ram cylinder piston rod start
Retract, pull the first square tube shape telescopic arm to retract, the first square tube shape telescopic arm entrusts bucket inward, the second lifting simultaneously is driven
The multi-stage expansion sleeve at dynamic double multi-stage expansion shell type two ends is retracted step by step, and the second lowering or hoisting gear is entrusted bucket device and risen, and first
Telescopic drive two-way ram cylinder piston rod and the second lifting drive the multi-stage expansion sleeve at double multi-stage expansion shell type two ends to open
Begin to coordinate to retract, the stringcourse making the movement locus of bucket bucket tooth take on for isosceles trapezoid road, enters trade shoulder correction of the flank shape, when bucket moves to
When bucket tooth is to railway roadbed upper surface, the second lifting drives the double multi-stage expansion sleeve stretching out oil cylinder two ends of double multi-stage expansion shell types to stop
Retract, road shoulder correction of the flank shape terminates, the first telescopic drive two-way ram cylinder piston rod continues to retract, the movement locus of bucket bucket tooth
For straight line, bucket hydraulic cylinder piston rod is slowly retracted simultaneously, pulls link motion, makes the slow backswing of bucket, make to combine in
Ballast in bucket gushes, and to repair pillow end railway roadbed, when bucket bucket tooth is close to pillow end, bucket hydraulic jack quits work, and second
Lifting drives the double multi-stage expansion sleeve stretching out oil cylinder two ends of double multi-stage expansion shell types to start to retract step by step, the second lowering or hoisting gear support
When band bucket device rises to position shown in Fig. 1, the first telescopic drive two-way ram cylinder piston rod stops retracting, second liter
Fall drives the double chopped-off head extension sleeve stretching out oil cylinder two ends of double multi-stage expansion shell types to stop retracting, and switched tracks Zhen Zhenduan Dao Jianji road
Bed correction of the flank shape end-of-job;
12. tamping flat quarrel work: engineering truck traction track car moves to right, by pattern recognition system automatic identification sleeper rail
The number of outer bolt image, makes railcar move to right a sleeper pitch, and two row's vibrating spears are located at and have switched tracks between the sleeper of pillow both sides, figure
Position shown in 3, hydraulic oil makes the first lifting drive the double multi-stage expansion sleeve stretching out oil cylinder two ends of double multi-stage expansion shell types to start
Stretch out step by step, the first lowering or hoisting gear is entrusted the assembly that vibrates and declined, by first laser displacement sensor, it lifts with first
The double displacement signal stretching out oil cylinder of the double multi-stage expansion shell types of driving, to control the first lifting to drive double multi-stage expansion shell types pair to stretch out
Oil cylinder and the work of the first dither motor, when vibrating spear free end rests the head on ballast between the sleeper of both sides close to switching tracks, first is high
Frequency vibration motor is started working, and oscillating plate drives two row's vibrating spear dithers, and the first lifting drives double multi-stage expansion shell types double
The multi-stage expansion sleeve stretching out oil cylinder two ends continues to stretch out, and it is suitable that two row's vibrating spear insertion railway roadbed ballasts entrusted by the first lowering or hoisting gear
Depth, the first lifting drives the double final stage extension sleeve stretching out oil cylinder two ends of double multi-stage expansion shell types to stop stretching out, position shown in Fig. 4
Put, the first dither motor works on and shakes at ordinary times to the ballast tamping between the sleeper of pillow both sides that switched tracks, the first dither
Motor quits work, and hydraulic oil makes the first lifting drive the double multi-stage expansion sleeve stretching out oil cylinder two ends of double multi-stage expansion shell types to open
Begin to retract step by step, the first lowering or hoisting gear is entrusted the assembly that vibrates and risen to position shown in Fig. 1, the double multi-stage expansion shell type of the first lifting is double
The chopped-off head extension sleeve stretching out oil cylinder two ends stops retracting, and oil pump quits work, and switched tracks tamping flat quarrel work between the sleeper of pillow both sides
Work terminates.
In lowering or hoisting gear, symmetrically arranged two first series connection parallelogram lindages, make corresponding entablature begin with sill
Parallel eventually, change the corresponding work of pillow to adapt to straight line and curved rail length section;Second series connection parallelogram lindage makes horizontal in plate shape
Beam is parallel with sill all the time, makes servo-actuated Equipoising support apparatus adaptation straight line and curved rail length section change the corresponding work of pillow;Past
In multiple telecontrol equipment, symmetrically arranged two series connection parallelogram lindages, make moving beam parallel with fixed cross beam all the time, make storage
Deposit sleeper case and make translation;Symmetrically arranged two parallelogram lindages in jack up unit, make the 6th square tube shape telescopic arm all the time with
Sill is parallel, to adapt to straight line and the work of curved rail length section handling sleeper;Yielding coupling and interior wide-mouth nut can be effective
Adapt to sleeper bolt position deviation, make interior wide-mouth nut easily screw on sleeper bolt.
Two linear Stiffness amount of spring compression in position shown in Fig. 3, servo-actuated Equipoising support apparatus are minimum, elastic force
Less, now symmetrically arranged 6th fork and the second strut are maximum with entablature angle, and two springs are divided by two slide blocks
The power on the 6th fork and the second strut that do not act on is more than its more small power, and the 6th fork and the second strut act on plate shape
The vertical component of entablature power is big, makes servo-actuated Equipoising support apparatus bear the deadweight of plate shape entablature and stretches with double multi-stage expansion shell types pair
Go out the summation of part deadweight of oil cylinder and balance, servo-actuated Equipoising support apparatus lift with lowering or hoisting gear and balance, in position shown in Fig. 4
Put, two linear Stiffness amount of spring compression are maximum, elastic force is maximum, now symmetrically arranged 6th fork and the second strut with
Entablature angle is minimum, two springs pass through the power that two slide blocks are respectively acting on the 6th fork and the second fork be less than maximum
The vertical component that elastic force, the 6th fork and the second strut act on plate shape entablature power is less, makes servo-actuated Equipoising support apparatus
Bear the deadweight of plate shape entablature and the double summation of part deadweight stretching out oil cylinder of double multi-stage expansion shell type and balance, it is to avoid be double multistage
The double multi-stage sleeve stretching out oil cylinder of flexible shell type bears moment of flexure.
Claims (1)
1. a kind of multifunctional railway maintenance automated machine it is characterised in that: be by tamping flat quarrel device, road shoulder and railway roadbed correction of the flank shape
Device, clear stone device of grabbing bucket, ballast collection arranging device, pillow end clear stone device, sprocket calculus device, four nuts synchronization assembling and disassembling devices,
First rail-lifting equipment, transition and push-and-pull sleeper device, sleeper handling apparatus, electromotor, Hydraulic system and control System cabine and rail
Road car composition.Railcar is provided with multiple castors and two longerons, and tamping flat quarrel device, road shoulder and railway roadbed modification device, grab bucket are clear
Stone device, ballast collection arranging device, pillow end clear stone device, sprocket calculus device, four nuts synchronization assembling and disassembling devices, first carry rail dress
Put, go through transition and push-and-pull sleeper device, sleeper handling apparatus, electromotor and Hydraulic system and control System cabine are arranged on railcar
On two longerons, railcar is drawn by engineering truck, and electromotor is oil pump and control system provides power, Hydraulic system and control system
It is provided with fuel tank, oil pump, hydraulic control system and automatic control system in system case;
Described tamping is put down quarrel device and is made up of entablature, the first lowering or hoisting gear and the assembly that vibrates, and entablature is provided with two companies
Fishplate bar and four ears rings, connecting plate is provided with several bolts hole;
Described lowering or hoisting gear is by two first series connection parallelogram lindages, the first lifting drive, servo-actuated balanced support
Device and first laser displacement transducer composition;
The first described series connection parallelogram lindage is by sill, the first fork, the second fork, two the 3rd forks and first even
Bar forms, and first connecting rod is provided with monaural ring and ears ring;
The first described lifting drive stretches out oil cylinder by double multi-stage expansion shell types pair and two first connecting rods form, double many
The double two final stage extension sleeve free ends stretching out oil cylinder of the flexible shell type of level are provided with monaural ring;
Described servo-actuated Equipoising support apparatus are by plate shape entablature, the second series connection parallelogram lindage, the first strut, the second support
Bar, slide bar, two slide blocks, two turriform linear Stiffness springs, two the first hex nuts, two the first bolts and two
Two bolt compositions, slide bar is provided with fixed disc, is arranged with two light bar segments and two thread segments;Slide block is provided with circular hole and one
To coaxial threaded blind hole;
The second described series connection parallelogram lindage is by plate shape entablature, sill, the 4th fork, the 5th fork, the 6th pendulum
Bar, the 7th fork, two second connecting rods and two bearing pin compositions;
By the first fork and sill chain connection, chain connection between the second fork, the 4th fork and three components of sill, the
One fork ears ring, the 3rd fork ears ring and first connecting rod monaural ring coaxially penetrate pin hinge and connect, the second fork ears
Ring, another the 3rd fork ears ring, first connecting rod ears ring and double multi-stage expansion shell type pair are stretched out oil cylinder monaural ring and are coaxially worn
Enter pin hinge to connect, composition the first series connection parallelogram lindage, repeat aforementioned assembly operation, be symmetrical in sill and entablature
The vertical plane of symmetry assembles another the first series connection parallelogram lindage;
Two turriform linear Stiffness springs are symmetrically sheathed on two light bar segments of slide bar, then two slide blocks are sheathed on respectively
Two light bar segments of slide bar, two the first hex nut pretensions respectively, make two slide blocks make turriform linear Stiffness spring respectively
Suitably compress, by the 5th fork and sill chain connection, make the left side monaural ring of two second connecting rods respectively with the 4th fork
Ears ring, the 6th fork ears ring and slide block a pair of tapped blind hole coaxial, two the first bolts pretensions respectively, make the 4th pendulum
Chain connection between bar, the 6th fork and three components of slide block, by the right monaural ring of two third connecting rods respectively with the 5th fork
Ears ring, the 7th fork ears ring coaxial, two bearing pins respectively penetrate, and make second connecting rod, the 5th fork and the 7th fork three
Chain connection between individual component, composition the second series connection parallelogram lindage;
A pair of tapped blind hole of the first strut ears ring, the second strut ears ring and slide block is coaxial, and two the second bolts are respectively
Pretension, makes chain connection between the first strut, the second strut and three components of slide block, the 6th fork, the 7th fork and the second strut
Respectively with plate shape entablature chain connection, form servo-actuated Equipoising support apparatus;
A pair of tapped blind hole of the first strut ears ring, the second strut ears ring and slide block is coaxial, and two the second bolts are respectively
Pretension, makes chain connection between the first strut, the second strut and three components of slide block, the 6th fork, the 7th fork and the second strut
With plate shape entablature chain connection, form the first servo-actuated Equipoising support apparatus;
Double multi-stage expansion shell types pair are stretched out oil cylinder and is fixed on plate shape entablature, by four the 3rd forks with entablature hinge even
Connect, first laser displacement transducer is symmetrically fixed on below entablature;Form the first lowering or hoisting gear;
Described vibrate assembly by entablature, several first elastic connecting component, oscillating plate, eight vibrating spears, eight the two or six
Angle nut and the first dither motor composition, the first elastic connecting component is by bolt, two helical springs, pad and hexagonal spiral shell
Female composition, oscillating plate is provided with several bolts hole and eight circular holes;
Bolt is passed through entablature connecting plate bolt hole, helical spring is sheathed on bolt, then passes through oscillating plate bolt hole,
Again another helical spring is sheathed on bolt, pad is sheathed on bolt, hex nut pretension, oscillating plate is real with entablature
Existing elastic connection;Vibrating head passes through oscillating plate bolt hole, the second hex nut pretension, and the first dither motor is symmetrically fixed on
Above oscillating plate, sill is symmetrically fixed on two longerons of railcar, composition tamping flat quarrel device.
Described road shoulder and railway roadbed modification device are by the first entablature assembly, the first retractable driving device, the second lowering or hoisting gear
Form with the first bucket device;
The first described entablature assembly is to be passed by the first square tube shape fixed arm, the first square tube shape telescopic arm, second laser displacement
Sensor and the second range finding reference plate composition, the first square tube shape fixed arm is provided with blind end and four ears rings, and the first square tube shape is stretched
Contracting arm is provided with blind end;
The first described retractable driving device is to be stretched by the first square tube shape fixed arm, two-way ram oil cylinder and the first square tube shape
Arm forms, and two-way ram cylinder block is provided with square slider and ring flange, piston rod free end are provided with ring flange;
First square tube shape telescopic arm is sheathed on two-way ram oil cylinder, makes the first square tube shape telescopic arm blind end and double acting
Piston oil-cylinder piston rod ring flange is connected, then the first square tube shape fixed arm is sheathed on the first square tube shape telescopic arm, and will be double
Effect piston oil-cylinder ring flange is symmetrically fixed on the first square tube shape fixed arm blind end, forms the first retractable driving device, double cropping
Form moving sets with piston oil-cylinder and the first square tube shape telescopic arm, second laser displacement transducer is symmetrically fixed on the first square tube
Above shape fixed arm, the second range finding reference plate is fixed on above the first square telescopic arm;
The second described lowering or hoisting gear and the first lowering or hoisting gear composition, except aforesaid first square tube shape fixed arm and entablature
Version is different, and remaining all component structural form is the same;
Carry out and the first lifting drive identical assembly operation, by four the 3rd forks and the first square tube shape fixed arm hinge
Connect, first laser displacement transducer is symmetrically fixed on below the first square tube shape fixed arm;Form the second lowering or hoisting gear;
Described bucket device is made up of the first bucket assembly, arm and u shape suspension rod, and arm is provided with monaural ring, the first ears
Ring, the second ears ring and ring flange;
The first described bucket assembly is made up of hydraulic jack, strut, connecting rod and bucket body, the piston rod free end of hydraulic jack
It is provided with monaural ring, cylinder body is provided with monaural ring;Strut is provided with ears ring and monaural ring;Connecting rod is provided with monaural ring and ears ring,
Bucket body is provided with the first ears ring and the second ears ring;
Cylinder body of hydraulic oil cylinder monaural ring is coaxially penetrated pin hinge with arm the second ears ring be connected, strut monaural ring and arm
First ears ring coaxially penetrates pin hinge and connects, and bucket body the second ears ring and arm monaural ring coaxially penetrate pin hinge even
Connect, connecting rod monaural ring coaxially penetrates pin hinge with bucket body the first ears ring and is connected, connecting rod ears ring, strut ears ring and hydraulic pressure
The monocyclic pin hinge that coaxially penetrates of cylinder piston rod connects, and forms the first bucket assembly, and u shape suspension rod is solid with arm ring flange
Even, form bucket device, u shape suspension rod is fixed on the first square tube shape telescopic arm, composition road is takeed on and railway roadbed modification device;
Described grab bucket clear stone device is entablature, two the 3rd lowering or hoisting gears, four the first grab mechanisms, traversing assembly and horizontal stroke
Move driving means composition, entablature is provided with three longerons, and longeron is provided with groove;
As the composition of the 3rd described lowering or hoisting gear and the first lowering or hoisting gear, except aforesaid 3rd lowering or hoisting gear entablature and
One lowering or hoisting gear entablature version is different, and remaining all component structural form is the same;
Carry out and the first lifting drive identical assembly operation, by four the 3rd forks respectively with entablature chain connection,
One the 3rd lowering or hoisting gear of composition, is symmetrical in the entablature horizontal vertical plane of symmetry and assembles another the 3rd lowering or hoisting gear, by first
Laser displacement sensor is fixed on below entablature;Form the 3rd lowering or hoisting gear;
The first described grab mechanisms are made up of two the second bucket assemblies and arm, arm be arranged with two monaural rings,
Two the first ears rings, 2 second ears rings and ring flange;
Second bucket assembly and the first bucket assembly composition and version the same;
Two cylinder body of hydraulic oil cylinder monaural rings are coaxially penetrated pin hinge with two the second ears rings of arm respectively be connected, two
Strut monaural ring coaxially penetrates pin hinge with two the first ears rings of arm respectively and is connected, and two bucket body the second ears rings are respectively
Coaxially penetrate pin hinge with two monaural rings of arm to be connected, two connecting rod monaural rings are same with two bucket body the first ears rings respectively
Axle penetrates pin hinge and connects, connecting rod ears ring, strut ears ring and hydraulic cylinder piston rod is monocyclic coaxially penetrates pin hinge
Connect, form the first grab mechanisms;
Described traversing assembly be by the second square tube shape fixed arm, two the second square tube shape telescopic arms, two coupling assemblies, four
Cantilever beam, the 3rd laser displacement sensor and the 3rd range finding reference plate composition;Second square tube shape fixed arm be arranged with four long
Slotted eye, the second square tube shape telescopic arm is provided with blind end and symmetrical four screwed holes, and cantilever beam is provided with ring flange;
Described coupling assembly is made up of two connecting plates, two rollers, two bearing pins and four bolts, and connecting plate is provided with method
Blue disk, two axis holes and a rectangular flange, rectangular flange is provided with two bolts hole;
Described cross sliding driving device is by the second square tube shape fixed arm, the double rod hydraulic jacks of dual Piston and two second party
Tubular telescopic arm forms, and dual Piston is double, and rod cylinder body of hydraulic oil cylinder is provided with square flange, piston rod free end is provided with flange
Disk;
Two the second square tube shape telescopic arms are sheathed thereon from the double rod hydraulic jack two ends of dual Piston respectively, make two the
Double two piston rod ring flanges of rod hydraulic jack are connected two square tube shape telescopic arm blind ends with dual Piston respectively, the second square tube
Shape fixed arm is sheathed on two the second square tube shape telescopic arms, makes the double rod hydraulic jack square flange of dual Piston symmetrically solid
It is connected on the second square tube shape fixed arm endoporus upper surface, the 3rd laser displacement sensor is symmetrically fixed on the second square tube shape fixed arm
Above, the 3rd range finding reference plate is fixed on above the second square tube shape telescopic arm, forms cross sliding driving device, by cross sliding driving device
Symmetrically it is fixed in three longeron grooves of entablature;
Insert connecting plate flange in the second square tube shape fixed arm long slot bore, make two bolts hole of connection plate flange and the second square tube
Two screwed holes of shape telescopic arm are coaxial, and two bolts screw in pretension, and two rollers are coaxially worn with two axis holes of connecting plate respectively
Enter bearing pin;Again by two shaft hole sleeves of another connecting plate on two bearing pins, two connecting plate ring flanges are fixed with one, and make this
Connect plate flange to insert in the second square tube shape fixed arm long slot bore, so that two bolts hole of this connection plate flange is stretched with the second square tube shape
Two screwed holes of contracting arm are coaxial, and in addition two bolts screw in pretension, form coupling assembly, repeat aforementioned assembly operation, and composition is another
One coupling assembly, four grab mechanisms arm ring flanges are respectively fixedly connected with below four cantilever beams, the composition clear stone device of grab bucket;
Described ballast collection arranging device is by cmos imageing sensor, casing, two stone removing doors, two collection crossdrifts, two calculus
Door drive, two collection crossdrift driving means, crossbeam, several second elastic connecting component, the second dither motors and two
Individual end cap composition, crossbeam is provided with several bolts hole, and end cap is provided with sand discharge Tu Zui;
Described casing be provided with base plate, flechette-type bottom, two the first Ji Shicang, the second Ji Shicang, two square tube shape holes, two gradually
Become isosceles trapezoid skewed slot, four first convex stupefied and two second convex stupefied, base plate is provided with several bolts hole, and flechette-type bottom is provided with number
Individual sieve aperture, the first Ji Shicang is provided with symmetrical two calculus mouth and two Ji Shikou, and the second Ji Shicang is provided with symmetrical two row
Shi Kou and two Ji Shikou, the first convex stupefied top and bottom are provided with symmetrical two ears ring, and the second convex stupefied top and bottom are provided with symmetrical
Two ears rings, stone removing door is provided with two the first monaural rings and four the second monaural rings, collection crossdrift be provided with two the first monaural rings,
Four the second monaural rings and six spill plates;
Described calculus door drive drives oil cylinder, the first push-pull bar and the second push-pull bar to form by stone removing door, and first pushes away
Pull bar is provided with the first ears ring and the second ears ring, and the second push-pull bar is provided with the first ears ring and the second ears ring;
Described collection crossdrift driving means drive oil cylinder, the 3rd push-pull bar and the 4th push-pull bar to form by collection crossdrift, and the 3rd pushes away
Pull bar is provided with the first ears ring and the second ears ring, and the 4th push-pull bar is provided with the first ears ring and the second ears ring;
The second described elastic connecting component and the first Flexible Connector composition and version the same;
Stone removing door drives cylinder piston rod monaural ring, first push-pull bar the first ears ring, second push-pull bar the first ears ring coaxial
Penetrate pin hinge to connect, form calculus door drive, collection crossdrift cylinder piston rod monaural ring, the 3rd push-pull bar the first ears
Ring, the 4th push-pull bar the first ears ring coaxially penetrate pin hinge and connect, composition collection crossdrift driving means;
Four the second monaural rings of stone removing door respectively with the ears ring of two the first convex stupefied lower surfaces, second convex stupefied following two
Ears ring coaxially penetrate pin hinge connect, collection crossdrift four the second monaural rings respectively with two the first convex stupefied ears above
Ring, two ears rings of the second convex stupefied upper surface coaxially penetrate pin hinge and connect;
Stone removing door two is driven oil cylinders to be respectively fixedly connected with the medial wall in two square tube shape holes, two the first push-pull bars second pair
Earrings is co-axially inserted pin hinge with two the first monaural rings of stone removing door respectively and is connected, and two second push-pull bar the second ears rings divide
Be not co-axially inserted pin hinge with two the first monaural rings of another stone removing door to be connected, by two collect crossdrift oil cylinder be respectively fixedly connected with
On the lateral wall in two square tube shape holes, two the 3rd push-pull bar the second ears rings are coaxial with collection two the first monaural rings of crossdrift respectively
Insertion pin hinge connects, and two the 4th push-pull bar the second ears rings are coaxial with two the first monaural rings of another stone removing door respectively
Insertion pin hinge connects, and two end caps are respectively fixedly connected with casing;
Bolt is passed through sill bolt hole, helical spring is sheathed on bolt, then passes through box bottom bolt hole, then will
Another helical spring is sheathed on bolt, and pad is sheathed on bolt, hex nut pretension, and casing and crossbeam realize elasticity even
Connect;Second dither motor is symmetrically connected on box bottom, and crossbeam is symmetrically fixed on two longerons of railcar, and cmos schemes
As sensor is fixed on below crossbeam, form ballast collection arranging device;
Described pillow end clear stone device is by the second entablature assembly, the second retractable driving device, the 4th lowering or hoisting gear, second grabs
Bucket device and u shape bar composition;
The second described entablature assembly and the first entablature assembly composition and version the same, carry out and the first entablature group
Part identical assembly operation, forms the second entablature assembly;
The second described retractable driving device forms with the first retractable driving device and version is the same, carries out flexible with first
Driving means identical assembly operation, forms the second retractable driving device;
The 4th described lowering or hoisting gear and the first lowering or hoisting gear composition and version the same, carry out identical with the first lowering or hoisting gear
Assembly operation, form the 4th lowering or hoisting gear;
The second described grab mechanisms and the first grab mechanisms composition and version the same, carry out identical with the first grab mechanisms
Assembling, form the second grab mechanisms;
Arm ring flange is connected with u shape bar, then u shape bar is fixed on the first square tube shape telescopic arm, composition pillow end clear stone dress
Put;
Described sprocket calculus device is by the 3rd entablature assembly, the 3rd retractable driving device the 5th lowering or hoisting gear and chain tooth row
Stone assembly forms;
The 3rd described entablature assembly is by third party's tubular fixed arm, two third party's tubular telescopic arms, the 4th laser positions
Displacement sensor and the 4th range finding reference plate composition, third party's tubular fixed arm is provided with four ears rings, third party's tubular telescopic arm
It is provided with blind end;
The 3rd described retractable driving device is by third party's tubular fixed arm, the double rod hydraulic jack of dual Piston and two the
Three square tube shape telescopic arm compositions, the cylinder body of the double rod hydraulic jack of dual Piston is provided with square flange, piston rod free end sets
There is ring flange;
Two third party's tubular telescopic arms are sheathed thereon from the double rod hydraulic jack two ends of dual Piston respectively, make third party
Double rod hydraulic cylinder piston rod ring flanges are connected tubular telescopic arm blind end with dual Piston, and third party's tubular fixed arm is sheathed
On two third party's tubular telescopic arms, the double rod hydraulic jack square flange of dual Piston is made symmetrically to be fixed on third party's cylinder
On shape fixed arm endoporus upper surface, form the 3rd retractable driving device, the 4th laser displacement sensor is symmetrically fixed on third party
Above shape fixed arm, the 4th range finding reference plate is fixed on above third party's tubular telescopic arm;
As the composition of the 5th lowering or hoisting gear and the first lowering or hoisting gear, except aforesaid third party's tubular fixed arm and the first lifting dress
Put entablature version different, remaining all component structural form is the same;
Carry out and the first lowering or hoisting gear identical assembly operation, four the 3rd forks and the second square tube shape fixed arm hinge are connected
Connect, first laser displacement transducer is fixed on below third party's tubular fixed arm, form the 5th lowering or hoisting gear;
Described sprocket calculus assembly is by double output shaft hydraulic motor, two yielding couplings, two sprocket calculus parts, u
Shape bar, eight c shape bars and suspension bracket composition, u shape bar is provided with two circular flange disks and square flange, and c shape bar is provided with the first method
Blue disk and second flange disk, suspension bracket is provided with two first flange disks and eight second flange disks;
Described sprocket calculus part is by square beam, sprocket wheel, sprocket wheel wheel shaft, inducer, inducer wheel shaft, four load-bearing
Wheel, four BOGEY WHEEL wheel shafts, several chain tooth assembly sum bearing pins form, square beam be provided with the first ears ring, second pair
Earrings and four the 3rd ears rings;
By square beam the first ears ring and sprocket coaxiality, penetrate sprocket wheel wheel shaft chain connection, square beam the second ears ring with
Inducer is coaxial, penetrates inducer wheel shaft chain connection, square beam the 3rd ears ring is coaxial with BOGEY WHEEL, penetrates BOGEY WHEEL wheel
Pivot hinge connects, and so that square beam, sprocket wheel, inducer and four BOGEY WHEELs is assembled into one;
Described chain tooth assembly is made up of sleeve and chain link;
Described chain link is made up of two bolts, two nuts, chain tooth plate, the first carrier bar and the second carrier bar, and chain tooth plate is provided with
Two bolts hole and several equal strength sprocket, the first carrier bar is provided with the first monaural ring, the second monaural ring and the 3rd monaural ring, and second
Carrier bar is provided with the first monaural ring, the second monaural ring and the 3rd monaural ring;
Will be coaxial to sprocket crab bolt hole and first carrier bar the second monaural ring, penetrate bolt, nut pretension, another bolt of chain tooth plate
Hole and second carrier bar the second monaural ring are coaxial, penetrate bolt, nut pretension, form chain link, by the first carrier bar of the first chain link the
One monaural ring, second chain link the first carrier bar the 3rd monaural ring, sleeve, second chain link the second carrier bar the 3rd monaural ring and the first chain link
Second carrier bar the first monaural ring coaxially penetrates pin hinge and connects, and repeats aforementioned operation, until by hinged for several chain links one, will
The square beam, sprocket wheel, inducer and four BOGEY WHEELs that are assembled into one are placed on it, will be single for the first carrier bar first of last chain link
Earrings, first chain link the first carrier bar the 3rd monaural ring, sleeve, first chain link the second carrier bar the 3rd monaural ring and last chain link second
Carrier bar the first monaural ring coaxially penetrates pin hinge and connects, and makes all chain tooth assembly chain connection annular integrative-structures, organizes chaining
Tooth row Plumbum preparatium part,
Double output shaft hydraulic motor double output shaft, two yielding couplings and two sprocket wheel wheel shafts are connected, u shape bar square flange
Disk is fixed on the 3rd double output shaft hydraulic motor, and eight c shape bar second flange disks are respectively symmetrically and are fixed on two square beams
On, eight second flange disks of suspension bracket are connected with eight c shape bar first flange disks respectively, two circular flange disks of u shape bar and suspension bracket
Two first flange disks are respectively fixedly connected with third party's tubular telescopic arm, form sprocket calculus device;
Described sleeper four nut synchronization assembling and disassembling device is by entablature, the 6th lowering or hoisting gear and two nut assembling and disassembling device groups
Become, entablature is provided with four ears rings;
The 6th described lowering or hoisting gear and the first lowering or hoisting gear composition, the 6th lowering or hoisting gear the first series connection parallelogram lindage
Sill be provided with five ears rings and symmetrical two long slot bores, the first fork is provided with ladder slotted eye, except aforesaid 6th liter
The entablature version of falling unit entablature and the first lowering or hoisting gear is different, the 6th lowering or hoisting gear sill and first lifts
The Lower Crossbeam Structure form of device is different, the first swing rod structure shape of the 6th lowering or hoisting gear the first fork and the first lowering or hoisting gear
Formula is different, and remaining all component structural form is the same;
Carry out and the first lowering or hoisting gear identical assembly operation, four the 3rd forks and entablature chain connection swash first
Optical displacement sensor is fixed on below entablature, forms the 6th lowering or hoisting gear;
Described nut assembling and disassembling device be by two suspension rods, the first spiral rotary actuator, Shang Gai, circular connecting plate, first
Hex nut, internal gear, two power transmission shafts, two gears, housing, two the first thrust bearings, two the second thrust bearings, two
Individual second hex nut, two yielding couplings and two interior wide-mouth magnetic coupling box compositions, the first spiral swings hydraulic pressure horse
Reach be provided with ring flange, its output shaft is provided with circular shaft section and six prism shaft parts, is above covered with axis hole, circular connecting plate is provided with six prisms
Hole, power transmission shaft is provided with the first axle journal, the second axle journal, the 3rd axle journal, the 4th axle journal and thread segment, and housing is provided with ring flange and two
Axis hole, interior wide-mouth magnetic coupling box is provided with axle journal;
Upper lid is sheathed on the first spiral rotary actuator output shaft circular shaft section, makes lid and the first spiral rotary actuator
Ring flange is connected, more circular connecting plate is sheathed on the first spiral rotary actuator output shaft six prism shaft part, the first hexagonal
Nut pretension, internal gear is coaxially connected with circular connecting plate, and geared sleeve is connected located at power transmission shaft first axle journal, the first thrust bearing
It is sheathed on power transmission shaft second axle journal, power transmission shaft makes the first thrust bearing contact with housing through housing axis hole, the second thrust axis
On power transmission shaft the 3rd axle journal, the second hex nut screws on power transmission shaft thread segment pretension to bearing sleeve, and yielding coupling makes power transmission shaft
4th axle journal is coaxially connected with interior wide-mouth magnetic coupling box axle journal, and internal gear is inserted in housing, the gear teeth flank of tooth of two gears
Gear teeth face with internal gear respectively, upper lid is connected with shell flange disk, and one end of two suspension rods is symmetrically fixed on housing
Both sides, form nut assembling and disassembling device, and the other end of two suspension rods is symmetrically fixed on two sides of entablature, and sill is fixed on rail
On two side rail inner faces of road car, composition sleeper four nut synchronization assembling and disassembling device;
The first described rail-lifting equipment by entablature, the 7th lowering or hoisting gear and carries rail assembly and forms, entablature be provided with four double
Earrings;
As the 7th described lowering or hoisting gear is formed with the first lowering or hoisting gear, except aforesaid 7th lowering or hoisting gear entablature and first
Lowering or hoisting gear entablature version is different, and remaining all component structural form is the same;
Carry out and the first lowering or hoisting gear identical assembly operation, four the 3rd forks and entablature chain connection swash first
Optical displacement sensor is fixed on below entablature, forms the 7th lowering or hoisting gear;
Described carry rail assembly be by two suspension rods, suspension bracket, the second spiral rotary actuator, opposite crank, two connecting rods, two
Individual I-shaped tubular travelling arm, I-shaped tubular fixed arm and two first carry rail hydraulic jack composition, and suspension rod is provided with first flange disk
With second flange disk, the second spiral rotary actuator output shaft free end is provided with ring flange, and opposite crank is provided with two monaurals
Ring, connecting rod is provided with monaural ring and ears ring, and I-shaped tubular travelling arm is provided with semicylindrical opening and ears ring, and I-shaped tubular fixed arm sets
There are two symmetrical semicylindrical openings, first carries that rail cylinder body of hydraulic oil cylinder is provided with gusset, piston rod free end is provided with fagging;
First is carried rail hydraulic jack be fixed in I-shaped tubular travelling arm semicylindrical opening, opposite crank and the second spiral swing liquid
Pressure motor output shaft ring flange is coaxially connected, and the second spiral rotary actuator is symmetrically fixed on suspension bracket lower surface, and suspension bracket is symmetrical
Be fixed on I-shaped tubular fixed arm upper surface, by I-shaped tubular travelling arm from I-shaped tubular fixed arm two ends sheathed thereon, work
Word tubular travelling arm ears ring coaxially penetrates pin hinge with connecting rod monaural ring and is connected, connecting rod ears ring and opposite crank monaural ring
Coaxially penetrate pin hinge to connect, make two first to carry rail hydraulic jack and be symmetrical arranged, two suspension rod second flange disks are symmetrically solid
It is connected in above suspension bracket, composition carries rail assembly, two suspension rod first flange disks are symmetrically fixed on entablature side, composition carries rail dress
Put;
Described swivel block and push-and-pull sleeper device be by first crossbeam telescopic component, first crossbeam retractable driving device, first turn
Dynamic device, two connecting plates and crawl and swivel block device composition;
Described first crossbeam telescopic component is by the 4th square tube shape fixed arm, the 4th square tube shape telescopic arm, the 5th laser displacement
Sensor forms, and the 4th square tube shape fixed arm is provided with blind end, and the 4th square tube shape telescopic arm is provided with dividing plate;
As described first crossbeam retractable driving device is formed with the first retractable driving device, except aforementioned 4th square tube shape is fixed
Arm and the first square tube shape fixed arm version is different, the 4th square tube shape telescopic arm and the first square tube shape telescopic arm structure form
Different, remaining all component structural form is the same;
Carry out and the first retractable driving device identical assembly operation, form first crossbeam retractable driving device, the 5th laser position
Displacement sensor is symmetrically fixed on above the 4th square tube shape fixed arm;
The first described tumbler is by the 4th square tube shape telescopic arm, the 3rd spiral rotary actuator, the hollow ladder of cantilever
Axle, the first thrust bearing, the first casing, the second thrust bearing, the first hex nut, circular connecting plate, the second hex nut, end
Lid and equi intensity cantilever composition, the 3rd spiral rotary actuator output shaft is provided with thread segment and six prism shaft parts, and cantilever is empty
Heart multidiameter is provided with thread segment, the first axle journal, the second axle journal, the 3rd axle journal and connecting plate, and connecting plate is provided with spacing arc groove, the
One casing is provided with spacer pin and cantilever ladder axle sleeve, and cantilever multidiameter is arranged with the first axle sleeve, the second axle sleeve and the 3rd axle sleeve, end
It is covered with bearing pin, circular connecting plate is provided with six prism axis holes, equi intensity cantilever is provided with pin shaft hole and ring flange;
3rd spiral rotary actuator is fixed on the 4th square tube shape telescopic arm plate front end base plate, hollow cantilever multidiameter
It is sheathed on the 3rd spiral rotary actuator, make cantilever hollow multidiameter connecting plate be fixed on the 4th square tube shape telescopic arm end
Face, the first thrust bearing is sheathed on the hollow multidiameter of cantilever the 3rd axle journal, and the first casing cantilever ladder axle sleeve is sheathed on hollow
On cantilever multidiameter, the first thrust bearing is made to insert the first casing cantilever ladder axle sleeve the 3rd axle sleeve section, cantilever ladder axle sleeve
Two axle sleeve sections are sheathed on hollow multidiameter second axle journal, and the second thrust bearing is sheathed on cantilever hollow multidiameter the first axle journal
On, insert cantilever ladder axle sleeve first axle set section, the first hex nut screws in cantilever hollow multidiameter thread segment pretension, makes first
Casing and cantilever hollow multidiameter chain connection, circular connecting plate is sheathed on the 3rd spiral rotary actuator output shaft six prism
Shaft part, makes circular connecting plate be fixed on casing cantilever ladder axle sleeve free end, the second hex nut screws in the 3rd spiral and swings liquid
Pressure motor output shaft thread segment pretension, makes the 3rd spiral rotary actuator output shaft and the first casing be connected, end cap is fixed on
On first casing, equi intensity cantilever pin-and-hole is sheathed on end cap bearing pin, and equi intensity cantilever ring flange is fixed on the 4th square tube
Above shape telescopic arm, form the first tumbler;
Described crawl and swivel block device are by the second casing, the 3rd spiral rotary actuator, hydraulic jack, the first thrust axis
Hold, the second thrust bearing, the 3rd hex nut, piston, piston rod, ladder u shape support, first connecting rod, second connecting rod, two
Two forks, two rollers, end cap and two mechanical gripper device compositions, the second casing is provided with symmetrical four screwed hole, the first circle
Hole section, fan-shaped hole section, the second circular hole portion, axle sleeve section and the 3rd circular hole portion, the 3rd spiral rotary actuator output shaft fixed connection method
Blue disk, ring flange is provided with spacing sector boss, and fan-shaped hole section is provided with the first confined planes and the second confined planes, and hydraulic jack is provided with method
Blue disk, the first axle journal, the second axle journal and the 3rd axle journal, ring flange is provided with spacing sector boss, and piston is provided with axis hole, and piston rod sets
There are axle journal and ears ring, ladder u shape support is provided with flange, axis hole, two slotted eyes, two pin-and-holes, four the first monaural rings and eight
Individual second monaural ring, first connecting rod is provided with ears ring and monaural ring, and second connecting rod is provided with two ears rings, and the second fork is provided with list
Earrings, pin-and-hole and ears ring;
Described gripper is made up of ladder u shape support, four the 3rd forks, two helical springs and pressing plate, the 3rd pendulum
Bar is provided with two ears rings, and pressing plate is provided with two the first monaural rings and four the second monaural rings;
Will be convex for spacing for the 3rd spiral rotary actuator output shaft ring flange sector boss sector spacing with hydraulic jack ring flange
Platform aligns connected, and the first thrust bearing is sheathed on hydraulic jack first axle journal, and hydraulic jack is penetrated the second casing shoulder hole
Interior, make the 3rd spiral rotary actuator output shaft ring flange and hydraulic jack ring flange insert second casing the first circular hole portion,
The 3rd spiral rotary actuator output shaft ring flange spacing sector boss and hydraulic jack ring flange spacing sector boss is made to put
Enter in fan-shaped hole section, so that two spacing sector boss left surfaces is contacted with fan-shaped hole section first confined planes, make the first thrust bearing
Insert second casing the second circular hole portion, so that the 3rd spiral rotary actuator is fixed on the second box bottom, make end cap and
Two casings are connected;
Second thrust bearing is sheathed on hydraulic jack the 3rd axle journal so as to insert the second casing the 3rd circular hole portion section, piston
Bar passes through ladder u shape rack shaft hole, and piston shaft hole sleeve, located at piston rod axle journal, the 3rd hex nut pretension, piston is inserted liquid
In compressing cylinder cylinder barrel, ladder u shape bracket flange is penetrated hydraulic jack cylinder barrel and is connected, make oil cylinder second axle journal and the first casing axle
Set section chain connection, piston rod ears ring, second connecting rod ears ring and first connecting rod monaural ring are coaxially penetrated pin hinge even
Connect, the second fork ears ring coaxially penetrates pin hinge with roller and is connected, the second fork pin-and-hole is coaxial with ladder u shape support pin-and-hole
Penetrate pin hinge to connect, first connecting rod ears ring and second connecting rod ears ring are coaxially worn with two the first fork monaural rings respectively
Enter pin hinge to connect;
The ears ring of four the second forks coaxially penetrates pin hinge with four the second monaural rings of ladder u shape support respectively and is connected,
Another ears ring of four the second forks coaxially penetrates pin hinge with four the second monaural rings of pressing plate respectively and is connected, two circles
Cylindrical spring one end is connected with two, ladder u shape support first monaural rings respectively, two helical spring other ends respectively with pressure
Two the first monaural rings of plate are connected, and form gripper, the pulling force of two helical springs, so that the roller being articulated with the first fork is begun
Contact with pressing plate eventually, repeat aforementioned assembly operation, assemble another gripper, composition crawl and swivel block device;
First casing is fixed with one by two connecting plates with the second casing, forms swivel block and push-and-pull sleeper device;
Described sleeper handling apparatus are by the second rail-lifting equipment, reciprocating motion storage sleeper device and rigid hanger hoisting apparatus group
Become;
The second described rail-lifting equipment is by second cross beam telescopic component, second cross beam retractable driving device, two the second rotations
Device, four connecting plates, two box connectors and two second carry rail hydraulic jack composition, and box connector is arranged with half
Cylindrical hole, second carries that rail cylinder body of hydraulic oil cylinder is provided with gusset, piston rod free end is provided with fagging;
Described second cross beam telescopic component is by the 5th square tube shape fixed arm, two the 5th square tube shape telescopic arms, the 6th laser
Displacement transducer and the 6th range finding reference plate composition, the 5th square tube shape telescopic arm is provided with dividing plate;
Described second cross beam retractable driving device is the same with the composition of the 3rd retractable driving device, except aforesaid 5th square tube shape
Fixed arm and third party's tubular fixed arm version is different, the 5th square tube shape telescopic arm and third party's tubular telescopic arm structure
Form is different, and remaining all component structural form is the same;
Carry out and the 3rd retractable driving device identical assembly operation, form second cross beam retractable driving device, the 6th laser position
Displacement sensor is symmetrically fixed on the 5th square tube shape fixed arm side, and the 6th range finding reference plate is fixed on the 5th square tube shape telescopic arm side
Face;
Second tumbler form with the first tumbler and version as, carry out and first tumbler identical assembling
Operation, forms the second tumbler;
First casing is fixed with one by two connecting plates with box connector, by two second carry rail hydraulic jack be respectively fixedly connected with
In two box connecting rod semicylindrical openings, form the second rail-lifting equipment, the 5th square tube shape fixed arm is symmetrically fixed on railcar
On two longerons;
Described reciprocating motion storage sleeper device is made up of reciprocator and storage sleeper case, and storage sleeper case is provided with
Two rollers and several sleeper storehouse, wherein left side half sleeper storehouse is used for having stored sleeper, and right side half sleeper storehouse is used for storing
Bad sleeper.
Described reciprocator is to be swashed by base plate, two series connection parallelogram lindages, reciprocating movement driving devices and the 7th
Optical displacement sensor forms;
Described series connection parallelogram lindage is by fixed cross beam, two the first forks, connecting rod, two the second forks and to move crossbeam
Composition, connecting rod is provided with two monaural rings, and moving beam is provided with two rollers and a circular hole;
Described reciprocating movement driving device is by hydraulic motor, yielding coupling, monaural ring bearing, screw rod and square nut group
Become, screw rod is provided with the first axle journal and the second axle journal;
By two the first forks respectively with fixed cross beam chain connection, the first fork ears ring, the second fork ears ring and connecting rod
Monaural ring coaxially penetrates pin hinge and connects, and another the first fork ears ring, another the second fork ears ring and connecting rod are another
One monaural ring coaxially penetrates pin hinge and connects, two the second forks respectively with moving beam chain connection, composition series connection is flat
Row four-bar mechanism, repeats aforementioned assembly operation, and the vertical plane of symmetry being symmetrical in fixed cross beam and moving beam assembles another and puts down
Row four-bar mechanism, base plate is fixed on fixed cross beam lower surface, so that two rollers of moving beam is contacted with plate upper surface, hydraulic pressure
Motor is symmetrically fixed on fixed cross beam side, and monaural ring bearing is sheathed on screw rod second axle journal, and square nut screws on screw rod and fits
Work as position, screw rod passes through the circular hole of moving beam, makes square nut be fixed on moving beam side, yielding coupling makes hydraulic pressure horse
Reach output shaft to be connected with screw rod first axle journal, monaural ring bearing is fixed on base plate, forms reciprocating movement driving device;
Base plate is fixed on fixed cross beam lower surface, make the four rolling of two rollers of moving beam and motorcycle respectively with base plate
Upper surface, the 7th laser displacement sensor is symmetrically fixed on motion crossbeam side, forms reciprocator;
Base plate is fixed in track car crossbeam and the 5th square tube shape fixed arm, storage sleeper case is fixed on moving beam, makes
Two rollers of storage sleeper case are contacted with substrate, and composition moves back and forth storage sleeper device;
Described rigid hanger hoisting apparatus be by two telescopic cantilever boom devices, telescoping crossbeam device, rigid hanger, two grab
Put sleeper device and the 8th laser displacement sensor composition;
Described telescopic cantilever boom device is by the first ladder square tube shape fixed arm, the first ladder square tube shape telescopic arm, square tube shape
Telescopic arm, the first multi-stage expansion shell type oil cylinder, cantilever beam, end plate, cantilever and the 9th laser displacement sensor composition, the first ladder
Square tube shape fixed arm is provided with ring flange and cylinder shoulder, and the first ladder square tube shape telescopic arm is provided with ring flange and cylinder shoulder, and square tube shape is stretched
Arm is provided with ring flange and blind end, the first multi-stage expansion shell type oil cylinder be provided with first flange disk, the first extension sleeve, second stretch
Sleeve and second flange disk, cantilever beam is provided with ring flange;
End plate is symmetrically fixed on the first multi-stage expansion shell type oil cylinder first flange disk, it is multistage that square tube shape telescopic arm is sheathed on first
Flexible shell type oil cylinder, makes the first multi-stage expansion shell type oil cylinder second flange disk symmetrically be fixed on square tube shape telescopic arm blind end, the
One ladder square tube shape telescopic arm is sheathed on square tube shape telescopic arm, and the first ladder square tube shape fixed arm is sheathed on the first ladder square tube
On shape telescopic arm, the first ladder square tube fixed arm ring flange is made to be connected with end plate, cantilever beam ring flange is fixed on square tube shape and stretches
On arm blind end, cantilever is fixed on cantilever beam ring flange, and the 9th laser displacement sensor is fixed on cantilever, and composition is flexible outstanding
Arm boom device;
Described telescoping crossbeam device is by the second ladder square tube shape fixed arm, the second ladder square tube shape telescopic arm, the 3rd ladder
Square tube shape telescopic arm, the second multi-stage expansion shell type oil cylinder, end cap and push pedal composition, the second ladder square tube shape fixed arm is provided with flange
Disk, cylinder shoulder and long slot bore, the second ladder square tube shape telescopic arm is provided with first shoulder, second shoulder and long slot bore, the 3rd ladder side
Tubular telescopic arm is provided with cylinder shoulder and two monaural rings, and the second multi-stage expansion shell type oil cylinder is provided with first flange disk, the first order is stretched
Sleeve, second level extension sleeve and second flange disk;
End cap is symmetrically fixed on the second multi-stage expansion shell type oil cylinder first flange disk, the 3rd ladder square tube shape telescopic arm is sheathed on
On second multi-stage expansion shell type oil cylinder, make the second multi-stage expansion shell type oil cylinder second flange disk and the 3rd ladder square tube shape telescopic arm
Blind end is connected, and the second ladder square tube shape telescopic arm is sheathed on the 3rd ladder square tube shape telescopic arm, then by the second ladder square tube
Shape fixed arm is sheathed on the second ladder square tube shape telescopic arm, so that end cap is connected with ladder square tube shape fixed arm ring flange, push pedal
It is fixed on the 3rd ladder square tube shape telescopic arm blind end, the 8th laser displacement sensor is symmetrically fixed on the second ladder square tube shape
Fixed arm side, forms telescoping crossbeam device;
Described rigid hanger is made up of entablature, two pull bars and sill, and entablature is provided with two ears rings, sill
It is provided with two circular holes;
One end of two pull bars is symmetrically fixed on below entablature, the other end of two pull bars is symmetrically fixed on sill
Face, forms rigid hanger;
Described pick-and-place sleeper device is made up of the 5th spiral rotary actuator, yielding coupling and interior wide-mouth nut, the
Five spiral rotary actuators are provided with ring flange and output shaft, and interior wide-mouth nut is provided with axle journal;
5th spiral rotary actuator is penetrated in sill circular hole, the 5th spiral rotary actuator ring flange is fixed on sill
Above, the 3rd yielding coupling makes the 5th spiral rotary actuator output shaft be connected with interior wide-mouth nut axle journal, forms pick-and-place sleeper
Device;
Two telescopic cantilever boom devices are symmetrically fixed on two longerons of railcar, telescoping crossbeam device the second ladder square tube shape
Fixed arm is fixed on below two cantilever girder cantilevers, two ears rings of entablature respectively with the 3rd ladder square tube shape telescopic arm
Two monaural ring coaxial bolts connect, and form sleeper handling apparatus.
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CN201610768428.XA CN106351082A (en) | 2016-08-30 | 2016-08-30 | Multifunctional railway maintenance automated machine |
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CN201610768428.XA CN106351082A (en) | 2016-08-30 | 2016-08-30 | Multifunctional railway maintenance automated machine |
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Cited By (1)
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CN108849377A (en) * | 2018-05-29 | 2018-11-23 | 昆明学院 | A kind of quick tree mover of power choring |
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CN2549035Y (en) * | 2002-04-30 | 2003-05-07 | 中国铁道建筑总公司昆明机械厂 | Continuous sleeper replacer |
CN2707801Y (en) * | 2004-05-20 | 2005-07-06 | 什邡瑞邦机械有限责任公司 | Hydraulic tamping machine |
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Application publication date: 20170125 |