CN109356619A - A kind of new concrete mould spraying equipment - Google Patents
A kind of new concrete mould spraying equipment Download PDFInfo
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- CN109356619A CN109356619A CN201811420647.4A CN201811420647A CN109356619A CN 109356619 A CN109356619 A CN 109356619A CN 201811420647 A CN201811420647 A CN 201811420647A CN 109356619 A CN109356619 A CN 109356619A
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- 239000004567 concrete Substances 0.000 title claims abstract description 88
- 238000005507 spraying Methods 0.000 title claims abstract description 51
- 230000007246 mechanism Effects 0.000 claims abstract description 395
- 239000007921 spray Substances 0.000 claims abstract description 112
- 231100000241 scar Toxicity 0.000 claims abstract description 12
- 230000000149 penetrating effect Effects 0.000 claims abstract description 3
- 239000003795 chemical substances by application Substances 0.000 claims description 53
- 239000000463 material Substances 0.000 claims description 37
- 238000006073 displacement reaction Methods 0.000 claims description 26
- 238000005086 pumping Methods 0.000 claims description 26
- 230000001105 regulatory effect Effects 0.000 claims description 20
- 239000011230 binding agent Substances 0.000 claims description 6
- 238000000889 atomisation Methods 0.000 claims description 3
- 238000010276 construction Methods 0.000 abstract description 23
- 230000008901 benefit Effects 0.000 abstract description 5
- 208000028571 Occupational disease Diseases 0.000 abstract description 2
- 239000000428 dust Substances 0.000 abstract description 2
- 238000004519 manufacturing process Methods 0.000 abstract description 2
- 238000007493 shaping process Methods 0.000 abstract description 2
- 201000010001 Silicosis Diseases 0.000 abstract 1
- 239000000945 filler Substances 0.000 description 40
- 210000000245 forearm Anatomy 0.000 description 27
- 230000033001 locomotion Effects 0.000 description 26
- 238000010586 diagram Methods 0.000 description 16
- 238000000034 method Methods 0.000 description 12
- 229910000831 Steel Inorganic materials 0.000 description 9
- 230000005540 biological transmission Effects 0.000 description 9
- 210000003464 cuspid Anatomy 0.000 description 9
- 239000010959 steel Substances 0.000 description 9
- 239000003638 chemical reducing agent Substances 0.000 description 7
- 238000002347 injection Methods 0.000 description 7
- 239000007924 injection Substances 0.000 description 7
- 230000008569 process Effects 0.000 description 7
- 238000003860 storage Methods 0.000 description 7
- 238000009412 basement excavation Methods 0.000 description 6
- 230000000694 effects Effects 0.000 description 5
- 239000010410 layer Substances 0.000 description 5
- 239000011378 shotcrete Substances 0.000 description 5
- 238000007711 solidification Methods 0.000 description 4
- 230000008023 solidification Effects 0.000 description 4
- 230000009471 action Effects 0.000 description 3
- 230000015271 coagulation Effects 0.000 description 3
- 238000005345 coagulation Methods 0.000 description 3
- 238000009434 installation Methods 0.000 description 3
- 230000001360 synchronised effect Effects 0.000 description 3
- 230000008602 contraction Effects 0.000 description 2
- 239000011229 interlayer Substances 0.000 description 2
- 238000003032 molecular docking Methods 0.000 description 2
- 239000011435 rock Substances 0.000 description 2
- 239000002689 soil Substances 0.000 description 2
- 239000000243 solution Substances 0.000 description 2
- 238000009825 accumulation Methods 0.000 description 1
- 238000013459 approach Methods 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000015572 biosynthetic process Effects 0.000 description 1
- 238000005266 casting Methods 0.000 description 1
- 239000003153 chemical reaction reagent Substances 0.000 description 1
- 230000001276 controlling effect Effects 0.000 description 1
- 238000012937 correction Methods 0.000 description 1
- 230000002950 deficient Effects 0.000 description 1
- 210000004262 dental pulp cavity Anatomy 0.000 description 1
- 238000013461 design Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000002708 enhancing effect Effects 0.000 description 1
- 230000036541 health Effects 0.000 description 1
- 239000012535 impurity Substances 0.000 description 1
- 230000003447 ipsilateral effect Effects 0.000 description 1
- 230000001788 irregular Effects 0.000 description 1
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- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000000465 moulding Methods 0.000 description 1
- 230000001681 protective effect Effects 0.000 description 1
- 238000004064 recycling Methods 0.000 description 1
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Classifications
-
- E—FIXED CONSTRUCTIONS
- E21—EARTH OR ROCK DRILLING; MINING
- E21D—SHAFTS; TUNNELS; GALLERIES; LARGE UNDERGROUND CHAMBERS
- E21D11/00—Lining tunnels, galleries or other underground cavities, e.g. large underground chambers; Linings therefor; Making such linings in situ, e.g. by assembling
- E21D11/04—Lining with building materials
- E21D11/10—Lining with building materials with concrete cast in situ; Shuttering also lost shutterings, e.g. made of blocks, of metal plates or other equipment adapted therefor
- E21D11/105—Transport or application of concrete specially adapted for the lining of tunnels or galleries ; Backfilling the space between main building element and the surrounding rock, e.g. with concrete
-
- E—FIXED CONSTRUCTIONS
- E21—EARTH OR ROCK DRILLING; MINING
- E21D—SHAFTS; TUNNELS; GALLERIES; LARGE UNDERGROUND CHAMBERS
- E21D11/00—Lining tunnels, galleries or other underground cavities, e.g. large underground chambers; Linings therefor; Making such linings in situ, e.g. by assembling
- E21D11/04—Lining with building materials
- E21D11/10—Lining with building materials with concrete cast in situ; Shuttering also lost shutterings, e.g. made of blocks, of metal plates or other equipment adapted therefor
- E21D11/102—Removable shuttering; Bearing or supporting devices therefor
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- Engineering & Computer Science (AREA)
- Structural Engineering (AREA)
- Architecture (AREA)
- Mining & Mineral Resources (AREA)
- Civil Engineering (AREA)
- Life Sciences & Earth Sciences (AREA)
- General Life Sciences & Earth Sciences (AREA)
- Geochemistry & Mineralogy (AREA)
- Geology (AREA)
- Spray Control Apparatus (AREA)
- Lining And Supports For Tunnels (AREA)
Abstract
The invention discloses a kind of new concrete mould spraying equipments, including carrier body, big arm mechanism, template mechanism and nozzle component, big arm mechanism is set in carrier body, big arm mechanism includes revolution large arm, and template mechanism and nozzle component are set in the front end of revolution large arm, the template mechanism can form die cavity with scar is excavated, and the nozzle component can adjust penetrating angle/direction relative to die cavity.By using the mould spray booth vehicle, it is able to achieve zero rebound, within the scope of identical operation, concrete amount can reduce 20%-40%, while reduce the dosage of accelerator, and economic benefit and social benefit are significant;Concrete finish is high, does not need later period shaping, shortens construction period, production efficiency greatly improved;Can whole remote control operation machinery construction, working security is greatly improved, operator's dust soakage can be effectively reduced, reduces the probability of the occupational diseases such as silicosis.
Description
Technical field
It is the invention belongs to technical field of engineering machinery, in particular to a kind of for cooperating Tunnel and brand-new design
Concrete mould spraying equipment.
Background technique
In Tunnel construction, using the form of construction work of gunite concrete direct in excavation face, wherein spraying
Concrete mode is divided into mechanical arm injection and two kinds of hand spray again.Directly there are following for the form of construction work of gunite concrete at present
Several disadvantages:
Rebound degree is high, now there is the rebound of 20%-40% in the construction process, and rebound material can not be recycled,
Great waste is caused, is the main reason for causing construction cost higher.
Accelerator dosage is big, and the form of construction work of direct gunite concrete requires concrete in the very short time of contact excavation face
With regard to needing to bond together with excavation face, and do not fallen after also guaranteeing bonding.Common concrete is then unable to satisfy construction and wants
It asks, at this moment just needs in plain concrete addition accelerator to reach the requirement solidified in the concrete short time, and accelerator dosage
It is larger, equally increase the cost of construction.
Forming surface finish is poor, surface irregularity after the form of construction work construction molding of direct gunite concrete, bright and clean
Spend it is very poor, lower process construction before also need to its surface carry out Shape correction to reach construction requirement, undoubtedly increase in this way
Working procedure extends construction period, increases construction cost.
Working security is poor, and in hand spray, operator can construct below non-branch mask, exists by falling rocks
The risk hit with concrete is fallen, and traditional whitewashing dust is big, it is big to the harm of body.
In addition accelerator is chemical reagent, and in hand spray, operator is closer from spray head, long-time operation meeting pair
The health of operator further results in harm.
For above-mentioned status, applicant's creativeness proposes the thinking of concrete mould spraying, has invented the complete of mould spray
Equipment, by matching template mechanism with palisades are excavated, so that die cavity is formed between template mechanism and excavation palisades, with effective
Reduction concrete springback capacity.
But in mould spray operating process, used template mechanism and traditional fixed form are very different, and need
Dynamic adjustment is constantly carried out, and also constantly to carry out nozzle component relative to template mechanism, and relative between die cavity
Position adjustment, the requirement to control action is sufficiently complex, and has to precisely, this just proposes the overall performance of mould spraying machine structure
Very high requirement.And it how to be designed for the mould spraying equipment of tunnel support layer, to realize mould spray operation, there is no ready-made dresses
Standby, equipment can be difficult to meet above-mentioned requirement for reference, in the prior art.
Summary of the invention
It is an object of the invention to: the prior art is defective for above-mentioned, provides a kind of novel concrete mould spraying
Equipment has the various control mechanism to template mechanism and nozzle component, diversified combined operation may be implemented, make tunnel branch
The spray of sheath mould is achieved.
The technical scheme of the present invention is realized as follows:
A kind of new concrete mould spraying equipment, including carrier body, big arm mechanism, template mechanism and nozzle component, carrier
Big arm mechanism is set in mechanism, big arm mechanism includes revolution large arm, and sets template mechanism and nozzle component in the front end of revolution large arm,
The template mechanism can form die cavity with scar is excavated, and the nozzle component is set to above template mechanism, and it is opposite to adjust it
Angle/direction is sprayed into the concrete of die cavity.
New concrete mould spraying equipment of the present invention is also connected with spraying system, the spray on the nozzle component
The system of penetrating includes concrete pumping mechanism, accelerator pumping mechanism, compressed air supply arrangement and material agent mixer, the coagulation
Native pumping mechanism, accelerator pumping mechanism and compressed air supply arrangement pass through piping connection to material agent mixer respectively, expect agent
Mixer is connected to nozzle component;Material agent mixer mixes concrete with accelerator, and compressed air is blended with accelerator
Concrete is sprayed by nozzle component to die cavity.
New concrete mould spraying equipment of the present invention, the accelerator pumping mechanism connects flow mixing device, by accelerator
It is sent into flow mixing device;The compressed air supply arrangement connects flow mixing device, and compressed air is sent into flow mixing device and is mixed with accelerator
Merge atomization;The atomization accelerator for being mixed with compressed air is sent into material agent mixer by the flow mixing device binder agent mixer
It is mixed with concrete.
New concrete mould spraying equipment of the present invention, the template mechanism include template, template rotation regulating mechanism
And/or template pitching adjusting mechanism, the surface of the template are set as arcwall face, the template is set to template rotation regulating mechanism
And/or on template pitching adjusting mechanism;Wherein rotation regulating mechanism is adjustable the rotational angle of template, template pitching adjusting mechanism
It is adjustable the pitch angle of template.
New concrete mould spraying equipment of the present invention, the template is assembling mechanism, by two pieces or more of single mode
Plate is formed by connecting to upper foldable/fold laterally and/or vertically;The monoblock type template formed after the template group expansion, energy
At least one die cavity is cooperatively formed with scar;Opening and closing control mechanism is equipped between the adjacent single mode plate.
New concrete mould spraying equipment of the present invention, the nozzle component is connected with spray head micro-adjusting mechanism, described micro-
Regulating mechanism includes pitch angle control mechanism and rotary angle control mechanism, and pitch angle control mechanism adjusts bowing for nozzle component
Elevation angle degree/direction;Rotary angle control mechanism controls nozzle component rotational angle/direction;Pitch angle control mechanism and rotation
Angle control mechanism is connected with each other and cooperates, and the angle/direction for entering nozzle component by concrete ejection in die cavity is not orthogonal to
Scar.
New concrete mould spraying equipment of the present invention, the rotary angle control mechanism is equipped with rotary oil cylinder, described
The shaft of rotary oil cylinder is equipped with spray head supporting plate, and the nozzle component is hinged on spray head supporting plate, and the pitch angle controls machine
Structure is set as pitching oil cylinder, and the cylinder body of pitching oil cylinder is articulated on spray head supporting plate, and piston rod is hinged on nozzle component.
New concrete mould spraying equipment of the present invention, the spray head micro-adjusting mechanism are connected with spray head displacement mechanism, institute
Stating spray head displacement mechanism includes transverse-moving mechanism and vertical shift mechanism, and the vertical shift mechanism adjusts spray head by control spray head micro-adjusting mechanism
The displacement of component in a longitudinal direction;The transverse-moving mechanism adjusts nozzle component in lateral side by control spray head micro-adjusting mechanism
Upward displacement;The vertical shift mechanism and transverse-moving mechanism are connected with each other, and cooperate with control nozzle component be moved to it is same
Any displacement point in plane.
New concrete mould spraying equipment of the present invention, the big arm mechanism further include large arm turntable, and the large arm turns
Platform includes vertical rotary components and rotates horizontally component, the vertical rotary components connection revolution large arm, and controls revolution large arm
It is relatively rotated on vertical plane;It rotates horizontally component to be set in carrier body, and controls big arm mechanism random angle in the horizontal plane
Degree rotation.
New concrete mould spraying equipment of the present invention, the carrier body are set as trolley, wherein edge on trolley vehicle frame
It is longitudinally provided with slipping mechanism, the big arm mechanism is set on slipping mechanism, and the slipping mechanism can control big arm mechanism along load
The longitudinal direction of body mechanism is mobile.
New concrete mould spraying equipment of the present invention, the slipping mechanism include rail mechanism and be set to rail mechanism
On mobile seat mechanism, the large arm turntable is set on mobile seat mechanism, and can be with mobile seat mechanism along the longitudinal direction of rail mechanism
Direction is mobile.
The front end of new concrete mould spraying equipment of the present invention, the revolution large arm is equipped with rotating mechanism, the rotation
Rotation mechanism is equipped with preceding arm mechanism, connects the template mechanism and nozzle component on the preceding arm mechanism, preceding arm mechanism energy band
Template mechanism and nozzle component are planar rotated using rotating mechanism as fulcrum.
Compared with prior art, it the beneficial effects of the present invention are: by provided new concrete mould spraying equipment, realizes
The mould of tunnel support layer sprays operation, compared to traditional wet shot manipulator, is able to achieve zero rebound, within the scope of identical operation,
Concrete amount can reduce 20%-40%, while reduce the dosage of accelerator, and economic benefit and social benefit are significant;Surface
It is highly polished, later period shaping is not needed, shortens construction period, production efficiency greatly improved;Working security is good, it can be achieved that complete
The construction of journey remote control operation machinery, is greatly improved working security, reduces the possibility of occupational disease hazards appearance.
It, can be to nozzle component in displacement, angle, side based on the actual conditions of die cavity between template mechanism and excavation palisades
To, height etc. various aspects carry out adaptability adjustment and control, to reach the control requirement in site operation to nozzle component.
Movement and synchronous rotary etc. can also be integrally synchronized to nozzle component and template mechanism simultaneously, so that mould sprays
In the process, the harmony being added significantly between template mechanism and nozzle component reduces the difficulty of control, improves control
Accuracy;It ensure that mould spray operation is achieved, and improve construction efficiency and construction matter that the spray of Tunnel mould pours
Amount.
Template mechanism is able to carry out independent pitch angle adjustment, can be carried out according to the target palisades of different location corresponding
Adjustment, the die cavity that can be poured with the formation of adaptability.
Revolution large arm may be implemented in the big arm mechanism, and maximum rotation angle is greater than 240 degree in perpendicular, meets
In the spray of tunnel mould away the demand that component carries out the adjustment of wide-angle position is dragged to template mechanism and spray.
The slipping mechanism passes through the cooperation of mobile seat mechanism and rail mechanism, so that mobile seat mechanism and thereon big
Arm mechanism can move carrier body by single in this way with the longitudinal movement in the mobile in-orbit road of seat mechanism, can excavate rock
The depth of wall carries out continuous mould spray and pours, and avoids the drawbacks of frequently moving vehicle, substantially increases construction efficiency.
Meanwhile mould material spray agent spraying system can be such that concrete and accelerator quickly, sufficiently, uniformly mixes;Then can
It is enough to spray into mixed concrete in die cavity, branch sheath is quickly formed, the mesh quickly reinforced to tunnel palisades is reached
's.
Detailed description of the invention
Fig. 1 is the vehicle schematic diagram when mould spraying equipment is trolley;
Fig. 2 is the connection schematic diagram of spray head micro-adjusting mechanism;
Fig. 3 is shower nozzle fixes seat driving structure schematic diagram;
Fig. 4 is the mobile assembly mechanism schematic diagram of spray head;
Fig. 5 is the traversing arm of spray head and preceding arm mechanism connection schematic diagram;
Fig. 6 is forearm structural scheme of mechanism;
Fig. 7 is preceding arm mechanism schematic cross-sectional view;
Fig. 8 is preceding arm mechanism top view;
Fig. 9 is the rotating mechanism schematic diagram of preceding arm mechanism;
Figure 10 is the large arm turntable schematic diagram of big arm mechanism;
Figure 11 is the horizontal rotation component diagram of large arm turntable;
Figure 12 is the rearview of large arm turntable;
Figure 13 is the turntable riser schematic diagram of large arm turntable;
Figure 14 is the connection schematic diagram for turning round large arm and mobile assembly mechanism;
Figure 15 is revolution large arm schematic diagram;
Figure 16 is revolution large arm partial enlarged view;
Figure 17 is the schematic diagram one of template mechanism;
Figure 18 is the schematic diagram two of template mechanism;
Figure 19 is the schematic diagram one of template;
Figure 20 is the schematic diagram two of template;
Figure 21 is position view of the nozzle component at mold cavity inlet;
Figure 22 is the structure chart that agent spraying system is expected in embodiment 21;
Figure 23 is the structure chart that agent spraying system is expected in embodiment 21;
Figure 24 is the structure chart that feed pipe is made of variable diameter stereoplasm tube and non-variable diameter stereoplasm tube;
Figure 25-28 is position schematic diagram of the accelerator filler on material agent mixer.
Specific embodiment
In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to the accompanying drawings and embodiments, right
The technology of the present invention is further elaborated.It should be appreciated that specific embodiment described herein is only used to explain this hair
It is bright, it is not intended to limit the present invention.
Embodiment 1
New concrete mould spraying equipment, including carrier body I, revolution large arm 4 and template mechanism 8, the template mechanism 8
It is mounted on the front end of revolution large arm 4, under the drive of revolution large arm 4, template mechanism 8, which is close to, excavates scar, so that template
Mechanism 8 and excavation scar form die cavity, and gib is sprayed in the direction for nozzle component 9 from transverse mode control non-perpendicular to scar
Concrete.
The nozzle component 9 is mounted on the front end of revolution large arm 4 simultaneously, and is located on template mechanism 8.Further
, arm mechanism 5 before the front end of the revolution large arm 4 is equipped with, the front end of arm mechanism 5, spray head before the template mechanism is mounted on
The top of arm mechanism 5 before component 9 is mounted on, and can be slid back and forth along the longitudinal direction of preceding arm mechanism 5.The top of the preceding arm mechanism 5
Traversing arm 6 is installed, the shower nozzle fixes seat 7 with nozzle component 9 is mounted on traversing arm 6, and can be horizontal on traversing arm 6 or so
To movement.
The length of the traversing arm 6 is greater than the width of the template mechanism 8, to guarantee the jet path energy of nozzle component 9
Transverse mode control above-mentioned is covered comprehensively, achievees the purpose that no dead angle injection pours.
The tail end of the revolution large arm 4 is mounted on large arm turntable 3, and large arm turntable 3 includes vertical rotary components, can be driven
Turn round the relative rotation in perpendicular of large arm 4;The large arm turntable 3 further includes rotating horizontally component, and revolution can be driven big
Arm 4 rotates horizontally.
Further, the vertical rotary components of large arm turntable 3 are gear rotary components, and revolution large arm 4 can be driven vertical
Maximum rotation angle in plane is more than 240 degree.The large arm of this and traditional engineering truck is supported and is provided by hydraulic cylinder
Rotary power is compared, and traditional large arm can only achieve 60 degree or so in unilateral rotation angle, is unable to satisfy this mould spray booth at all
Vehicle needs the mould for carrying out full angle in each section in tunnel to spray demand.
It is longitudinally provided with rail mechanism 1 along car body in the carrier body I, mobile seat mechanism is installed on rail mechanism 1
2, the large arm turntable 3 is rotatably mounted on mobile seat mechanism 2;Mobile seat mechanism 2 carries large arm turntable 3 can be along track machine
The longitudinal movement of structure 1.
The setting of the mobile seat mechanism 2 and rail mechanism 1, so that in conventional constructing tunnel vehicle can not moved
In the case of realize wider scar mould spray supporting construction, avoid and frequently move vehicle, influence construct progress.
The mould spray booth vehicle further includes spraying system II, and spraying system II is connected on nozzle component 9, can be from trend spray head
9 delivering concrete wet shot material of component, for nozzle component 9 into die cavity gunite concrete.
Embodiment 2
Tunnel support layer mould spraying machine structure, including nozzle component 9, template mechanism 8 and spraying system II, the spraying system II
On be connected with nozzle component 9, nozzle component 9 is set to 8 top of template mechanism, and the template mechanism 8 can be formed with palisades wait pour
Die cavity;The spraying system II send concrete to nozzle component 9, and the court above template mechanism 8 of nozzle component 9 is not orthogonal to
The direction of palisades, concrete ejection is entered in die cavity.The nozzle component 9 is connected with spray head micro-adjusting mechanism, the spray head fine tuning
Mechanism can control 9 component of spray head relative to template mechanism/die cavity angle, so that nozzle component sprays into angle/direction of die cavity
It is adjustable.
The spray head micro-adjusting mechanism includes pitching micro-adjusting mechanism and rotary fine adjustment mechanism, and wherein nozzle component 9, which is connected to, bows
It faces upward on micro-adjusting mechanism and/or rotary fine adjustment mechanism;The pitching micro-adjusting mechanism is adjustable pitch angle/direction of nozzle component 9;
The rotary fine adjustment mechanism is adjustable rotational angle/direction of nozzle component 9;The pitching micro-adjusting mechanism and rotary fine adjustment mechanism
It is connected with each other and cooperates, adjust angle/direction of the nozzle component 9 relative to die cavity.
The nozzle component 9 and template mechanism 8 are set in common rack, and nozzle component 9 and template mechanism 8 can be with racks
It moves and/or rotates simultaneously simultaneously;The rack and spraying system II are mounted in common carrier body, and can be with carrier machine
Structure moves together.
The template mechanism 8 includes stencil body 81 and template pitching adjusting mechanism, and the stencil body 81 passes through template
Support is connect with rack, and the template pitching adjusting mechanism is adjustable stencil body 81 relative to the angle between palisades.It is described
Template pitching adjusting mechanism is set as template pitching oil cylinder, and the cylinder body of the template pitching oil cylinder is hinged on template support, lives
Stopper rod is hinged in template;Wherein piston rod and the hinge joint of template are located at below template support and the hinge joint of template, make mould
Pitch angle of the extension and contraction control template of plate pitching oil cylinder relative to template support.
Embodiment 3
The present embodiment provides the specific structure of spray head micro-adjusting mechanism, the spray head freqency fine adjustment machine on the basis of embodiment 1
Structure includes pitching micro-adjusting mechanism and rotary fine adjustment mechanism, and wherein nozzle component 9 is connected to pitching micro-adjusting mechanism and/or rotary fine adjustment
In mechanism;The pitching micro-adjusting mechanism is adjustable pitch angle/direction of nozzle component 9;The rotary fine adjustment mechanism is adjustable
Rotational angle/direction of nozzle component 9;The pitching micro-adjusting mechanism is connected with each other and cooperates with rotary fine adjustment mechanism, adjusts spray
Angle/direction of the head assembly 9 relative to die cavity, to guarantee the effect and quality of injection casting.
Micro-adjusting mechanism further includes shower nozzle fixes seat 7, and the rotary fine adjustment mechanism is fixed in shower nozzle fixes seat 7;It is described to bow
It faces upward micro-adjusting mechanism and nozzle component 9 to be set on rotary fine adjustment mechanism, pitching micro-adjusting mechanism and nozzle component 9 are whole micro- in rotation
It is rotated under the action of regulating mechanism.The pitching micro-adjusting mechanism is set as oil cylinder, cylinder, gear mechanism or chain-drive mechanism, to adjust
Front and rear angles/direction relative to die cavity of nozzle component 9;The rotary fine adjustment mechanism is oil cylinder, cylinder, gear mechanism or chain
Transmission mechanism, to adjust left and right angle/direction of the nozzle component relative to die cavity.
Further, the rotary fine adjustment mechanism is set as rotary oil cylinder 73, is fixed with spray head in the shaft of rotary oil cylinder 73
Supporting plate 74;The pitching micro-adjusting mechanism is pitching oil cylinder 75, and pitching oil cylinder 75 is articulated on spray head supporting plate 74, pitching oil cylinder 75
Piston rod 752 is hinged with nozzle component 9, and nozzle component 9 is hinged on spray head supporting plate 74 and (is specifically hinged on the hinged-support of lower end
At 741) so that pitch angle/direction of the pitching oil cylinder 75 control nozzle component 9.
Further, what the pitching oil cylinder 75 was parallel is provided with two sets, and the piston rod 752 of the pitching oil cylinder 75 is hinged
In on nozzle component 9, the cylinder body 751 of the pitching oil cylinder 75 is articulated on spray head supporting plate 74.In this way by introducing spray head supporting plate
74, so that nozzle component 9 and pitching oil cylinder 75 are rotated with the rotation of 73 shaft of rotary oil cylinder jointly, to realize control spray head
Component 9 carries out the purpose of rotation angle.
Embodiment 4
The present embodiment is on the basis of embodiment 2, by the way that spray head micro-adjusting mechanism is connect with spray head displacement mechanism, realization pair
The Bit andits control relative to die cavity (template component 8) of nozzle component 9.So that spray head micro-adjusting mechanism and spray head displacement mechanism and
Nozzle component 9, template mechanism 8 collectively constitute the mobile assembly mechanism of spray head, to reach control nozzle component 9 relative between die cavity
Vertical and horizontal distance relation, and angle/direction relations relative to die cavity.
The spray head displacement mechanism includes vertical shift mechanism and transverse-moving mechanism;It is set on the vertical shift mechanism and/or transverse-moving mechanism
Set spray head micro-adjusting mechanism, the vertical shift mechanism is adjustable spray head micro-adjusting mechanism and nozzle component 9 in the displacement of longitudinal direction, described
Transverse-moving mechanism is adjustable spray head micro-adjusting mechanism and nozzle component 9 in the displacement of transverse direction;The vertical shift mechanism and transverse-moving mechanism
It is connected with each other and cooperates, control nozzle component 9 is moved to any displacement point on same plane.
The vertical shift mechanism adjusts the displacement of nozzle component 9 in a longitudinal direction by control spray head micro-adjusting mechanism;It is described
Transverse-moving mechanism adjusts the displacement of nozzle component 9 in a lateral direction by control spray head micro-adjusting mechanism;The vertical shift mechanism and cross
Telephone-moving structure is connected with each other, and is cooperated to control any displacement point that nozzle component 9 is moved on same plane.Pass through spray head
The comprehensively control of displacement mechanism and spray head micro-adjusting mechanism, so that nozzle component 9 sprays into position relative to die cavity and sprays into angle/side
To best, reach best mould spray effect, and can effectively improve the efficiency of mould spray.
The transverse-moving mechanism includes traversing arm 6 and shower nozzle fixes seat 7, is laid with lateral guidance and cross on the traversing arm 6
Move and drive part, wherein the lateral guidance is lateral grooved rail, horizontal concrete chute or transverse slider, wherein traversing drives part be traversing rack gear,
Chain, cylinder, oil cylinder or steel cable;The shower nozzle fixes seat 7 is equipped with and the matched directive wheel of lateral guidance/block/slot, Yi Jiyu
The traversing actuator for driving part cooperation, enables nozzle component to move in a lateral direction relative to traversing arm 6.
The spray head micro-adjusting mechanism is set in shower nozzle fixes seat 7, and shower nozzle fixes seat 7 is set on traversing arm 6 and can drive spray
Head micro-adjusting mechanism machine and nozzle component 9 carry out the movement of transverse direction on traversing arm 6.Mainly solves nozzle component 9 laterally
The mobile problem of relatively long distance, the spray head of traditional wet shot manipulator is not no traverse moving function, why in the art of this patent
In have very high traversing demand, be primarily due to, template mechanism 8 and excavate palisades formed after the die cavity poured, it is necessary to
So that nozzle component 9 is moved on a large scale laterally, to carry out pouring while capable of covering entire die cavity for big width, into
And it improves injection and pours efficiency.
The vertical shift mechanism is set on preceding arm mechanism 5, and the preceding arm mechanism 5 is equipped with longitudinal movement seat 56, described traversing
Arm 6 is mounted on longitudinal movement seat 56, and the controllable longitudinal movement seat 56 of preceding arm mechanism 5 and transverse-moving mechanism, spray head thereon are micro-
Regulating mechanism and nozzle component 9 are mobile in the longitudinal direction of preceding arm mechanism 5 simultaneously.Arm mechanism 5 and longitudinal movement seat 56 are before in this way
A kind of implementation of vertical shift mechanism is constituted, however, it is not limited to this.
The traversing arm 6 further includes lateral grooved rail 61, and shower nozzle fixes seat 7 includes idler wheel attachment base 71, idler wheel attachment base 71
On idler wheel 711 is installed, shower nozzle fixes seat 7 is integrally attached on traversing arm 6 by idler wheel attachment base 71.Further, traversing
Arm 6 is provided with two lateral grooved rails 61 being parallel to each other, grooved rail 611 in the transverse direction including being located at traversing 6 top of arm, and is located at cross
Grooved rail 612 under the transverse direction of 6 bottom end of displacement arm, and laterally upper grooved rail 611 and the laterally lower length of grooved rail 612 and the length of traversing arm 6
It is equal.Idler wheel attachment base 71 further includes idler wheel connecting plate 712, and the two rows idler wheel being fixed on idler wheel connecting plate 712
711, and two rows idler wheel 711 respectively horizontally descend in grooved rail 612 to roll by grooved rail 611 and transverse direction.
Be provided with traversing rack gear 63 on the traversing arm 6, and with the traversing driving gear that is mounted on idler wheel attachment base 71
713 engagements.The traversing arm 6 further includes having dismountable traversing front shroud 621, and the traversing front shroud 621 is provided with along cross
To the cover board strip-shaped hole 621a of center line, the traversing rack gear 63 is fixed on traversing 624 inside of front shroud.The traversing rack gear 63
It can be bolted on the inside of traversing front shroud 621, and be located on or below cover board strip-shaped hole 621a.
The shower nozzle fixes seat 7 includes rectangular section of 7a and hollow columnar section 7b, and is fixedly connected by welding, hollow columnar
The inner cavity of section 7b is provided with traversing drive motor 714, and the shaft of traversing drive motor 714 passes through idler wheel connecting plate 712, and from cross
The cover board strip-shaped hole 621a for moving front shroud 621 is extend into traversing arm 6, and the traversing driving gear 713 is fixed on traversing driving
The free end of the shaft of motor 714, and engaged with the traversing drive rack 63.
The outer diameter of the traversing driving gear 713 is less than the width of the cover board strip-shaped hole 621a.It in this way can be further
Enhancing shower nozzle fixes seat 7 lateral stability.It is additionally provided with cover board 622 on the traversing arm 6, to protect laterally upper grooved rail
611, avoid impurity from entering in laterally upper grooved rail 611.
Embodiment 5
The specific structure of arm mechanism 5 before the present embodiment further provides, so that the overall structure of mould spraying machine structure is more
Clearly.
Spray head displacement mechanism is connected on the preceding arm mechanism 5, the spray head displacement mechanism includes vertical shift mechanism and cross sliding machine
Structure, the vertical shift mechanism are set on preceding arm mechanism 5, and transverse-moving mechanism is set in vertical shift mechanism, and micro-adjusting mechanism is set on transverse-moving mechanism,
Micro-adjusting mechanism includes pitch angle control mechanism and rotary angle control mechanism.
The preceding arm mechanism 5 includes forearm beam 52 and rotating mechanism 51, and the bottom of the forearm beam 52 is equipped with rotation branch
Seat 58,58 bottom of rotary support are provided with connecting plate 581, and connecting plate 581 can be fixed to (the rotation of the present embodiment on rotating mechanism 51
Rotation mechanism 51 is set as rotary speed reducer), the rotating mechanism can be placed in gantry/table vehicle and some other similar carrier
On.
The preceding arm mechanism 5 includes forearm beam 52 and the longitudinal movement seat 56 and driving member that are fixed on forearm beam 52
57, longitudinal movement seat 56 can be along the longitudinal sliding motion of preceding arm mechanism 5, before meeting nozzle component 9 under the drive of driving member 57
The needs of position adjustment afterwards.The transverse-moving mechanism of the mobile assembly mechanism of spray head is integrally attached on longitudinal movement seat 56, can with one of
Play movement.
The front end of forearm beam 52 is provided with forearm connecting plate 53, the template support 85 for fixed form mechanism 8.Forearm
Beam 52 is hollow structure, and top is covered with back plate 54, along the longitudinal two sides of back plate 54 be parallel to each other be provided with two it is vertical
To sliding rail 55, vertically moves seat 56 and two longitudinal slide rails 55 cooperate, and sliding rail 55 can slide along longitudinal direction.Further, described
Longitudinal slide rail 55 can be substituted by two longitudinal slides, and the lateral surface of longitudinal slide needs to correspond to outer side edges beyond back plate 54, with
Among sliding slot convenient for longitudinal slide to be snapped onto longitudinal movement seat 56.
The driving member 57 is mounted on the inside of forearm beam 52, and back plate 54 offers top plate strip-shaped hole along its center line
541, in order to which 57 pairs of longitudinal movement seats 56 of driving member realize pulling motion.
The driving member 57 is chain transminssion mechanism;It, can also be with if other transmission mechanisms can reach identical transmission agency
It is applied in this preceding arm mechanism 5, such as directlys adopt oil cylinder transmission, cylinder-driven, gear drive, rack-driving, V belt translation or rope
Transmission etc..
Further, the chain transminssion mechanism includes two chains 571, guide wheel group, gear frame 574, drive cylinder
576.Two chains 571 are attached thereto from the rear and front end of longitudinal movement seat 56 respectively, and connector can be located at top plate item
On shape hole 541,571 pairs of chain longitudinal movement seats 56 form the oblique pull transmission of front and back, have simultaneously to longitudinal movement seat 56 vertical
To motive force, also there is holdback force directed downwardly so that fixation of the longitudinal movement seat 56 on preceding arm mechanism 5 is more firm, and
And chain drive has high buffer function to irregular vibration of the nozzle component 9 in injection, has more to power mechanism
Good protective effect.
The guide wheel group includes two fixed guide wheels and two mobile guide wheels, that is, includes fixed guide front-wheel 573a
With fixed guide rear-wheel 573b, the front-end and back-end inside forearm beam 52 are separately mounted to, the chain driving wheel, which is located at, to be fixed
Between guide front wheel 573a and fixed guide rear-wheel 573b.
Mobile guide wheel is mobile guide front-wheel 572a and mobile guide rear-wheel 572b respectively;Chain includes preceding zip strip
571a and post-tensioning chain 571b;Mobile guide front-wheel 572a can be synchronous in fixed guide front-wheel with mobile guide rear-wheel 572b
It is slided between 573a and fixed guide rear-wheel 573b.
One end of preceding zip strip 571a is connect with the front end of longitudinal movement seat 56, and the other end passes through fixed guide front-wheel
573a deflecting, after crossing mobile guide front-wheel 572a, the inner wall front end of forearm beam 52 is fixed in tensioning;Same post-tensioning chain
One end of 571b is connect with the rear end of longitudinal movement seat 56, and the other end passes through the 573b deflecting of fixed guide rear-wheel, is moved further around crossing
After action-oriented rear-wheel 572b, the rear inner wall of forearm beam 52 is fixed in tensioning.
The mobile guide front-wheel 572a and mobile guide rear-wheel 572b are also secured on gear frame 574, the transmission
Frame 574 includes that two transmissions of two sides set a roof beam in place 574a, mobile guide front-wheel 572a and mobile guide rear-wheel 572b positioned at two biographies
Between moving frame beam 574a, the bogie sliding slot 575 for bogie sliding is respectively arranged in the two sides inner wall of forearm beam 52.
Further, the bogie sliding slot of every side by the interval for being fixed on forearm beam 52 inner wall and is parallel to each other
Upper frid 575a and lower frid 575b composition.
The transmission that the wheel shaft of the chain drive front-wheel 572a and chain drive rear-wheel 572b have been pierced by two sides is set a roof beam in place
574a, so that the both ends of wheel shaft are placed in the bogie sliding slot 575 of the two sides simultaneously, so that wheel shaft plays the work of guiding axis
With.
Further, the wheel shaft free end of mobile guide front-wheel 572a and mobile guide rear-wheel 572b are equipped with idler wheel 578,
So that the movement of gear frame 574 is more smooth.
The power source of this chain transminssion mechanism is provided by drive cylinder 576, any end and driving of the gear frame 574
The piston rod 576b connection of oil cylinder 576, to provide the sliding power of gear frame 574.In the present embodiment, chain drive oil cylinder 576
Cylinder body 576a be mounted on the rear end in forearm beam 52 because there is longer installation space in rear end, in order to install and be driven.
The chain drive oil cylinder 576 is driven the 574a that sets a roof beam in place by two of connecting shaft 577 and gear frame 574 and connect.
Above-mentioned is the total solution of chain transminssion mechanism, and the special designing of this programme may make longitudinal movement seat
56 on preceding arm mechanism 5 in sliding process, and preceding zip strip 571a and post-tensioning chain 571b are able to maintain tensioning state, to longitudinal direction
Mobile base 56 forms balanced front and back holdback force, avoids its sliding process and stuck phenomenon occurs, so that sliding is more stable, has
Effect reduces failure rate.
Embodiment 6
On the basis of embodiment 4, it often it is also required to provide what one kind carried preceding arm mechanism 5 and preceding arm mechanism 5
Mechanism and component form the carrier body for directly supporting and controlling, such as rack, trolley.To reach to nozzle component 9 and template
Mechanism 8 and the bindiny mechanisms such as relevant spray head displacement mechanism and spray head micro-adjusting mechanism carry out the mesh of whole deflection and overall movement
, and realize the control purpose more refined.
As in the present embodiment, preceding arm mechanism 5 is set on trolley, and the spraying system II also integral installation in platform
On vehicle carriage I, specific connection type is big arm mechanism to be equipped on the trolley vehicle frame I of trolley, the big arm mechanism includes energy
The large arm turntable 3 relatively rotated in the horizontal plane, it is big that the large arm turntable 3 is equipped with the revolution that can be relatively rotated on vertical plane
Arm 4, the preceding arm mechanism 5 are set to the front end of revolution large arm 4, the matrix based on revolution large arm 4, large arm turntable 3 and big arm mechanism
Between relative rotation, it is mobile with the front end of revolution large arm 4 to make template mechanism 8, and control between template mechanism 4 and palisades away from
From and/or angle so that template mechanism 8 at target palisades with target palisades formed die cavity.
The large arm turntable 3 includes that turntable frame 31, horizontal rotation component and vertical rotary components, the turntable frame 31 pass through
It rotates horizontally on the fixed trolley of component, and can rotate horizontally on the car, revolution large arm 4 is mounted on by vertical rotary components to be turned
On rack 31, and it can be rotated in a vertical plane centered on vertical rotary components.
The turntable frame 31 generally L-shaped structure, including turntable bottom plate 311 and turntable riser 312;The horizontal rotation group
Part includes horizontal gear wheel 32 and the horizontal rotation engaged with horizontal gear wheel 32 driving gear 323.Horizontal gear wheel 32 includes
The second largest gear ring 321 and the second ring tooth wheel shaft 322, horizontal gear wheel 32 is by being bolted directly to the bolt of top plate 28
On hole 281;Turntable bottom plate 311 is bolted on the second ring tooth wheel shaft 322 of horizontal gear wheel 32.It is described second largest
It is circumferentially equi-spaced on gear ring 321 to be provided with bolt connecting hole 321a, between the same circumferential direction of the first ring tooth wheel shaft 322 is uniform
Every be provided with bolt connecting hole 322a.
The driving gear 323 that rotates horizontally is mounted in the shaft for rotating horizontally drive motor 324, rotates horizontally driving
Motor 324 is fixed on downward on turntable bottom plate 311.The turntable bottom plate 311 includes the motor beyond horizontal 32 outside of gear wheel
Mounting portion 311a, the horizontal rotation drive motor 324 are fixed on motor mount 311a, the motor mount 311a with
To be connected smoothly between 311 main body of turntable bottom plate.
The vertical rotary components include vertical gear wheel 33 and the vertical rotation sliding tooth that engages with vertical gear wheel 33
Wheel 333.The vertical gear wheel 33 further includes the first canine tooth torus 331 and the first ring tooth wheel shaft 332, first ring tooth
Wheel shaft 332 is fixed on turntable riser 312, and revolution large arm 4 is directly anchored on the first canine tooth torus 331.First canine tooth torus
331 and first on ring tooth wheel shaft 331 respectively the circumferential evenly spaced bolt hole 331a for being provided with several fixation with
Fixation is bolted between bolt hole 332a namely the first canine tooth torus 331 and revolution large arm 4, described first
Also by being bolted fixation between ring tooth wheel shaft 332 and turntable riser 312.
The vertical rotary drive gear 333 is mounted on turntable riser 312 by vertical rotation drive motor 334.Institute
It is with one or one extra to state vertical rotary drive gear 333, is distributed in around the first canine tooth torus 331, and simultaneously
It is engaged with.Further, altogether there are four vertical rotary drive gear 333, respectively symmetrically be arranged in the first canine tooth torus
331 left and right sides.
It is provided on the rotation round of bolt hole 331a on the first canine tooth of face torus 331 on the turntable riser 312
One fixed operation through-hole 312a, in order to be sent into bolt by fixed operation through-hole 312a from the back of turntable riser 312, and
Complete the fixation between revolution large arm 4 and the first canine tooth torus 331.
Several reinforcement risers 313 are also connected between the turntable bottom plate 311 and turntable riser 312.The turntable riser
312 back is equipped with the pipeline support 314 towards two sides, is used to support fixed pump line.
The revolution large arm 4 is telescopic structure, and preceding arm mechanism 5 is mounted on the front end of revolution large arm 4, turns round large arm 4
Rear end be fixed on the first canine tooth torus 331 of large arm turntable 3, revolution large arm 4 maximum rotation angle in perpendicular
Greater than 240 degree.
The revolution large arm 4 is multi-segment structure, and is controlled and stretched by hydraulic part.It in the present embodiment altogether include three
Arm 42 and revolution forearm 43 in section, including revolution postbrachium 41, revolution.41 tail end of revolution postbrachium of the revolution large arm 4 is provided with
Box connector 412, is fixed with large arm terminal pad 411 on box connector 412, the large arm terminal pad 411 be provided with it is second largest
The corresponding terminal pad bolt hole 411a of bolt hole 331a on gear ring 331.
The revolution postbrachium 41 is vertically arranged with pipe clamp 413, is used for fixing concrete delivery pipe, hydraulic tube and high pressure
Air hose etc..The pipe clamp 413 includes two, is separately fixed at the front-end and back-end of revolution 41 side of postbrachium, each pipe clamp 413
Strut 413a is pressed from both sides by a root canal to be fixed on revolution postbrachium.
42 front end of arm and the ipsilateral of pipe clamp 413 are provided with hose saddle 44 in the revolution, in support revolution large arm 4
Associated hose, similarly, hose saddle 44 may also be arranged on revolution forearm 43, but it is best to turn round arm 42 in forearm 43 and revolution
It not be arranged simultaneously, because may have associated hose folder 44 after turning round 4 recycled in its entirety of large arm and be clipped in two hose saddles
Between, influence the thorough recycling of revolution forearm 4.The hose saddle 44 includes saddle crossbeam 441, and is fixed on saddle cross
The upper bracket 442 of beam 441.The bracket 442 may be provided with two or more, with the hose of interval different role or trend.Often
A bracket 442 includes two bracket vertical tubes 443 directed downwardly being fixed on saddle crossbeam 441 and connects two supports in bottom
The bracket transverse tube 444 of frame vertical tube 443.It is arranged with bracket roller 445 on the bracket vertical tube 443 and bracket transverse tube 444, to subtract
Gently to the frictionally damage of associated hose, but also more smooth to the guiding of relevant hose.
The front end of the revolution forearm 43 is equipped with revolution forearm elbow 431 upward, and the top surface of revolution forearm elbow 431 is set
It is equipped with revolution forearm attachment base 432 upward, turns round and circumferentially equi-spaced on forearm attachment base 432 be provided with several connecting holes
432a, in order to the installation of template mechanism 8 and nozzle component 9.
Further, arm mechanism 5, the template mechanism 8 and nozzle component 9 before the front end of the revolution large arm 4 is connected with
It is set in forearm mechanism 5, and the preceding arm mechanism 5 is connect by rotating mechanism 51 with the front end for turning round large arm 4, specifically may be used
It is connected on revolution forearm attachment base 432, template mechanism 8 and nozzle component 9 can surround rotation under the action of rotating mechanism 51
Mechanism 51 rotates.
Embodiment 7
On the basis of embodiment 5, slipping mechanism is increased, the slipping mechanism includes rail mechanism 1 and mobile base
Structure 2.The large arm turntable 3 of the big arm mechanism is set on mobile seat mechanism 2, and mobile seat mechanism 2 is set on rail mechanism 1, and can
It is moved on the longitudinal direction of rail mechanism 1 with large arm turntable 3.So that the carrying template on big arm mechanism and big arm mechanism
Mechanism 9, nozzle component 8 and other relevant mechanisms and component can be moved with big arm mechanism in the longitudinal direction for excavating palisades
It is dynamic, the die cavity formed between template mechanism 8 and palisades is adjusted along the longitudinal direction of palisades.Such as in tunnel initial-stage branch
It protects in mould spray, in the case where moving carrier body (such as trolley) by single, the palisades of continuous multi-stage time can be carried out.The spray of row mould,
It avoids single and moves the drawbacks of can only carrying out single hop time palisades mould spray, substantially increase the construction efficiency of mould spray.
Embodiment 8
Present embodiment discloses a kind of specific structure of template mechanism, the template mechanism may connect to forearm machine above-mentioned
It is a kind of template mechanism suitable for the spray of tunnel support mould on structure.
The template mechanism 8 includes template 81, template rotation regulating mechanism and/or template pitching adjusting mechanism, the mould
The surface of plate 81 is set as arcwall face, and the template 81 is set on template rotation regulating mechanism and/or template pitching adjusting mechanism;Its
Middle rotation regulating mechanism is adjustable the rotational angle of template 81, and template pitching adjusting mechanism is adjustable the pitch angle of template 81.
The template 81 is hinged on template support 85, is connected with template pitching adjusting mechanism on the template support 85,
The template pitching adjusting mechanism is connected in template 81, and template pitching adjusting mechanism is made to be adjustable template 81 relative to template branch
The pitch angle of seat 85.
The connection of the template support 85 and the hinge joint and template pitch angle regulating mechanism and template 81 of template 81
Point is respectively positioned on the different height of same vertical direction of template 81;The template pitch angle regulating mechanism is set as oil cylinder, gas
Cylinder, gear mechanism or chain-drive mechanism.
Embodiment 9
On the basis of embodiment 7, the template pitch angle regulating mechanism is set as template pitching oil cylinder 86, the template
The cylinder body 861 of pitching oil cylinder 86 is hinged on template support 85, and piston rod 862 is hinged in template 81;Wherein piston rod 862
It is located at below template support 85 and the hinge joint of template 81 with the hinge joint of template 81, makes the extension and contraction control of template pitching oil cylinder 86
Pitch angle of the template 81 relative to template support 85.
Before the template support 85 is connected to by template rotation regulating mechanism (not shown) on arm mechanism 5, make institute
State the rotational angle that template rotation regulating mechanism is adjustable template 81.The template rotation regulating mechanism is pitch wheel
Mechanism, the gear mechanism make to be relatively rotatable to each other certain angle between template support 85 and preceding arm mechanism 5, make the rotation of template
Angle is adjusted.Template rotation regulating mechanism shows in figure there is no specific, but existing rotating mechanism can be with
It is applied to herein, to realize that the axis of the former arm mechanism of template support 85 is controlled as the rotation of center line, so that template mechanism 8
Control it is more accurate, it is stronger to the adaptability of operating condition.The specific implementation of template rotation regulating mechanism is referred to spray head
The rotary oil cylinder 73 of micro-adjusting mechanism, and as a specific implementation manner.
The arcwall face on 81 surface of template has radian identical with the steel arch-shelf laid in tunnel, when template is affixed on phase
When adjacent two or more steel arch-shelfs, the template 81 and including forming more than one die cavity between palisades and steel arch-shelf.It is described
The surface of template 81 is equipped with interlayer 811, and when concrete ejection enters in die cavity, interlayer 811 is placed in concrete and 81 surface of template
Between, make the surface of concrete non-direct contact template 81.
Embodiment 10
A kind of mould material spray agent spraying system, including the supply of concrete pumping mechanism, accelerator pumping mechanism, compressed air are set
Standby and material agent mixer;Concrete is sent into material agent mixer by the concrete pumping mechanism binder agent mixer;The speed
Setting agent pump send mechanism binder agent mixer, and accelerator is sent into material agent mixer and is mixed with concrete;The compressed air
Compressed air is sent into material agent mixer by supply arrangement binder agent mixer;Make concrete and accelerator in material agent mixing
It quickly, sufficiently, is uniformly mixed in device, then provides power for the ejection of concrete;The material agent mixer connects nozzle group
Part 9.The nozzle component 9 enters the concrete ejection for being mixed with accelerator in die cavity.As shown in figure 21, the setting of nozzle component 9 exists
Entrance above die cavity.
The material agent mixer II -4 is hollow structure, and the outlet end of the material agent mixer II -4 connects nozzle component 9,
The input end of the material agent mixer II -4 connects concrete pumping mechanism;The side wall of the material agent mixer 4 is equipped with several
Accelerator filler II -41, the accelerator filler II -41 connect accelerator pumping mechanism, accelerator and concrete are made to exist
Expect mixing in agent mixer II -4.Gas filler has also been provided on the input end or side wall of the material agent mixer, it is described
Gas filler connects compressed air supply arrangement.
Several accelerator fillers II -41 arranged on material II -4 outer wall of agent mixer, the filling of at least two accelerators
Mouth II -41 is equally spaced on material agent mixer II -4.
As shown in figure 25, each accelerator filler II -41 is arranged at equal intervals in a circumferential direction.
As shown in figure 26, each accelerator filler II -41 is in an inclined direction spaced setting, from material agent mixer II -4
The back segment of front end is divided into b between each accelerator filler II -41;In a circumferential direction, between each accelerator filler II -41
It is divided into a;Make the line of each accelerator filler II -41 helically line on material II -4 side wall of agent mixer.
The concrete pumping mechanism includes pumping equipment II -1, feed pipe II -2 and hose II -3, the pumping equipment
Feed pipe II -2 is connected on II -1, the feed pipe II -2 is connected to the input end of material agent mixer II -4 by hose II -3;
The diameter of II -2 input end of feed pipe is equal with the diameter of II -1 outlet end of pumping equipment, II -2 outlet end of feed pipe it is straight
Diameter is equal with the diameter of II -3 input end of hose, and the diameter of II -2 input end of the feed pipe is greater than II -2 outlet end of feed pipe
Diameter.
The feed pipe II -2 includes several variable diameter stereoplasm tubes;The variable diameter stereoplasm tube is along II -2 extending direction of feed pipe
It successively docks, the diameter of II -2 input end of feed pipe is made to be greater than the diameter of II -2 outlet end of feed pipe;Wherein, along feed pipe II -2
The diameter of extending direction, every variable diameter stereoplasm tube gradually becomes smaller from input end to outlet end.
Along feed pipe extending direction, the diameter of every stereoplasm tube input end is equal to the diameter of a upper stereoplasm tube outlet end;
The diameter of every stereoplasm tube outlet end is equal to the diameter of next stereoplasm tube input end;Pass through pipe clamp at the docking of every stereoplasm tube
Or the mode being threadedly coupled is attached.
The accelerator pumping mechanism includes accelerator storage tank II -7, accelerator pumps and accelerator filler pipe II -6, described
Accelerator is stored in accelerator storage tank II -7, is pumped on the accelerator storage tank II -7 configured with accelerator, on the accelerator pump
Accelerator filler pipe II -6 is connected, the accelerator filler pipe II -6 is connected to accelerator filler II -41.Further, fast
, can be with the more accelerators of reservoir there are two solidifying agent storage tank II -7 is set, while counterweight can be carried out to trolley vehicle, it plays at one stroke
Two effects obtained
The compressed air supply arrangement includes gas compressor II -9 and gas filler pipe II -8, the gas compressor
II -9 is connected by gas filler pipe II -8 with the gas filler on agent mixer is expected.
Embodiment 11
The present embodiment is substantially the same with embodiment 10, the difference is that: accelerator is first uniformly mixed with compressed air
It reinjecting in material agent mixer, the pressure that accelerator band can be made certain in this way can be mixed more fully with concrete, and
Also power is provided for the ejection of concrete.As shown in figure 23, the accelerator pumping mechanism connects flow mixing device II -10, by rapid hardening
Agent is sent into flow mixing device II -10;The compressed air supply arrangement connects flow mixing device II -10, and compressed air is sent into flow mixing device
It is mixed in II -10 with accelerator;The accelerator for being mixed with compressed air is sent by II -10 binder agent mixer of flow mixing device
It is mixed in material agent mixer with concrete.
The material agent mixer II -4 is hollow structure, and the outlet end of the material agent mixer II -4 connects spray head II -5,
The input end of the material agent mixer II -4 connects concrete pumping mechanism;If the side wall of the material agent mixer II -4 is equipped with
Dry accelerator filler II -41, the accelerator filler II -41 connect flow mixing device II -10, and the flow mixing device II -10 is distinguished
Connect accelerator pumping mechanism and compressed air supply arrangement.
The accelerator pumping mechanism includes accelerator storage tank II -7, accelerator pumps and accelerator filler pipe II -6, described
Accelerator is stored in accelerator storage tank II -7, is pumped on the accelerator storage tank II -7 configured with accelerator, on the accelerator pump
Accelerator filler pipe II -6 is connected, the accelerator filler pipe II -6 is connected to flow mixing device II -10;The flow mixing device II -10 is logical
Cross the accelerator filler II -41 that filler pipe II -11 is connected on material agent mixer.
The compressed air supply arrangement includes gas compressor II -9 and gas filler pipe II -8, the gas compressor
II -9 is connected to flow mixing device II -10 by gas filler pipe II -8, and the flow mixing device II -10 is connected to by filler pipe II -11
Expect the accelerator filler II -41 on agent mixer.
Embodiment 12
The present embodiment and embodiment 10 and 11 are substantially the same, the difference is that: on material II -4 outer wall of agent mixer
One or more groups of accelerator fillers II -41 are disposed with, wherein same group of accelerator filler II -41 is located at same circumference
On.
When for one group of accelerator filler II -41, the accelerator filler II -41 is located on same circumference at equal intervals
Ground arrangement;As shown in figure 24.
When for multiple groups accelerator filler II -41, from material II -4 input end of agent mixer to outlet end, at least two groups speed
Solidifying agent filler II -41 is equidistantly spaced from, and is located on same circumference with group accelerator filler II -41 and is equally spaced;
As in figs. 27 and 28.
In the present embodiment, the accelerator filler II -41 is multiple groups, and two groups of accelerator fillers of arbitrary neighborhood
II -41 is arranged with being circumferentially mutually aligned or misplace.As shown in figure 27, each alignment of accelerator filler II -41 setting.
As shown in figure 28, each accelerator filler II -41 shifts to install.
Embodiment 13
The present embodiment is substantially the same with embodiment 10,11,12, the difference is that: if the feed pipe II -2 includes
Dry root variable diameter stereoplasm tube and non-variable diameter stereoplasm tube;The variable diameter stereoplasm tube and non-variable diameter stereoplasm tube are along II -2 extending direction of feed pipe
It successively docks, the diameter of II -2 input end of feed pipe is made to be greater than the diameter of II -2 outlet end of feed pipe;Wherein, along feed pipe II -2
The diameter of extending direction, every variable diameter stereoplasm tube gradually becomes smaller from input end to outlet end.
As shown in figure 24, in the present embodiment, feed pipe II -2 includes sequentially connected stereoplasm tube one II -21, stereoplasm tube two
II -22, stereoplasm tube 3 II -23, stereoplasm tube 4 II -24 and stereoplasm tube 5 II -25 totally five sections of stereoplasm tubes, and be steel pipe, wherein
Stereoplasm tube one II -21 and stereoplasm tube 3 II -23 are bend pipe, and stereoplasm tube one II -21 is non-reducer pipe, arrival end and pumping mechanism
1 is connected, and outlet end is connected with reducer pipe two, and the stereoplasm tube 3 II -23 is reducer pipe or non-reducer pipe, stereoplasm tube 4 II -
24 and stereoplasm tube 5 II -25 be reducer pipe.The diameter of entire feed pipe II -2 is sequentially reduced from input end to outlet end.And it is every
It is attached at the docking of root stereoplasm tube by pipe clamp.The input end of the feed pipe II -2 is connected to pumping mechanism, outlet end
Nozzle component 9 is connected to by hose II -3.The hose II -3 is non-reducer pipe.
Embodiment 14
A kind of mould spray method of tunnel support layer, described method includes following steps:
S1: it by large arm mechanism controls template mechanism and nozzle component jointly close to tunnel target palisades, is bowed by template
Angle of the oil cylinder adjusting template ontology relative to palisades is faced upward, so that stencil body, scar and other subsidiary body/accessory structures are matched
Close the die cavity formed for pouring;
S2: on template mechanism, by spray head displacement mechanism adjust nozzle component relative to die cavity front-rear position and
Lateral position, so that nozzle component is located at the surface of die cavity;Then the opposite of nozzle component is adjusted by spray head micro-adjusting mechanism
In the pitch angle and lateral angles of die cavity, nozzle component is enabled to pour mouth towards at the top of die cavity with optimal angle;
S3: opening spraying system, and to nozzle component delivering concrete, the nozzle of nozzle component sprays into coagulation into die cavity
Soil, until die cavity pours completion;
S4: when die cavity inner concrete reaches solidification, template mechanism is disengaged and is moved up along tunnel palisades, according to step
The method of rapid S1 forms new die cavity, and the solidification concrete of template bottom and neighbouring lower part overlaps, by the solidification coagulation
Soil closes the bottom of new die cavity;Step S2 and S3 are repeated, and completes pouring for new die cavity.
S5: repeating step S4, is poured with completing the branch sheath mould spray of this section unilateral palisades from bottom to top;
S6: turning to tunnel with the other side of section time for template mechanism and nozzle component simultaneously, and repeat step S1-S5, complete
The mould spray of cost section time other side palisades pours.
It further include step S7, the supporting concrete layer for allowing tunnel to pour with section time left and right sides wall is taken in tunnel top
Connect, and after lap-joint tamps with template support, strike off, the mould spray for being performed integrally this section time of tunnel contour pours.
After the mould spray for completing section time palisades pours, step SI-S7 is repeated, continuously to carry out mould to tunnel depth
Spray pours.
What is be spaced on the palisades is provided with steel arch-shelf, and the template is affixed on two or more adjacent steel arch-shelfs, so that
Die cavity to be poured is formed between template, palisades, steel arch-shelf and tunnel bottom surface or adjacent lower part solidification concrete.
In the palisades bottom first floor die cavity forming process of tunnel each section time, so that template bottom is contacted with tunnel bottom surface,
It is closed so that tunnel bottom surface forms first floor mold cavity bottoms.
According to target palisades at a distance from large arm turntable, pass through the flexible and large arm turntable of revolution large arm rotation group vertically
The rotation of part controls, and just successive step is carried out to template mechanism and nozzle component, to approach target palisades.
When there is lateral angle between template and palisades, before being controlled by rotating mechanism arm mechanism with template at a slow speed
Rotation, until template and target palisades keeping parallelism, to compensate the angle between template and palisades.
After the unilateral palisades mould of the same section time, which sprays, to be completed, by the effect of the horizontal rotation component of large arm turntable,
It drives revolution large arm and nozzle component and template mechanism to rotate to other side progress mould spray to pour.
After the whole mould spray for completing section time palisades pours, by the sliding of the mobile seat mechanism of slipping mechanism with
Big arm mechanism and template mechanism on big arm mechanism and nozzle component are generally longitudinally moved into tunnel, so that big arm mechanism exists
The mould spray that the position of tunnel longitudinal direction is adapted to next palisades section time pours.
When mobile seat mechanism is slid onto the end of rail mechanism, and the rotation compensation of combination large arm turntable, revolution large arm is stretched
Truncate is repaid and the accumulation of the rotation compensation of rotating mechanism can not make template form the die cavity that can be poured with next section palisades
When, mobile seat mechanism can be backed to the initial position of rail mechanism, and trolley is moved forward once.
As template mechanism up moves, the angle between template and preceding arm mechanism constantly reduces, and leads to template mechanism
Top increases at a distance from nozzle component, can adjust spray head longitudinal direction slide accordingly relative to preceding arm mechanism forward slip, so as to
Nozzle component and the distance between the die cavity newly formed are maintained in a suitable range.
Nozzle component is continuously into die cavity course of injection, and shower nozzle fixes seat on traversing arm continuously laterally move by left and right
It is dynamic, so that the nozzle component in shower nozzle fixes seat continuously moves left and right at the top of die cavity.
Nozzle component, when nozzle component is moved close to the two sides of die cavity, is sprayed into the continuous course of injection of die cavity
Head micro-adjusting mechanism control nozzle component low-angle rotates left and right, to guarantee the concreting of die cavity junction on the inside of steel arch-shelf
Quality avoids hollowing occur in junction.
The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention
Made any modifications, equivalent replacements, and improvements etc., should all be included in the protection scope of the present invention within mind and principle.
Claims (10)
1. a kind of new concrete mould spraying equipment, it is characterised in that: including carrier body, big arm mechanism, template mechanism and spray head
Component sets big arm mechanism in carrier body, and big arm mechanism includes revolution large arm, and the front end of revolution large arm set template mechanism and
Nozzle component, the template mechanism can form die cavity with scar is excavated, and the nozzle component is set to above template mechanism, and can be adjusted
Its whole concrete penetrating angle/direction relative to die cavity.
2. new concrete mould spraying equipment according to claim 1, it is characterised in that: be also connected on the nozzle component
Spraying system, the spraying system include concrete pumping mechanism, accelerator pumping mechanism, compressed air supply arrangement and material agent
Mixer, the concrete pumping mechanism, accelerator pumping mechanism and compressed air supply arrangement are arrived by piping connection respectively
Expect that agent mixer, material agent mixer are connected to nozzle component;Material agent mixer mixes concrete with accelerator, and compressed air will
The concrete for being mixed with accelerator is sprayed by nozzle component to die cavity.
3. new concrete mould spraying equipment according to claim 2, it is characterised in that: the accelerator pumping mechanism connection
Accelerator is sent into flow mixing device by flow mixing device;The compressed air supply arrangement connects flow mixing device, and compressed air is sent into mixed flow
It mixes and is atomized with accelerator in device;The flow mixing device binder agent mixer, the atomization accelerator for being mixed with compressed air is sent
It is mixed in pan feeding agent mixer with concrete.
4. new concrete mould spraying equipment according to claim 1, it is characterised in that: the template mechanism include template,
Template rotation regulating mechanism and/or template pitching adjusting mechanism, the surface of the template are set as arcwall face, and the template is set to mould
On plate rotation regulating mechanism and/or template pitching adjusting mechanism;Wherein rotation regulating mechanism is adjustable the rotational angle of template, mould
Plate pitching adjusting mechanism is adjustable the pitch angle of template.
5. new concrete mould spraying equipment according to claim 4, it is characterised in that: the template is assembling mechanism,
By two pieces or more of single mode plate, upper foldable/fold it is formed by connecting laterally and/or vertically;Shape after the template group expansion
At monoblock type template, at least one die cavity can be cooperatively formed with scar;Folding control machine is equipped between the adjacent single mode plate
Structure.
6. new concrete mould spraying equipment described in one of -5 according to claim 1, it is characterised in that: the nozzle component connection
There is spray head micro-adjusting mechanism, the micro-adjusting mechanism includes pitch angle control mechanism and rotary angle control mechanism, pitch angle control
Mechanism processed adjusts pitch angle/direction of nozzle component;Rotary angle control mechanism controls nozzle component rotational angle/direction;
Pitch angle control mechanism is connected with each other and cooperates with rotary angle control mechanism, makes nozzle component that concrete ejection is entered die cavity
Interior angle/direction is not orthogonal to scar.
7. new concrete mould spraying equipment according to claim 6, it is characterised in that: the rotary angle control mechanism is set
There is rotary oil cylinder, the shaft of the rotary oil cylinder is equipped with spray head supporting plate, and the nozzle component is hinged on spray head supporting plate, described
Pitch angle control mechanism is set as pitching oil cylinder, and the cylinder body of pitching oil cylinder is articulated on spray head supporting plate, and piston rod is hinged on spray
In head assembly.
8. new concrete mould spraying equipment according to claim 6, it is characterised in that: the spray head micro-adjusting mechanism is connected with
Spray head displacement mechanism, the spray head displacement mechanism include transverse-moving mechanism and vertical shift mechanism, and the vertical shift mechanism passes through control spray head
Micro-adjusting mechanism adjusts the displacement of nozzle component in a longitudinal direction;The transverse-moving mechanism is adjusted by control spray head micro-adjusting mechanism
The displacement of nozzle component in a lateral direction;The vertical shift mechanism and transverse-moving mechanism are connected with each other, and are cooperated to control spray
Head assembly is moved to any displacement point on same plane.
9. new concrete mould spraying equipment described in one of -5 according to claim 1, it is characterised in that: the big arm mechanism also wraps
Large arm turntable is included, the large arm turntable includes vertical rotary components and rotates horizontally component, and the vertical rotary components connect back to
Turn large arm, and controls revolution large arm and relatively rotated on vertical plane;It rotates horizontally component to be set in carrier body, and controls large arm
Mechanism Arbitrary Rotation in the horizontal plane.
10. new concrete mould spraying equipment according to claim 9, it is characterised in that: the carrier body is set as trolley,
Slipping mechanism is wherein installed along longitudinal direction, the big arm mechanism is set on slipping mechanism, the slipping mechanism energy on trolley vehicle frame
The longitudinal direction that big arm mechanism is controlled along carrier body moves.
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CN112922605A (en) * | 2021-03-31 | 2021-06-08 | 中国矿业大学 | Supplementary construction equipment of high-strength concrete wall of a well structure |
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