CN108591384A - A kind of speed changer adjusted manually - Google Patents
A kind of speed changer adjusted manually Download PDFInfo
- Publication number
- CN108591384A CN108591384A CN201810307181.0A CN201810307181A CN108591384A CN 108591384 A CN108591384 A CN 108591384A CN 201810307181 A CN201810307181 A CN 201810307181A CN 108591384 A CN108591384 A CN 108591384A
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- China
- Prior art keywords
- gear
- ring
- transmission mechanism
- transmission
- shaft
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Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H3/00—Toothed gearings for conveying rotary motion with variable gear ratio or for reversing rotary motion
- F16H3/44—Toothed gearings for conveying rotary motion with variable gear ratio or for reversing rotary motion using gears having orbital motion
- F16H3/62—Gearings having three or more central gears
- F16H3/66—Gearings having three or more central gears composed of a number of gear trains without drive passing from one train to another
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H2200/00—Transmissions for multiple ratios
- F16H2200/20—Transmissions using gears with orbital motion
- F16H2200/2002—Transmissions using gears with orbital motion characterised by the number of sets of orbital gears
- F16H2200/201—Transmissions using gears with orbital motion characterised by the number of sets of orbital gears with three sets of orbital gears
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H2200/00—Transmissions for multiple ratios
- F16H2200/20—Transmissions using gears with orbital motion
- F16H2200/203—Transmissions using gears with orbital motion characterised by the engaging friction means not of the freewheel type, e.g. friction clutches or brakes
- F16H2200/2033—Transmissions using gears with orbital motion characterised by the engaging friction means not of the freewheel type, e.g. friction clutches or brakes with one engaging means
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Retarders (AREA)
Abstract
The invention belongs to transmission technology fields, more particularly to a kind of speed changer adjusted manually, it includes transmission output shaft, speed changer mounting shell, transmission input shaft, adjusting rod, driven gear ring, and when transmission input shaft rotates, transmission input shaft will make driven gear ring rotate;Meanwhile the amount of movement of driven gear ring is adjusted by adjusting rod;And then to control driven gear ring and the first transmission mechanism, the meshing relation of the second transmission mechanism and third transmission mechanism;And then to control the rotation situation of the first transmission gear, the second transmission gear and third transmission gear;The velocity of rotation of transmission output shaft is automatically adjusted by adjusting rod.It can be in driven gear ring and corresponding ring gear engagement process so that driven gear ring and corresponding ring gear realization seamlessly transit by transition drag ring;It prevents from making the teeth in driven gear ring and corresponding ring gear impaired because driven gear ring is different with corresponding ring gear rotating speed, influences transmission duty.
Description
Technical field
The invention belongs to transmission technology field more particularly to a kind of speed changers adjusted manually.
Background technology
In general, speed changer is realized by the combination of multiple planetary gear sets, during automobile gear shift, change speed changer
Gear is installed on output shaft and the meshing relation of gear is installed on transmission input shaft;But in speed-change process, in two teeth
When the cooperation of teeth on wheel is not up to meshing state, if engagement is possible to so that the teeth of two gears are impaired by force;
Make transmission failure;So design one kind is during automobile gear shift, two gears can seamlessly transit in engagement process
Speed changer be necessary.
The present invention design a kind of speed changer adjusted manually solve the problems, such as it is as above.
Invention content
To solve drawbacks described above in the prior art, the present invention discloses a kind of speed changer adjusted manually, it be use with
Lower technical solution is realized.
A kind of speed changer adjusted manually, it is characterised in that:It includes transmission output shaft, speed changer mounting shell, speed change
Device input shaft, adjustment hole, the first transmission mechanism, the second transmission mechanism, third transmission mechanism, driven gear ring, output shaft hole, input
Axis hole, first gear, second gear, triggering ring, connecting plate, is oriented to annulated column, three square ring of elastic-friction, fixes disk, is solid fixed disk
Fixed pole, terminal pad, the first unidirectional ring, the second shaft, the first driving gear, the first transmission gear, the second unidirectional ring, position restrainer
Structure, third shaft, the unidirectional ring of third, the second transmission gear, fixed block, fixed connecting rod, the 4th unidirectional ring, third driving cog
Wheel, the second driving gear, third driving gear, the 4th shaft, the both ends of wherein speed changer mounting shell have output shaft hole
And input shaft bore;Transmission output shaft is mounted on by output shaft hole on speed changer mounting shell;First driving gear, the second driving
Gear and third driving gear are sequentially arranged on transmission input shaft, and the first driving gear is on speed changer mounting shell
Output shaft hole;First driving gear, the second driving gear and third driving gear are located in speed changer mounting shell;Second shaft
One end is mounted in speed changer mounting shell and is provided on a side end face of output shaft hole;First transmission gear is pacified by the second unidirectional ring
In the second shaft, and the first transmission gear is engaged with the first driving gear;Third shaft nesting is mounted on the second shaft
On periphery;Second transmission gear is mounted on by the unidirectional ring of third in third shaft, and the second transmission gear and the second driving
Gear engages;4th shaft nesting is mounted on the periphery of third shaft;Third transmission gear is installed by the 4th unidirectional ring
In the 4th shaft, and third transmission gear is engaged with third driving gear.
Fixed disk is mounted on the inside of speed change mounting shell and fixed disk drives gear close to third;Four fixed blocks are circumferentially equal
Fixed disk is mounted on evenly to drive far from third on the side of gear;Three fixed connecting rods are circumferentially uniformly mounted to fixed disk
It is equipped on the side of fixed block.
First transmission mechanism is mounted on the outside of the 4th shaft;It is circumferential between first transmission mechanism and fixed disk equably to install
There are three position-limit mechanisms;Second transmission mechanism is mounted on the outside of third shaft;Between second transmission mechanism and the first transmission mechanism
There are three position-limit mechanisms for circumferential equably installation;And second passes through terminal pad and first between transmission mechanism and the first transmission mechanism
Unidirectional ring connection;Third transmission mechanism is mounted on the outside of the second shaft;Pass through between second transmission mechanism and the first transmission mechanism
Terminal pad is connected with the first unidirectional ring;Mounting disc is mounted on the other end of the second shaft;Mounting disc coordinates with third transmission mechanism;
One end of fixed link is mounted in mounting disc, and the other end of fixed link, which is mounted in speed changer mounting shell, is provided with input shaft bore side
On end face.
Three square ring of elastic-friction is installed on the inner headed face of driven gear ring one end;Driven gear ring is equipped with elastic-friction triangle
Triggering ring is installed on one side end face of ring;The other end of driven gear ring is equipped with connecting plate;It is oriented to annulated column and is mounted on connecting plate
On;Driven gear ring is by being oriented to being fitted on the inside of speed changer mounting shell of annulated column and fixed link;In driven gear ring
Three square ring of elastic-friction and the first transmission mechanism, the second transmission mechanism and third transmission mechanism coordinate;Mounted on driven gear ring
On triggering ring and the position restrainer between the second transmission mechanism and the first transmission mechanism, the first transmission mechanism and fixed disk
Structure coordinates;Second gear is mounted on to install in driven gear ring and be oriented on the periphery of annulated column;Transmission input shaft passes through input
Axis hole is mounted on speed changer mounting shell;First gear is mounted on transmission input shaft, and on the inside of speed changer mounting shell;
First gear is engaged with second gear.
Above-mentioned third transmission mechanism include transition drag ring, ring gear, T-type guide groove, T-type guide block, sun gear, first turn
Axis, shape star-wheel, shape star fixed frame, are wherein provided with T-type guide groove on the one side of ring gear;Ring gear is mounted on by bearing and is fixed
On disk;T-type guide block with T-type guide groove on ring gear by being fitted on ring gear;Transition drag ring is mounted on T-type guide block
On, there is inclined-plane, the periphery of transition drag ring and the periphery of internal gear to coordinate on transition drag ring;Transition drag ring and peace
Three square ring of elastic-friction cooperation in driven gear ring;Shape star fixed frame is mounted on by the first unidirectional ring in terminal pad;Even
Disk is connect on the second transmission mechanism;Three first rotating shafts are circumferentially uniformly mounted on shape star fixed frame;Three shape star-wheels
In three first rotating shafts, and three shape star-wheels are engaged with ring gear;Sun gear is mounted in the second shaft and close
Mounting disc;Sun gear is engaged with three shape star-wheels respectively.
Above-mentioned second transmission mechanism is similar with third transmission mechanism, and only ring gear is not provided on the one side of T-type guide groove
Square groove is limited there are four circumferentially equably opening;Ring gear is mounted on by four position-limit mechanisms on the first transmission mechanism;Shape star is solid
Determine frame to be mounted in terminal pad by the first unidirectional ring;Terminal pad is mounted on the first transmission mechanism;Sun gear is mounted on third
In shaft and close to mounting disc;Planet carrier in third transmission mechanism is pacified by corresponding first unidirectional ring and corresponding terminal pad
On the side that ring gear is provided with T-type guide groove.
Above-mentioned first transmission mechanism is similar with third transmission mechanism, and only ring gear is not provided on the one side of T-type guide groove
Square groove is limited there are four circumferentially equably opening;Ring gear is mounted on four installed on fixed disk admittedly by four position-limit mechanisms
Determine on block;Shape star fixed frame is mounted on by the first unidirectional ring in terminal pad;Terminal pad is mounted on three installed on fixed disk
On a fixed connecting rod;Sun gear is mounted in the 4th shaft and close to mounting disc;Planet carrier in second transmission mechanism passes through
Corresponding first unidirectional ring and corresponding terminal pad are provided with mounted on ring gear on the side of T-type guide groove.
Above-mentioned position-limit mechanism includes the first compressed spring, limited block, is oriented to U-shaped shell, flexible triggering block, triggering spring, stretches
Contracting shell, wherein interior on the fixed block that the one end for being oriented to U-shaped shell is installed on fixed disk or in the first transmission mechanism
On gear ring;One end of limited block has symmetrical inclined-plane;Limited block, which is mounted on, to be oriented in U-shaped shell;Limited block does not have bevelled
The first compressed spring is installed between one end and the ring gear in corresponding fixed block or the first transmission mechanism;Have on limited block
The one end on inclined-plane coordinates with the limit square groove opened on ring gear in the second transmission mechanism and third transmission mechanism;Telescopic shell is pacified
On the limited block not upper side with inclined-plane one end;Flexible triggering block one end has inclined-plane;The other end of flexible triggering block
In telescopic shell, and triggering spring is installed between bottom side in flexible triggering block and telescopic shell;Flexible triggering block
On inclined-plane coordinate with the triggering ring in the driven gear ring.
Above-mentioned adjusting rod is mounted on by adjustment hole on speed changer mounting shell, and adjusting rod is connect with connecting plate.
The diameter of above-mentioned first driving gear is more than the diameter of the second driving gear;The diameter of second driving gear is more than the
The diameter of three driving gears;The diameter of third transmission gear is more than the diameter of the second transmission gear;The diameter of second transmission gear
More than the diameter of the first transmission gear;The elastic strength that spring is triggered in position-limit mechanism is more than the first compressed spring elastic strength.
As being further improved for this technology, 3 times of a diameter of third driving gear diameter of above-mentioned first driving gear;
2 times of a diameter of third driving gear diameter of second driving gear;A diameter of first transmission gear of third transmission gear is straight
3 times of diameter;2 times of a diameter of first transmission gear diameter of second transmission gear.
As being further improved for this technology, the elastic strength that spring is triggered in above-mentioned position-limit mechanism is the first compressed spring
2 times of elastic strength.
As being further improved for this technology, above-mentioned triggering spring is compressed spring.
As being further improved for this technology, the above-mentioned position-limit mechanism as between fixed disk and the first transmission mechanism is four
A alternative is three;The replacement side for being four as the position-limit mechanism between the second trembling mechanism and the first transmission mechanism
Case is three.
As being further improved for this technology, the limited block in above-mentioned position-limit mechanism in the initial state, is located at corresponding
In limit square groove in second transmission mechanism and the first transmission mechanism on ring gear.
Transmission output shaft is mounted on by output shaft hole on speed changer mounting shell in the present invention;First driving gear, the
Two driving gears and third driving gear are sequentially arranged on transmission input shaft;Pacify mounted on speed changer one end of second shaft
It is provided on a side end face of output shaft hole in dress shell;First transmission gear is mounted on by the second unidirectional ring in the second shaft, and
First transmission gear is engaged with the first driving gear;Third shaft nesting is mounted on the periphery of the second shaft;Second transmission
Gear is mounted on by the unidirectional ring of third in third shaft, and the second transmission gear is engaged with the second driving gear;4th shaft
Nesting is mounted on the periphery of third shaft;Third transmission gear is mounted on by the 4th unidirectional ring in the 4th shaft, and the
Three transmission gears are engaged with third driving gear;When the second shaft rotates, the second shaft can drive the first transmission gear to rotate;
The rotation of first transmission gear drives the rotation of the first sliding tooth wheel;The rotation of first sliding tooth wheel drives transmission output shaft rotation;When
When third shaft rotates, third shaft can drive the second transmission gear to rotate;The rotation of second transmission gear drives the second sliding tooth
Wheel rotation;The rotation of second sliding tooth wheel drives transmission output shaft rotation;When the 4th shaft rotates, the 4th shaft can drive
Three transmission gears rotate;The rotation of third transmission gear drives the rotation of third sliding tooth wheel;The rotation of third sliding tooth wheel drives speed change
Device output shaft rotates;The effect of the second unidirectional ring is designed in the present invention is, dynamic in the second driving gear or third driving gear band
When transmission output shaft rotates, transmission output shaft can drive the first sliding tooth wheel to rotate;First driving gear can drive first
Transmission gear rotates;But under the action of the second unidirectional ring, the first transmission gear will not drive the second shaft to rotate;Prevent shadow
Ring the third transmission mechanism being connect with the second shaft.The effect of the unidirectional ring of third is designed in the present invention is, gear is driven first
Or third driving gear band move transmission output shaft rotation when, transmission output shaft can drive the second sliding tooth wheel rotate;Second
Driving gear can drive the second transmission gear to rotate;But under the action of third unidirectional ring, the second transmission gear will not drive
Third shaft rotates;Prevent the second transmission mechanism for influencing to connect with third shaft.The work of the 4th unidirectional ring is designed in the present invention
With being, when the second driving gear or the first driving gear band move transmission output shaft rotation, transmission output shaft can drive the
Three sliding tooth wheels rotate;Third driving gear can drive third transmission gear to rotate;But under the action of four unidirectional rings, the
Three transmission gears will not drive the 4th shaft to rotate;Prevent the first transmission mechanism for influencing to connect with the 4th shaft.
Third transmission mechanism, ring gear are mounted on by bearing on fixed disk in the present invention;Shape star fixed frame passes through
First unidirectional ring is mounted in terminal pad;Terminal pad is mounted on the second transmission mechanism;Three first rotating shafts are circumferentially equably pacified
On shape star fixed frame;Three shape star-wheels are mounted in three first rotating shafts, and three shape star-wheels are engaged with ring gear;Too
Sun wheel is mounted in the second shaft and close to mounting disc;Sun gear is engaged with three shape star-wheels respectively;Planet carrier passes through corresponding
First unidirectional ring and corresponding terminal pad are mounted on ring gear in the second transmission mechanism and are provided on the side of T-type guide groove;When second
When ring gear in transmission mechanism is static, i.e., the shape carrier in third transmission mechanism is static;At this time in third transmission mechanism, when
When ring gear rotates, ring gear can drive three shape star-wheel rotations;Three shape star-wheel rotations drive sun gear rotation;The sun rotates
It is dynamic to drive the rotation of the second shaft.
The second transmission mechanism is similar with third transmission mechanism in the present invention, and only ring gear is not provided with the side of T-type guide groove
Square groove is limited there are four circumferentially equably being opened on face;Ring gear is mounted on by four position-limit mechanisms on the first transmission mechanism;Shape
Star fixed frame is mounted on by the first unidirectional ring in terminal pad;Terminal pad is mounted on ring gear in the first transmission mechanism and is provided with T-type
On the side of guide groove;Sun gear is mounted in third shaft and close to mounting disc;When the ring gear in the first transmission mechanism is static,
That is the shape carrier in the second transmission mechanism is static;Ring gear simultaneously in the second transmission mechanism is de- with corresponding four position-limit mechanisms
When opening;At this time in the second transmission mechanism, when ring gear rotates, ring gear can drive three shape star-wheel rotations;Three shape stars
Wheel rotation drives sun gear rotation;Sun gear rotation drives the rotation of third shaft.
The first transmission mechanism is similar with third transmission mechanism in the present invention, and only ring gear is not provided with the side of T-type guide groove
Square groove is limited there are four circumferentially equably being opened on face;Ring gear is mounted on installed on fixed disk four by four position-limit mechanisms
On a fixed block;Shape star fixed frame is mounted on by the first unidirectional ring in terminal pad;Terminal pad is mounted on fixed disk and is installed
Three fixed connecting rods on;Sun gear is mounted in the 4th shaft and close to mounting disc;Internal tooth in the first transmission mechanism
When circle is disengaged with corresponding four position-limit mechanisms;At this time in the first transmission mechanism, when ring gear rotates, ring gear can drive
Three shape star-wheel rotations;Three shape star-wheel rotations drive sun gear rotation;Sun gear rotation drives the rotation of the 4th shaft.
The effect for the first unidirectional ring being mounted in the second transmission mechanism and third transmission mechanism in the present invention is to prevent the
Ring gear rotation influences planet carrier in third transmission mechanism in two transmission mechanisms, and then influences the internal tooth in third transmission mechanism
Circle;So that driven gear ring interferes;The effect of the first unidirectional ring in the first transmission mechanism and the second transmission mechanism
It is to prevent ring gear rotation in the first transmission mechanism from influencing planet carrier in the second transmission mechanism, and then influence the second transmission mechanism
In ring gear;So that driven gear ring interferes.
For position-limit mechanism in the present invention, the one end for being oriented to U-shaped shell be mounted on the fixed block installed on fixed disk or
On ring gear in first transmission mechanism;One end of limited block has symmetrical inclined-plane;Limited block, which is mounted on, to be oriented in U-shaped shell;
Limited block does not have is equipped with the first pressure between bevelled one end and the ring gear in corresponding fixed block or the first transmission mechanism
Contracting spring;The limit for having bevelled one end on limited block and being opened on ring gear in the second transmission mechanism and third transmission mechanism
Square groove coordinates;Telescopic shell, which is mounted on limited block, not to be had on the upper side of inclined-plane one end;Flexible triggering block one end has inclined-plane;
The other end of flexible triggering block is equipped with tactile in telescopic shell, and in flexible triggering block and telescopic shell between bottom side
Send out spring;When flexible triggering block by one along the thrust of speed changer mounting shell axis direction when, due to trigger spring elasticity
Intensity is more than the first compressed spring elastic strength;So flexible triggering block will drive telescopic shell to move;Telescopic shell moves
Drive limited block movement;Limited block movement will compress corresponding first compressed spring;So that limited block is detached from the second driver
Limit square groove in structure and the first transmission mechanism on ring gear;When the first compressed spring, which is compressed to, leads limiting condition, stretch
The thrust that triggering block is subject to will make flexible triggering block towards telescopic shell medial movement.
Three square ring of elastic-friction is installed in the present invention on the inner headed face of driven gear ring one end;Driven gear ring installation is flexible
Triggering ring is installed on one side end face of friction triangle ring;The other end of driven gear ring is equipped with connecting plate;It is oriented to annulated column installation
On connecting plate;Driven gear ring is by being oriented to being fitted on the inside of speed changer mounting shell of annulated column and fixed link;Mounted on drive
Three square ring of elastic-friction and the first transmission mechanism, the second transmission mechanism on moving teeth circle and the cooperation of third transmission mechanism;It is mounted on
Triggering ring in driven gear ring and between the second transmission mechanism and the first transmission mechanism, the first transmission mechanism and fixed disk
Position-limit mechanism cooperation;Second gear is mounted on to install in driven gear ring and be oriented on the periphery of annulated column;Transmission input shaft
It is mounted on speed changer mounting shell by input shaft bore;First gear is mounted on transmission input shaft, and is pacified positioned at speed changer
It fills on the inside of shell;First gear is engaged with second gear;When transmission input shaft rotates, transmission input shaft will drive first
Gear rotates;First gear rotation drives second gear rotation;Second gear rotation, which drives, is oriented to annulated column rotation;Annulated column is oriented to turn
It is dynamic to drive driven gear ring rotation;When driven gear ring along speed changer mounting shell axis towards being equipped with one sidesway of the first transmission mechanism
When dynamic, driven gear ring can drive triggering ring and the movement of three square ring of elastic-friction;When three square ring of elastic-friction in moving process with
When transition drag ring in first transmission mechanism contacts, three square ring of elastic-friction will push transition drag ring to make transition friction
Annulus moves T-type guide block and ring gear friction;Three square ring of elastic-friction can drive transition drag ring to rotate simultaneously;Transition drag ring band
Dynamic T-type guide block is by friction so that ring gear rotation;When the velocity of rotation of ring gear and the velocity of rotation of driven gear ring reach one
In cause, driven gear ring continues to move to gradually to engage with ring gear;Due to the velocity of rotation and driven gear ring of ring gear at this time
Velocity of rotation it is consistent;So would not be because of ring gear and driven gear ring rotation speed in ring gear and driven gear ring engagement process
Degree is different and makes the teeth on ring gear and driven gear ring impaired;When moving teeth circle and at a fully engaged ring gear, driven gear ring
Ring gear will be driven to rotate;Ring gear rotation will make the first sliding tooth wheel rotate;The rotation of first sliding tooth wheel, which drives, to be become
Fast device output shaft rotation;When driven gear ring continues to move to, driven gear ring will move closer to the second transmission mechanism;It is mounted at this time
Triggering ring in driven gear ring will be with stretching in the position-limit mechanism between the second transmission mechanism and the first transmission mechanism
Contracting triggering block contacts, and then pushes the flexible triggering block;So that flexible triggering block is by a thrust;When flexible triggering block is complete
When being moved on the inside of triggering ring, the limited block in the position-limit mechanism between the second transmission mechanism and the first transmission mechanism is just
Lose the limit to ring gear in the second transmission mechanism;It is mounted on three square ring of elastic-friction in driven gear ring at this time in movement
It is just contacted with the transition drag ring in the second transmission mechanism in the process, three square ring of elastic-friction can drive in the second transmission mechanism
Transition drag ring rotation;Transition drag ring drives T-type guide block by friction so that the ring gear in the second transmission mechanism rotates;
On the velocity of rotation of the ring gear in the second transmission mechanism and the velocity of rotation of driven gear ring reach consistent, driven gear ring continues
Movement will be engaged gradually with the ring gear in the second transmission mechanism;Due to the rotation of the ring gear in the second transmission mechanism at this time
Speed is consistent with the velocity of rotation of driven gear ring;So in ring gear and driven gear ring engagement process in the second transmission mechanism just
It will not make in the second transmission mechanism because the ring gear in the second transmission mechanism is different with driven gear ring velocity of rotation
Teeth on gear ring and driven gear ring are impaired;When the moving teeth circle and at a fully engaged ring gear in the second transmission mechanism, sliding tooth
Circle will drive the ring gear in the second transmission mechanism to rotate;Ring gear rotation will make the second sliding tooth wheel rotate;Second
The rotation of sliding tooth wheel drives transmission output shaft rotation;When driven gear ring continues to move to, driven gear ring will move closer to first
Transmission mechanism;Being mounted on the triggering ring in driven gear ring at this time will be with the limit between the first transmission mechanism and fixed disk
Flexible triggering block contact in the mechanism of position, and then push the flexible triggering block;So that flexible triggering block is by a thrust;When stretching
When contracting triggering block is moved fully on the inside of triggering ring, it is mounted on the first transmission mechanism and fixes the limit in the position-limit mechanism between disk
Position block just loses the limit to ring gear in the first transmission mechanism;Three square ring of elastic-friction being mounted at this time in driven gear ring
It is just contacted with the transition drag ring in the first transmission mechanism in moving process, three square ring of elastic-friction can drive the first transmission
Transition drag ring rotation in mechanism;Transition drag ring drives T-type guide block to make the internal tooth in the first transmission mechanism by friction
Circle rotation;On the velocity of rotation of the ring gear in the first transmission mechanism and the velocity of rotation of driven gear ring reach consistent, driving
Gear ring continues to move to ring gear engagement that will be gradually and in the first transmission mechanism;Due to the internal tooth in the first transmission mechanism at this time
The velocity of rotation of circle is consistent with the velocity of rotation of driven gear ring;So the ring gear in the first transmission mechanism and driven gear ring engagement
It would not make the first driver because the ring gear in the first transmission mechanism is different with driven gear ring velocity of rotation in the process
The teeth on ring gear and driven gear ring in structure are impaired;When in the first transmission mechanism moving teeth circle and ring gear it is at a fully engaged
When, driven gear ring will drive the ring gear in the first transmission mechanism to rotate;Ring gear rotation will make third drive gear
Rotation;The rotation of third sliding tooth wheel drives transmission output shaft rotation;In the present invention when the second shaft rotates, third shaft exists
It remains static under the action of the unidirectional ring of third;4th shaft remains static under the action of four unidirectional rings;When
When three shafts rotate, the second shaft remains static under the action of the second unidirectional ring;4th shaft is in the 4th unidirectional ring
It remains static under effect;When the 4th shaft rotates, third shaft remains static under the action of third unidirectional ring;
Second shaft remains static under the action of the second unidirectional ring.
The diameter of the first driving gear is more than the diameter of the second driving gear in the present invention;The diameter of second driving gear is big
The diameter of gear is driven in third;The diameter of third transmission gear is more than the diameter of the second transmission gear;Second transmission gear
Diameter is more than the diameter of the first transmission gear;Gear first is driven to be driven by the first driving gear, the second driving gear, third
The transmission of gear, the second transmission gear and third transmission gear can change the rotating speed of transmission output shaft;Realize rotating speed work(
Energy.
Relative to traditional transmission technology, the speed changer that the present invention designs increases transition drag ring;It is rubbed by transition
Wiping ring can be in driven gear ring and corresponding ring gear engagement process so that driven gear ring and corresponding ring gear realization seamlessly transit;
It prevents from making the teeth in driven gear ring and corresponding ring gear impaired because driven gear ring is different with corresponding ring gear rotating speed, shadow
Ring transmission duty.
Description of the drawings
Fig. 1 is global facility distribution schematic diagram.
Fig. 2 is global facility internal structure floor map.
Fig. 3 is global facility internal structure schematic diagram.
Fig. 4 is speed changer mounting shell structural schematic diagram.
Fig. 5 is global facility internal structure distribution schematic diagram.
Fig. 6 is driven gear ring structural schematic diagram.
Fig. 7 is three square ring scheme of installation of elastic-friction.
Fig. 8 is transition drag ring scheme of installation.
Fig. 9 is annular gear structure schematic diagram.
Figure 10 is transition drag ring structural schematic diagram.
Figure 11 is shape star-wheel and sun gear cooperation schematic diagram.
Figure 12 is shape star-wheel scheme of installation.
Figure 13 is the first transmission gear scheme of installation.
Figure 14 is limit square groove distribution schematic diagram.
Figure 15 is position-limit mechanism scheme of installation.
Figure 16 is position-limit mechanism and limit square groove cooperation schematic diagram.
Figure 17 is position-limit mechanism structural schematic diagram.
Figure 18 is the second transmission gear scheme of installation.
Figure 19 is fixed connecting rod scheme of installation.
Figure 20 is third transmission gear scheme of installation.
Figure 21 is third transmission gear and third driving gear cooperation schematic diagram.
Figure 22 is the second transmission gear and the second driving gear cooperation schematic diagram.
Figure 23 is sun gear scheme of installation.
Figure label title:1, transmission output shaft;2, speed changer mounting shell;3, transmission input shaft;4, adjusting rod;5、
First transmission mechanism;6, the second transmission mechanism;7, third transmission mechanism;8, driven gear ring;9, output shaft hole;10, input shaft bore;
11, adjustment hole;12, fixed disk;13, first gear;14, second gear;15, ring is triggered;16, connecting plate;17, it is oriented to annulated column;
18, three square ring of elastic-friction;19, mounting disc;20, fixed link;21, transition drag ring;22, ring gear;23, T-type guide groove;24、T
Type guide block;25, sun gear;26, first rotating shaft;27, shape star-wheel;28, terminal pad;29, the first unidirectional ring;30, shape star fixed frame;
31, the second shaft;32, the first driving gear;33, the first transmission gear;34, the second unidirectional ring;35, square groove is limited;36, it limits
Mechanism;37, the first compressed spring;38, limited block;39, it is oriented to U-shaped shell;40, flexible triggering block;41, spring is triggered;42, it stretches
Shell;43, third shaft;44, the unidirectional ring of third;45, the second transmission gear;46, fixed block;47, fixed connecting rod;48,
Four unidirectional rings;49, third transmission gear;50, the second driving gear;51, third drives gear;52, the 4th shaft.
Specific implementation mode
As shown in Figure 1, it includes transmission output shaft 1, speed changer mounting shell 2, transmission input shaft 3, adjustment hole 11,
One transmission mechanism 5, the second transmission mechanism 6, third transmission mechanism 7, driven gear ring 8, output shaft hole 9, input shaft bore 10, fixed disk
12, first gear 13, second gear 14, triggering ring 15, connecting plate 16, guiding annulated column 17, three square ring 18 of elastic-friction, fixed disk
12, fixed link 20, terminal pad 28, the first unidirectional ring 29, the second shaft 31, first driving gear 32, the first transmission gear 33, the
The unidirectional ring 44 of two unidirectional rings 34, position-limit mechanism 36, third shaft 43, third, the second transmission gear 45, fixed block 46, fixed company
Extension bar 47, the 4th unidirectional ring 48, third transmission gear 49, second drive gear 50, third driving gear 51, the 4th shaft 52,
Wherein as shown in figure 4, the both ends of speed changer mounting shell 2 have output shaft hole 9, input shaft bore 10 and adjustment hole 11;Input
Axis hole 10 and adjustment hole 11 are located at homonymy;Transmission output shaft 1 is mounted on by output shaft hole 9 on speed changer mounting shell 2;Such as figure
Shown in 2, the first driving gear 32, second drives gear 50 and third driving gear 51 to be sequentially arranged on transmission input shaft 3,
And first drives output shaft hole 9 of the gear 32 on speed changer mounting shell 2;First driving gear 32, second drives gear 50
It is located in speed changer mounting shell 2 with third driving gear 51;One end of second shaft 31 is mounted in speed changer mounting shell 2 and is provided with
On one side end face of output shaft hole 9;As shown in Figure 13,23, the first transmission gear 33 is mounted on second by the second unidirectional ring 34
In shaft 31, as shown in figure 21, and the first transmission gear 33 is engaged with the first driving gear 32;As shown in figure 13, third shaft
43 is nested on the periphery of the second shaft 31;As shown in figure 18, the second transmission gear 45 is pacified by the unidirectional ring 44 of third
In third shaft 43, as shown in figure 22, and the second transmission gear 45 is engaged with the second driving gear 50;As shown in figure 13,
4th shaft 52 is nested to be mounted on the periphery of third shaft 43;As shown in figure 20, third transmission gear 49 is single by the 4th
It is mounted in the 4th shaft 52 to ring 48, and third transmission gear 49 is engaged with third driving gear 51.
As shown in Fig. 3,5, fixed disk 12 is mounted on the inside of speed change mounting shell and fixed disk 12 drives gear close to third
51;As shown in figure 19, four fixed blocks 46 are circumferential is uniformly mounted on side of the fixed disk 12 far from third driving gear 51;
The circumferential fixed disk 12 that is uniformly mounted to of three fixed connecting rods 47 is equipped on the side of fixed block 46.
As shown in Fig. 2, the first transmission mechanism 5 is mounted on 52 outside of the 4th shaft;First transmission mechanism 5 and fixed disk 12 it
Between circumferential equably installation there are three position-limit mechanisms 36;Second transmission mechanism 6 is mounted on 43 outside of third shaft;Second driver
There are three position-limit mechanisms 36 for circumferential equably installation between structure 6 and the first transmission mechanism 5;And second transmission mechanism 6 and first pass
It is connected by terminal pad 28 and the first unidirectional ring 29 between motivation structure 5;Third transmission mechanism 7 is mounted on 31 outside of the second shaft;
It is connected by terminal pad 28 and the first unidirectional ring 29 between second transmission mechanism 6 and the first transmission mechanism 5;Mounting disc 19 is mounted on
The other end of second shaft 31;Mounting disc 19 coordinates with third transmission mechanism 7;One end of fixed link 20 is mounted on mounting disc 19
On, the other end of fixed link 20, which is mounted in speed changer mounting shell 2, to be provided on 10 1 side end face of input shaft bore.
As shown in Figure 6,7, three square ring 18 of elastic-friction is installed on the inner headed face of 8 one end of driven gear ring;Driven gear ring 8 is pacified
Triggering ring 15 is installed on the side end face equipped with three square ring 18 of elastic-friction;The other end of driven gear ring 8 is equipped with connecting plate
16;Annulated column 17 is oriented to be mounted on connecting plate 16;As shown in figure 3, driven gear ring 8 is by being oriented to matching for annulated column 17 and fixed link 20
It closes and is mounted on 2 inside of speed changer mounting shell;Three square ring 18 of elastic-friction and the first transmission mechanism 5 in driven gear ring 8,
Second transmission mechanism 6 and third transmission mechanism 7 coordinate;Triggering ring 15 in driven gear ring 8 is driven with mounted on second
Position-limit mechanism 36 between mechanism 6 and the first transmission mechanism 5, the first transmission mechanism 5 and fixed disk 12 coordinates;Second gear 14 is pacified
It installs and is oriented on the periphery of annulated column 17 in driven gear ring 8;As shown in figure 5, transmission input shaft 3 passes through input shaft bore
10 are mounted on speed changer mounting shell 2;First gear 13 is mounted on transmission input shaft 3, and in speed changer mounting shell 2
Side;First gear 13 is engaged with second gear 14.
As shown in figure 11, above-mentioned third transmission mechanism 7 is led including transition drag ring 21, ring gear 22, T-type guide groove 23, T-type
Block 24, sun gear 25, first rotating shaft 26, shape star-wheel 27, shape star fixed frame 30, wherein as shown in figure 9, the one side of ring gear 22
On be provided with T-type guide groove 23;As shown in figure 8, ring gear 22 is mounted on by bearing on fixed disk 12;As shown in figure 8, T-type guide block
24 with T-type guide groove 23 on ring gear 22 by being fitted on ring gear 22;As shown in Figure 10, transition drag ring 21 is installed
On T-type guide block 24, there is inclined-plane, the periphery of transition drag ring 21 and the periphery of internal gear are matched on transition drag ring 21
It closes;Transition drag ring 21 coordinates with three square ring 18 of elastic-friction in driven gear ring 8;As shown in Fig. 2, shape star fixed frame
30 are mounted on by the first unidirectional ring 29 in terminal pad 28;Terminal pad 28 is mounted on the second transmission mechanism 6;As shown in figure 12,
Three first rotating shafts 26 are circumferential to be uniformly mounted on shape star fixed frame 30;Three shape star-wheels 27 are mounted on three first rotating shafts 26
On, and three shape star-wheels 27 are engaged with ring gear 22;As shown in figure 13, sun gear 25 is mounted in the second shaft 31 and close
Mounting disc 19;As shown in figure 11, sun gear 25 is engaged with three shape star-wheels 27 respectively.
Above-mentioned second transmission mechanism 6 and third transmission mechanism 7 are similar, and as shown in figure 14, only ring gear 22 is not provided with T-type
Square groove 35 is limited there are four circumferentially equably being opened on the one side of guide groove 23;As shown in Fig. 3,15, ring gear 22 is limited by four
Position mechanism 36 is mounted on the first transmission mechanism 5;Shape star fixed frame 30 is mounted on by the first unidirectional ring 29 in terminal pad 28;Even
Disk 28 is connect on the first transmission mechanism 5;Sun gear 25 is mounted in third shaft 43 and close to mounting disc 19;Third is driven
Planet carrier in mechanism 7 is provided with T-type mounted on ring gear 22 by corresponding first unidirectional ring 29 and corresponding terminal pad 28 and leads
On the side of slot 23.
Above-mentioned first transmission mechanism 5 and third transmission mechanism 7 are similar, and only ring gear 22 is not provided with the one of T-type guide groove 23
Square groove 35 is limited there are four circumferentially equably being opened on side;Ring gear 22 is mounted on by four position-limit mechanisms 36 on fixed disk 12
On four fixed blocks 46 installed;Shape star fixed frame 30 is mounted on by the first unidirectional ring 29 in terminal pad 28;Terminal pad 28
On three fixed connecting rods 47 installed on fixed disk 12;Sun gear 25 is mounted in the 4th shaft 52 and close to peace
Sabot 19;Planet carrier in second transmission mechanism 6 is mounted on interior by corresponding first unidirectional ring 29 and corresponding terminal pad 28
Gear ring 22 is provided on the side of T-type guide groove 23.
As shown in figure 17, above-mentioned position-limit mechanism 36 includes the first compressed spring 37, limited block 38, is oriented to U-shaped shell 39, is flexible
Triggering block 40, triggering spring 41, telescopic shell 42, wherein as shown in Fig. 3,19, the one end for being oriented to U-shaped shell 39 is mounted on fixed disk
On ring gear 22 on the fixed block 46 installed on 12 or in the first transmission mechanism 5;As shown in figure 17, one end of limited block 38
With symmetrical inclined-plane;Limited block 38, which is mounted on, to be oriented in U-shaped shell 39;Limited block 38 do not have bevelled one end with it is corresponding solid
Determine that first compressed spring 37 is installed between the ring gear 22 in block 46 or the first transmission mechanism 5;As shown in figure 16, limited block 38
Match with the limit square groove 35 opened on ring gear 22 in the second transmission mechanism 6 and third transmission mechanism 7 upper bevelled one end of tool
It closes;Telescopic shell 42, which is mounted on limited block 38, not to be had on the upper side of inclined-plane one end;Flexible 40 one end of triggering block has inclined-plane;
The other end of flexible triggering block 40 is mounted in telescopic shell 42, and in flexible triggering block 40 and telescopic shell 42 between bottom side
Triggering spring 41 is installed;Inclined-plane in flexible triggering block 40 coordinates with the triggering ring 15 in driven gear ring 8.
Above-mentioned adjusting rod 4 is mounted on by adjustment hole 11 on speed changer mounting shell 2, and adjusting rod 4 is connect with connecting plate 16.
The diameter of above-mentioned first driving gear 32 is more than the diameter of the second driving gear 50;The diameter of second driving gear 50
More than the diameter that third drives gear 51;The diameter of third transmission gear 49 is more than the diameter of the second transmission gear 45;Second passes
The diameter of moving gear 45 is more than the diameter of the first transmission gear 33;The elastic strength that spring 41 is triggered in position-limit mechanism 36 is more than the
One compressed spring, 37 elastic strength.
3 times of a diameter of third driving 51 diameter of gear of above-mentioned first driving gear 32;Second drives the straight of gear 50
Diameter is 2 times that third drives 51 diameter of gear;3 times of a diameter of first transmission gear, 33 diameter of third transmission gear 49;The
2 times of a diameter of first transmission gear, 33 diameter of two transmission gears 45.
The elastic strength that spring 41 is triggered in above-mentioned position-limit mechanism 36 is 2 times of 37 elastic strength of the first compressed spring.
Above-mentioned triggering spring 41 is compressed spring.
The alternative that the above-mentioned position-limit mechanism 36 as between fixed 12 and first transmission mechanism 5 of disk is four is three
It is a;The alternative for being four as the position-limit mechanism 36 between the second trembling mechanism and the first transmission mechanism 5 is three.
Limited block 38 in above-mentioned position-limit mechanism 36 in the initial state, is located at corresponding second transmission mechanism 6 and first
In limit square groove 35 in transmission mechanism 5 on ring gear 22.
In summary:
The speed changer that the present invention designs increases transition drag ring 21;It can be in driven gear ring 8 by transition drag ring 21
It is seamlessly transitted with making that driven gear ring 8 is realized with corresponding ring gear 22 in corresponding 22 engagement process of ring gear;It prevents because of driving
Gear ring 8 is different with corresponding 22 rotating speed of ring gear and makes the teeth in driven gear ring 8 and corresponding ring gear 22 impaired, influences speed change
Device works.
Transmission output shaft 1 is mounted on by output shaft hole 9 on speed changer mounting shell 2 in the present invention;First driving gear
32, the second driving gear 50 and third driving gear 51 are sequentially arranged on transmission input shaft 3;Pacify one end of second shaft 31
It is provided in speed changer mounting shell 2 on a side end face of output shaft hole 9;First transmission gear 33 is pacified by the second unidirectional ring 34
In the second shaft 31, and the first transmission gear 33 is engaged with the first driving gear 32;Third shaft 43 is nested to be mounted on the
On the periphery of two shafts 31;Second transmission gear 45 is mounted on by the unidirectional ring 44 of third in third shaft 43, and second passes
Moving gear 45 is engaged with the second driving gear 50;4th shaft 52 is nested to be mounted on the periphery of third shaft 43;Third passes
Moving gear 49 is mounted on by the 4th unidirectional ring 48 in the 4th shaft 52, and third transmission gear 49 is nibbled with third driving gear 51
It closes;When the second shaft 31 rotates, the second shaft 31 can drive the first transmission gear 33 to rotate;First transmission gear 33 rotates band
Dynamic first driving gear 32 rotates;The first driving rotation of gear 32 drives transmission output shaft 1 to rotate;When third shaft 43 rotates
When, third shaft 43 can drive the second transmission gear 45 to rotate;The rotation of second transmission gear 45 drives the second 50 turns of gear of driving
It is dynamic;The second driving rotation of gear 50 drives transmission output shaft 1 to rotate;When the 4th shaft 52 rotates, the 4th shaft 52 can band
Dynamic third transmission gear 49 rotates;The rotation of third transmission gear 49 drives third driving gear 51 to rotate;Third drives gear 51
Rotation drives transmission output shaft 1 to rotate;In the present invention design the second unidirectional ring 34 effect be, second driving gear 50 or
When third drives gear 51 that transmission output shaft 1 is driven to rotate, transmission output shaft 1 can drive the first driving gear 32 to rotate;
First driving gear 32 can drive the first transmission gear 33 to rotate;But under the action of the second unidirectional ring 34, the first driving cog
Wheel 33 will not drive the second shaft 31 to rotate;Prevent the third transmission mechanism 7 for influencing to connect with the second shaft 31.It is set in the present invention
The effect of the unidirectional ring of meter third 44 is to drive transmission output shaft 1 to rotate in the first driving gear 32 or third driving gear 51
When, transmission output shaft 1 can drive the second driving gear 50 to rotate;Second driving gear 50 can drive 45 turns of the second transmission gear
It is dynamic;But under the action of third unidirectional ring 44, the second transmission gear 45 will not drive third shaft 43 to rotate;Prevent influence with
The second transmission mechanism 6 that third shaft 43 connects.The effect of the 4th unidirectional ring 48 is designed in the present invention is, gear is driven second
50 or first driving gear 32 drive transmission output shaft 1 rotate when, transmission output shaft 1 can drive third drive 51 turns of gear
It is dynamic;Third driving gear 51 can drive third transmission gear 49 to rotate;But under the action of the 4th unidirectional ring 48, third transmission
Gear 49 will not drive the 4th shaft 52 to rotate;Prevent the first transmission mechanism 5 for influencing to connect with the 4th shaft 52.
Third transmission mechanism 7, ring gear 22 are mounted on by bearing on fixed disk 12 in the present invention;Shape star fixed frame
30 are mounted on by the first unidirectional ring 29 in terminal pad 28;Terminal pad 28 is mounted on the second transmission mechanism 6;Three first rotating shafts
26 are circumferentially uniformly mounted on shape star fixed frame 30;Three shape star-wheels 27 are mounted in three first rotating shafts 26, and three shapes
Star-wheel 27 is engaged with ring gear 22;Sun gear 25 is mounted in the second shaft 31 and close to mounting disc 19;Sun gear 25 is distinguished
It is engaged with three shape star-wheels 27;Planet carrier is mounted on the second transmission by corresponding first unidirectional ring 29 and corresponding terminal pad 28
Ring gear 22 is provided on the side of T-type guide groove 23 in mechanism 6;When the ring gear 22 in the second transmission mechanism 6 is static, i.e. third
Shape carrier in transmission mechanism 7 is static;At this time in third transmission mechanism 7, when ring gear 22 rotates, ring gear 22 can drive
Three shape star-wheels 27 rotate;Three rotations of shape star-wheel 27 drive sun gear 25 to rotate;The rotation of sun gear 25 drives the second shaft 31
Rotation.
The second transmission mechanism 6 and third transmission mechanism 7 are similar in the present invention, and only ring gear 22 is not provided with T-type guide groove 23
One side on circumferential equably open that there are four limit square groove 35;Ring gear 22 is mounted on first by four position-limit mechanisms 36 and passes
On motivation structure 5;Shape star fixed frame 30 is mounted on by the first unidirectional ring 29 in terminal pad 28;Terminal pad 28 is mounted on the first transmission
Ring gear 22 is provided on the side of T-type guide groove 23 in mechanism 5;Sun gear 25 is mounted in third shaft 43 and close to mounting disc
19;When the ring gear 22 in the first transmission mechanism 5 is static, i.e. shape carrier in the second transmission mechanism 6 is static;Second transmission simultaneously
When ring gear 22 in mechanism 6 is disengaged with corresponding four position-limit mechanisms 36;At this time in the second transmission mechanism 6, work as ring gear
When 22 rotation, ring gear 22 can drive three shape star-wheels 27 to rotate;Three rotations of shape star-wheel 27 drive sun gear 25 to rotate;The sun
25 rotation of wheel drives third shaft 43 to rotate.
The first transmission mechanism 5 and third transmission mechanism 7 are similar in the present invention, and only ring gear 22 is not provided with T-type guide groove 23
One side on circumferential equably open that there are four limit square groove 35;Ring gear 22 is mounted on fixed disk by four position-limit mechanisms 36
On four fixed blocks 46 installed on 12;Shape star fixed frame 30 is mounted on by the first unidirectional ring 29 in terminal pad 28;Connection
Disk 28 is mounted on three fixed connecting rods 47 installed on fixed disk 12;Sun gear 25 is mounted in the 4th shaft 52 and leans on
Nearly mounting disc 19;When the ring gear 22 in the first transmission mechanism 5 is disengaged with corresponding four position-limit mechanisms 36;At this time first
In transmission mechanism 5, when ring gear 22 rotates, ring gear 22 can drive three shape star-wheels 27 to rotate;Three shape star-wheels 27 rotate
Sun gear 25 is driven to rotate;The rotation of sun gear 25 drives the rotation of the 4th shaft 52.
The effect for the first unidirectional ring 29 being mounted in the second transmission mechanism 6 and third transmission mechanism 7 in the present invention is to prevent
Only the rotation of ring gear 22 influences planet carrier in third transmission mechanism 7 in the second transmission mechanism 6, and then influences third transmission mechanism 7
In ring gear 22;So that driven gear ring 8 interferes;First in the first transmission mechanism 5 and the second transmission mechanism 6
The effect of unidirectional ring 29 is to prevent the rotation of ring gear 22 in the first transmission mechanism 5 from influencing planet carrier in the second transmission mechanism 6, into
And influence the ring gear 22 in the second transmission mechanism 6;So that driven gear ring 8 interferes.
For position-limit mechanism 36 in the present invention, the one end for being oriented to U-shaped shell 39 is mounted on the fixation installed on fixed disk 12
On ring gear 22 on block 46 or in the first transmission mechanism 5;One end of limited block 38 has symmetrical inclined-plane;Limited block 38 is installed
It is being oriented in U-shaped shell 39;Limited block 38 do not have bevelled one end with it is interior in corresponding fixed block 46 or the first transmission mechanism 5
First compressed spring 37 is installed between gear ring 22;Have bevelled one end and the second transmission mechanism 6 and third on limited block 38
The limit square groove 35 opened on ring gear 22 in transmission mechanism 7 coordinates;Telescopic shell 42, which is mounted on limited block 38, does not have inclined-plane
On the upper side of one end;Flexible 40 one end of triggering block has inclined-plane;The other end of flexible triggering block 40 is mounted on telescopic shell 42
It is interior, and triggering spring 41 is installed in flexible triggering block 40 and telescopic shell 42 between bottom side;When flexible triggering block 40 by
One along the thrust of 2 axis direction of speed changer mounting shell when, due to triggering spring 41 elastic strength be more than the first compressed spring
37 elastic strengths;So flexible triggering block 40 will drive telescopic shell 42 to move;The movement of telescopic shell 42 drives limited block 38
It is mobile;38 movement of limited block will compress corresponding first compressed spring 37;So that limited block 38 is detached from 6 He of the second transmission mechanism
Limit square groove 35 in first transmission mechanism 5 on ring gear 22;When the first compressed spring 37, which is compressed to, leads limiting condition, stretch
The thrust that contracting triggering block 40 is subject to will make flexible triggering block 40 towards 42 medial movement of telescopic shell.
Three square ring 18 of elastic-friction is installed in the present invention on the inner headed face of 8 one end of driven gear ring;Driven gear ring 8 is equipped with
Triggering ring 15 is installed on one side end face of three square ring 18 of elastic-friction;The other end of driven gear ring 8 is equipped with connecting plate 16;It leads
It is mounted on connecting plate 16 to annulated column 17;Driven gear ring 8 is fitted to speed changer by be oriented to annulated column 17 and fixed link 20
2 inside of mounting shell;Three square ring 18 of elastic-friction in driven gear ring 8 and the first transmission mechanism 5, the second transmission mechanism 6
Coordinate with third transmission mechanism 7;Triggering ring 15 in driven gear ring 8 is passed with mounted on the second transmission mechanism 6 and first
Position-limit mechanism 36 between motivation structure 5, the first transmission mechanism 5 and fixed disk 12 coordinates;Second gear 14 is mounted on driven gear ring 8
Upper install is oriented on the periphery of annulated column 17;Transmission input shaft 3 is mounted on speed changer mounting shell 2 by input shaft bore 10
On;First gear 13 is mounted on transmission input shaft 3, and positioned at 2 inside of speed changer mounting shell;First gear 13 and the second tooth
14 engagement of wheel;When transmission input shaft 3 rotates, transmission input shaft 3 will drive first gear 13 to rotate;First gear 13
Rotation drives second gear 14 to rotate;The rotation of second gear 14, which drives, is oriented to the rotation of annulated column 17;It is oriented to the rotation of annulated column 17 and drives drive
Moving teeth circle 8 rotates;When driven gear ring 8 is moved along 2 axis of speed changer mounting shell towards 5 side of the first transmission mechanism is equipped with
When, driven gear ring 8 can drive triggering ring 15 and the movement of three square ring 18 of elastic-friction;When three square ring 18 of elastic-friction is in moving process
In when being contacted with the transition drag ring 21 in the first transmission mechanism 5, three square ring 18 of elastic-friction will push transition drag ring 21
So that transition drag ring 21 drives T-type guide block 24 to rub with ring gear 22;Three square ring 18 of elastic-friction can drive transition to rub simultaneously
Ring 21 is wiped to rotate;Transition drag ring 21 drives T-type guide block 24 by friction so that ring gear 22 rotates;When the rotation of ring gear 22
On the velocity of rotation of speed and driven gear ring 8 reaches consistent, driven gear ring 8 continues to move to gradually to engage with ring gear 22;
Since the velocity of rotation of velocity of rotation with driven gear ring 8 of ring gear 22 is consistent at this time;So ring gear 22 and driven gear ring 8 are nibbled
It would not make on ring gear 22 and driven gear ring 8 because ring gear 22 is different with 8 velocity of rotation of driven gear ring during conjunction
Teeth it is impaired;When moving teeth circle and at a fully engaged ring gear 22, driven gear ring 8 will drive ring gear 22 to rotate;Ring gear
22 rotations will make the first driving gear 32 rotate;The first driving rotation of gear 32 drives transmission output shaft 1 to rotate;Driving
When gear ring 8 continues to move to, driven gear ring 8 will move closer to the second transmission mechanism 6;It is mounted on touching in driven gear ring 8 at this time
Hair ring 15 will be with the flexible triggering block in the position-limit mechanism 36 between the second transmission mechanism 6 and the first transmission mechanism 5
40 contacts, and then push the flexible triggering block 40;So that flexible triggering block 40 is by a thrust;When flexible triggering block 40 is complete
When being moved to triggering 15 inside of ring, the limit in the position-limit mechanism 36 between the second transmission mechanism 6 and the first transmission mechanism 5
Position block 38 just loses the limit to ring gear 22 in the second transmission mechanism 6;The elastic-friction being mounted at this time in driven gear ring 8
Three square rings 18 just contact in moving process with the transition drag ring 21 in the second transmission mechanism 6, three square ring 18 of elastic-friction
The transition drag ring 21 in the second transmission mechanism 6 can be driven to rotate;Transition drag ring 21 drives T-type guide block 24 to make by friction
Ring gear 22 in second transmission mechanism 6 rotates;When the velocity of rotation and driven gear ring of the ring gear 22 in the second transmission mechanism 6
On 8 velocity of rotation reaches consistent, driven gear ring 8 continues to move to gradually to nibble with the ring gear 22 in the second transmission mechanism 6
It closes;Since the velocity of rotation of the ring gear 22 in the second transmission mechanism 6 at this time is consistent with the velocity of rotation of driven gear ring 8;So
It would not be because of the internal tooth in the second transmission mechanism 6 in 8 engagement process of ring gear 22 and driven gear ring in second transmission mechanism 6
Circle 22 is different with 8 velocity of rotation of driven gear ring and makes the teeth on the ring gear 22 and driven gear ring 8 in the second transmission mechanism 6
It is impaired;When the moving teeth circle and at a fully engaged ring gear 22 in the second transmission mechanism 6, driven gear ring 8 will drive the second transmission
Ring gear 22 in mechanism 6 rotates;The rotation of ring gear 22 will make the second driving gear 50 rotate;Second 50 turns of gear of driving
It is dynamic that transmission output shaft 1 is driven to rotate;When driven gear ring 8 continues to move to, driven gear ring 8 will move closer to the first transmission mechanism
5;Being mounted on the triggering ring 15 in driven gear ring 8 at this time will be with the limit between the first transmission mechanism 5 and fixed disk 12
Flexible triggering block 40 in the mechanism 36 of position contacts, and then pushes the flexible triggering block 40;So that flexible triggering block 40 is by one
Thrust;When flexible triggering block 40 is moved fully to triggering 15 inside of ring, it is mounted between the first transmission mechanism 5 and fixed disk 12
Position-limit mechanism 36 in limited block 38 just lose the limit to ring gear 22 in the first transmission mechanism 5;It is mounted on and drives at this time
Three square ring 18 of elastic-friction on moving teeth circle 8 just connects in moving process with the transition drag ring 21 in the first transmission mechanism 5
It touches, three square ring 18 of elastic-friction can drive the transition drag ring 21 in the first transmission mechanism 5 to rotate;Transition drag ring 21 drives T
Type guide block 24 is by friction so that the ring gear 22 in the first transmission mechanism 5 rotates;Ring gear 22 in the first transmission mechanism 5
Velocity of rotation and driven gear ring 8 velocity of rotation reach consistent on, driven gear ring 8 continues to move to will gradually and the first transmission
Ring gear 22 in mechanism 5 engages;Due to the velocity of rotation and driven gear ring 8 of the ring gear 22 in the first transmission mechanism 5 at this time
Velocity of rotation it is consistent;So would not be because of in 8 engagement process of ring gear 22 and driven gear ring in the first transmission mechanism 5
Ring gear 22 in one transmission mechanism 5 is different with 8 velocity of rotation of driven gear ring and makes the ring gear 22 in the first transmission mechanism 5
It is impaired with the teeth in driven gear ring 8;When the moving teeth circle and at a fully engaged ring gear 22 in the first transmission mechanism 5, sliding tooth
Circle 8 will drive the ring gear 22 in the first transmission mechanism 5 to rotate;The rotation of ring gear 22 will make third drive 51 turns of gear
It is dynamic;Third drives the rotation of gear 51 that transmission output shaft 1 is driven to rotate;In the present invention when the second shaft 31 rotates, third turns
Axis 43 remains static under the action of third unidirectional ring 44;4th shaft 52 is under the action of the 4th unidirectional ring 48 in quiet
Only state;When third shaft 43 rotates, the second shaft 31 remains static under the action of the second unidirectional ring 34;4th turn
Axis 52 remains static under the action of the 4th unidirectional ring 48;When the 4th shaft 52 rotates, third shaft 43 is in third list
It remains static under the action of to ring 44;Second shaft 31 remains static under the action of the second unidirectional ring 34.
The diameter of the first driving gear 32 is more than the diameter of the second driving gear 50 in the present invention;Second driving gear 50
Diameter is more than the diameter of third driving gear 51;The diameter of third transmission gear 49 is more than the diameter of the second transmission gear 45;The
The diameter of two transmission gears 45 is more than the diameter of the first transmission gear 33;By first driving gear 32, second drive gear 50,
The transmission of third driving gear 51 first transmission gear 33, the second transmission gear 45 and third transmission gear 49 can change speed change
The rotating speed of device output shaft 1;Realize rotating speed functions.
Specific implementation mode:When the speed changer that people are designed using the present invention, when transmission input shaft 3 rotates, become
Fast device input shaft 3 will drive first gear 13 to rotate;The rotation of first gear 13 drives second gear 14 to rotate;Second gear 14
Rotation, which drives, is oriented to the rotation of annulated column 17;Being oriented to the rotation of annulated column 17 drives driven gear ring 8 to rotate;Meanwhile it being adjusted and being driven by adjusting rod 4
The amount of movement of moving teeth circle 8;And then to control driven gear ring 8 and the first transmission mechanism 5, the second transmission mechanism 6 and third driver
The meshing relation of structure 7;And then to control the rotation feelings of the first transmission gear 33, the second transmission gear 45 and third transmission gear 49
Condition;The velocity of rotation of transmission output shaft 1 is automatically adjusted by adjusting rod 4.
Claims (6)
1. a kind of speed changer adjusted manually, it is characterised in that:It includes transmission output shaft, speed changer mounting shell, speed changer
Input shaft, adjustment hole, the first transmission mechanism, the second transmission mechanism, third transmission mechanism, driven gear ring, output shaft hole, input shaft
Hole, first gear, second gear, triggering ring, connecting plate, is oriented to annulated column, three square ring of elastic-friction, fixed disk, fixation at fixed disk
Bar, terminal pad, the first unidirectional ring, the second shaft, first driving gear, the first transmission gear, the second unidirectional ring, position-limit mechanism,
The unidirectional ring of third shaft, third, the second transmission gear, fixed block, fixed connecting rod, the 4th unidirectional ring, third transmission gear,
Two driving gears, third driving gear, the 4th shaft, the both ends of wherein speed changer mounting shell have output shaft hole, input
Axis hole and adjustment hole;Input shaft bore and adjustment hole are located at the same side;Transmission output shaft is mounted on speed changer by output shaft hole
On mounting shell;First driving gear, the second driving gear and third driving gear are sequentially arranged on transmission input shaft, and the
Output shaft hole of the one driving gear on speed changer mounting shell;First driving gear, the second driving gear and third sliding tooth
Wheel is located in speed changer mounting shell;One end of second shaft is mounted on the side end face that output shaft hole is provided in speed changer mounting shell
On;First transmission gear is mounted on by the second unidirectional ring in the second shaft, and the first transmission gear is nibbled with the first driving gear
It closes;Third shaft nesting is mounted on the periphery of the second shaft;Second transmission gear is mounted on third by the unidirectional ring of third
In shaft, and the second transmission gear is engaged with the second driving gear;4th shaft nesting is mounted on the periphery of third shaft;
Third transmission gear is mounted on by the 4th unidirectional ring in the 4th shaft, and third transmission gear is engaged with third driving gear;
Fixed disk is mounted on the inside of speed change mounting shell and fixed disk drives gear close to third;Four fixed blocks are circumferential equably
It is driven on the side of gear far from third mounted on fixed disk;Three fixed connecting rods are circumferentially uniformly mounted to fixed disk installation
Have on the side of fixed block;
First transmission mechanism is mounted on the outside of the 4th shaft;It is circumferential between first transmission mechanism and fixed disk to be equably equipped with three
A position-limit mechanism;Second transmission mechanism is mounted on the outside of third shaft;It is circumferential between second transmission mechanism and the first transmission mechanism
Equably there are three position-limit mechanisms for installation;And second is unidirectional by terminal pad and first between transmission mechanism and the first transmission mechanism
Ring connects;Third transmission mechanism is mounted on the outside of the second shaft;Pass through connection between second transmission mechanism and the first transmission mechanism
Disk and the first unidirectional ring connection;Mounting disc is mounted on the other end of the second shaft;Mounting disc coordinates with third transmission mechanism;It is fixed
One end of bar is mounted in mounting disc, and the other end of fixed link, which is mounted in speed changer mounting shell, is provided with one side end face of input shaft bore
On;
Three square ring of elastic-friction is installed on the inner headed face of driven gear ring one end;Driven gear ring is equipped with three square ring of elastic-friction
Triggering ring is installed on one side end face;The other end of driven gear ring is equipped with connecting plate;Annulated column is oriented to be mounted on connecting plate;It drives
Moving teeth circle is by being oriented to being fitted on the inside of speed changer mounting shell of annulated column and fixed link;Elasticity in driven gear ring
Friction triangle ring and the first transmission mechanism, the second transmission mechanism and third transmission mechanism coordinate;Touching in driven gear ring
Hair ring and the position-limit mechanism between the second transmission mechanism and the first transmission mechanism, the first transmission mechanism and fixed disk are matched
It closes;Second gear is mounted on to install in driven gear ring and be oriented on the periphery of annulated column;Transmission input shaft passes through input shaft bore
On speed changer mounting shell;First gear is mounted on transmission input shaft, and on the inside of speed changer mounting shell;First
Gear is engaged with second gear;
Above-mentioned third transmission mechanism includes transition drag ring, ring gear, T-type guide groove, T-type guide block, sun gear, first rotating shaft, shape
Star-wheel, shape star fixed frame, are wherein provided with T-type guide groove on the one side of ring gear;Ring gear is mounted on by bearing on fixed disk;
T-type guide block with T-type guide groove on ring gear by being fitted on ring gear;Transition drag ring is mounted on T-type guide block, mistake
Crossing has inclined-plane on drag ring, the periphery of transition drag ring and the periphery of internal gear coordinate;Transition drag ring be mounted on
Three square ring of elastic-friction cooperation in driven gear ring;Shape star fixed frame is mounted on by the first unidirectional ring in terminal pad;Terminal pad
On the second transmission mechanism;Three first rotating shafts are circumferentially uniformly mounted on shape star fixed frame;Three shape star-wheel installations
In three first rotating shafts, and three shape star-wheels are engaged with ring gear;Sun gear is mounted in the second shaft and close to installation
Disk;Sun gear is engaged with three shape star-wheels respectively;
Above-mentioned second transmission mechanism is similar with third transmission mechanism, and only ring gear is not provided on the one side of T-type guide groove circumferential
Square groove is limited there are four equably opening;Ring gear is mounted on by four position-limit mechanisms on the first transmission mechanism;Shape star fixed frame
It is mounted in terminal pad by the first unidirectional ring;Terminal pad is mounted on the first transmission mechanism;Sun gear is mounted on third shaft
Upper and close mounting disc;Planet carrier in third transmission mechanism is mounted on by corresponding first unidirectional ring and corresponding terminal pad
Ring gear is provided on the side of T-type guide groove;
Above-mentioned first transmission mechanism is similar with third transmission mechanism, and only ring gear is not provided on the one side of T-type guide groove circumferential
Square groove is limited there are four equably opening;Ring gear is mounted on four fixed blocks installed on fixed disk by four position-limit mechanisms
On;Shape star fixed frame is mounted on by the first unidirectional ring in terminal pad;It is solid that terminal pad is mounted on three installed on fixed disk
Determine in connecting rod;Sun gear is mounted in the 4th shaft and close to mounting disc;Planet carrier in second transmission mechanism passes through correspondence
The first unidirectional ring and corresponding terminal pad be provided on the side of T-type guide groove mounted on ring gear;
Above-mentioned position-limit mechanism includes the first compressed spring, limited block, is oriented to U-shaped shell, flexible triggering block, triggers spring, is flexible outer
Shell, wherein the one end for being oriented to U-shaped shell is mounted on the ring gear on the fixed block installed on fixed disk or in the first transmission mechanism
On;One end of limited block has symmetrical inclined-plane;Limited block, which is mounted on, to be oriented in U-shaped shell;Limited block does not have bevelled one end
The first compressed spring is installed between the ring gear in corresponding fixed block or the first transmission mechanism;There is inclined-plane on limited block
One end and the second transmission mechanism and third transmission mechanism in the limit square groove opened on ring gear coordinate;Telescopic shell is mounted on
Limited block is not on the upper side with inclined-plane one end;Flexible triggering block one end has inclined-plane;The other end installation of flexible triggering block
In telescopic shell, and triggering spring is installed between bottom side in flexible triggering block and telescopic shell;In flexible triggering block
Inclined-plane coordinates with the triggering ring in driven gear ring;
Above-mentioned adjusting rod is mounted on by adjustment hole on speed changer mounting shell, and adjusting rod is connect with connecting plate;
The diameter of above-mentioned first driving gear is more than the diameter of the second driving gear;The diameter of second driving gear drives more than third
The diameter of moving gear;The diameter of third transmission gear is more than the diameter of the second transmission gear;The diameter of second transmission gear is more than
The diameter of first transmission gear;The elastic strength that spring is triggered in position-limit mechanism is more than the first compressed spring elastic strength.
2. a kind of speed changer adjusted manually according to claim 1, it is characterised in that:Above-mentioned first drives the straight of gear
Diameter is 3 times that third drives gear diameter;2 times of a diameter of third driving gear diameter of second driving gear;Third is driven
3 times of a diameter of first transmission gear diameter of gear;2 times of a diameter of first transmission gear diameter of second transmission gear.
3. a kind of speed changer adjusted manually according to claim 1, it is characterised in that:Bullet is triggered in above-mentioned position-limit mechanism
The elastic strength of spring is 2 times of the first compressed spring elastic strength.
4. a kind of speed changer adjusted manually according to claim 1, it is characterised in that:Above-mentioned triggering spring is compression bullet
Spring.
5. a kind of speed changer adjusted manually according to claim 1, it is characterised in that:It is above-mentioned to be used as fixed disk and first
Position-limit mechanism between transmission mechanism is that four alternatives are three;As the second trembling mechanism and the first transmission mechanism it
Between position-limit mechanism be four alternative be three.
6. a kind of speed changer adjusted manually according to claim 1, it is characterised in that:Limit in above-mentioned position-limit mechanism
Block in the initial state, is located in the limit square groove in corresponding second transmission mechanism and the first transmission mechanism on ring gear.
Priority Applications (1)
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CN201810307181.0A CN108591384A (en) | 2018-04-08 | 2018-04-08 | A kind of speed changer adjusted manually |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201810307181.0A CN108591384A (en) | 2018-04-08 | 2018-04-08 | A kind of speed changer adjusted manually |
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Publication Number | Publication Date |
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CN108591384A true CN108591384A (en) | 2018-09-28 |
Family
ID=63621223
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CN201810307181.0A Pending CN108591384A (en) | 2018-04-08 | 2018-04-08 | A kind of speed changer adjusted manually |
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Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN204805447U (en) * | 2015-05-27 | 2015-11-25 | 向永川 | Automatic transmission |
CN107143625A (en) * | 2017-07-10 | 2017-09-08 | 泰山医学院 | A kind of parallel axes planet shift transmission |
CN107504095A (en) * | 2017-10-06 | 2017-12-22 | 东莞市松研智达工业设计有限公司 | A kind of torque limiter of the adjustable critical value based on planet carrier control |
CN107630988A (en) * | 2017-09-29 | 2018-01-26 | 东莞市松研智达工业设计有限公司 | A kind of torque clutch based on gear shift |
-
2018
- 2018-04-08 CN CN201810307181.0A patent/CN108591384A/en active Pending
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN204805447U (en) * | 2015-05-27 | 2015-11-25 | 向永川 | Automatic transmission |
CN107143625A (en) * | 2017-07-10 | 2017-09-08 | 泰山医学院 | A kind of parallel axes planet shift transmission |
CN107630988A (en) * | 2017-09-29 | 2018-01-26 | 东莞市松研智达工业设计有限公司 | A kind of torque clutch based on gear shift |
CN107504095A (en) * | 2017-10-06 | 2017-12-22 | 东莞市松研智达工业设计有限公司 | A kind of torque limiter of the adjustable critical value based on planet carrier control |
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Application publication date: 20180928 |