CN116441905A - Clamp spring loading machine for carrier roller - Google Patents

Abstract

The invention relates to a carrier roller clamp spring loading machine, which solves the technical problems of low efficiency and serious waste of manually installing clamp springs in the prior art. The invention comprises a frame, a carrier roller positioning mechanism, a mounting frame body and a clamp spring pushing mechanism. The carrier roller positioning mechanism is used for positioning the carrier roller; the mounting frame body is arranged on the frame and is provided with a mounting sleeve and a mounting sleeve driving mechanism; the clamping spring pushing mechanism comprises an arc-shaped clamping plate, and the arc-shaped clamping plate is used for clamping the clamping spring and pushing the clamping spring downwards onto the positioning block; one end of the positioning block is connected with a limiting rod, the limiting rod is connected with a limiting head, a limiting plate is fixedly arranged on the mounting frame body, and the limiting plate is used for being in stop fit with the limiting head; a spring is arranged between the positioning block and the mounting sleeve and is used for pushing the end part of the positioning block out of the mounting sleeve so as to prop open and hold the clamp spring.

Description

Clamp spring loading machine for carrier roller

Technical Field

The invention relates to the technical field of clamp spring installation equipment, in particular to a clamp spring feeding machine for a carrier roller.

Background

The carrier rollers are important parts of the belt conveyor, are various in variety and large in quantity, and can support the weight of the conveying belt and the materials. The bearing needs to be installed at the both ends of bearing, in order to avoid the bearing to take place axial movement, still need install the jump ring on the carrier roller axle of bearing, the jump ring is installed in the jump ring inslot of carrier roller axle, during the installation, often strut the jump ring through the manual work use jump ring pincers, pass the axle end card again and go into the jump ring inslot, the manual installation jump ring speed is slower, and can not guarantee at every turn to strut the jump ring to the same size, if the workman is great hard, still can lead to the jump ring to produce too big deformation, sometimes can lead to the jump ring unable elastic deformation of recovering and scrap even. In a word, manual installation jump ring not only wastes time and energy, still is difficult to guarantee the installation quality of jump ring, causes the waste of jump ring easily.

Disclosure of Invention

The invention provides a carrier roller clamp spring loading machine, which aims to solve the technical problems of low efficiency and serious waste in manual clamp spring installation in the prior art.

In order to solve the problems, the invention provides a carrier roller jump ring loading machine which adopts the following technical scheme:

a carrier roller jump ring machine, includes:

a frame;

the carrier roller positioning mechanism is used for positioning the carrier roller;

the mounting frame body is arranged on the frame, a mounting sleeve which moves back and forth along the axial direction of the carrier roller and a mounting sleeve driving mechanism which drives the mounting sleeve to move back and forth are arranged on the mounting frame body, and the mounting sleeve is used for being sleeved outside the carrier roller shaft of the carrier roller;

a positioning block is arranged in the mounting sleeve in a sliding manner along the axial direction of the carrier roller, and is used for expanding the clamp spring and keeping the clamp spring in an expanded state, and the top of the positioning block is provided with a tip so as to gradually expand the clamp spring when the clamp spring is pushed downwards;

the clamping spring pushing mechanism is arranged on the mounting frame body and comprises an arc-shaped clamping plate which is assembled on the mounting frame body in a sliding manner along the up-down direction, and the arc-shaped clamping plate is used for clamping the clamping spring and pushing the clamping spring downwards to the positioning block;

one end of the positioning block is connected with a limiting rod, the limiting rod is connected with a limiting head, the mounting frame body is fixedly provided with a limiting plate, and the limiting plate is used for being in stop fit with the limiting head so as to enable the mounting sleeve driving mechanism to drive the mounting sleeve to move relative to the positioning block and push the clamping spring away from the positioning block after the clamping spring is conveyed to the outside of the roller shaft;

springs are arranged between the positioning blocks and the mounting sleeve and/or between the limiting rods and the limiting plates, the springs are used for pushing out the end parts of the positioning blocks from the mounting sleeve to prop open and hold the clamping springs, and the positioning blocks are used for moving along with the mounting sleeve to convey the clamping springs to the outside of the carrier roller shaft.

The beneficial effects of the technical scheme are as follows: when the clamping spring clamping device is used, the arc-shaped clamping plate clamps and pushes the clamping spring to the positioning block at the end part of the mounting sleeve, the top of the positioning block is provided with the tip end so as to guide the clamping spring, the opening of the clamping spring is smoothly clamped on the positioning block, and the positioning block can keep the clamping spring in an expanded state. And then the mounting sleeve moves towards the shaft end of the carrier roller with the clamp spring until the clamp spring and the mounting sleeve can be sleeved on the carrier roller shaft, the mounting sleeve continuously moves forward, at the moment, the limiting head and the limiting plate on the limiting rod connected with the positioning block are stopped, the positioning block does not continuously move forward any more, the mounting sleeve continuously moves relative to the positioning block so as to push the clamp spring out of the positioning block onto the carrier roller shaft, the mounting sleeve continuously moves forward, and finally the clamp spring is clamped into the clamp spring groove on the carrier roller shaft. The device realizes mechanical feeding, pushing and installing of the clamp spring, and has higher clamp spring installing efficiency and better installing effect.

Further, still install jump ring storage mechanism on the mounting bracket body, jump ring storage mechanism is including being the jump ring guide rail of L shape, and a plurality of jump rings cover are established on the jump ring guide rail, and the cover is equipped with the briquetting above the jump ring at top on the jump ring guide rail, and the end of jump ring guide rail is equipped with the baffle, and the baffle is greater than the thickness dimension of a jump ring and is less than the thickness dimension of two jump rings with the terminal interval distance of jump ring guide rail.

The beneficial effects of the technical scheme are as follows: the clamp spring storage mechanism is used for storing clamp springs, a pressing block is arranged at the top of the clamp spring guide rail and is used for pressing all clamp springs on a baffle plate at the tail end of the clamp spring guide rail, and after the clamp springs at the tail end are pushed out by the arc-shaped clamping plates, the next clamp spring is continuously fed at the position of the clamp spring at the tail end due to the pressure of the pressing block, so that automatic feeding of the clamp springs is realized; the interval distance between the baffle and the tail end of the clamp spring guide rail is greater than the thickness dimension of one clamp spring and less than the thickness dimension of two clamp springs, so that the arc-shaped clamping plate can only push out one clamp spring at a time.

Further, the mounting frame body is equipped with two, and two mounting frame body sliding assembly are equipped with in the frame and are used for driving mounting frame body reciprocating motion's mounting frame body actuating mechanism, are equipped with the clamp block on the mounting frame body, and the clamp block is located the installation sleeve inner chamber, and the inside of clamp block is equipped with pressure switch, and pressure switch is connected with mounting frame body actuating mechanism and installation sleeve actuating mechanism.

The beneficial effects of the technical scheme are as follows: the mounting bracket body is equipped with two, can carry out jump ring installation to the bearing roller both ends, and mounting bracket body sliding fit is equipped with the clamp block in the frame and on the mounting bracket body, and two mounting bracket bodies can be close to each other, make clamp block support the both ends that lean on the bearing roller axle, realize pressing from both sides tightly to the bearing roller, be equipped with pressure switch in the clamp block, pressure switch senses the bearing roller and is pressed from both sides tightly the back, and mounting bracket body actuating mechanism stops driving two mounting bracket bodies, and installation sleeve actuating mechanism drive installation sleeve moves towards the epaxial jump ring groove of bearing roller, goes into the jump ring inslot with the jump ring card.

Further, the installation sleeve comprises an end sleeve section and a connecting sleeve section which are coaxially arranged, the wall thickness of the end sleeve section is larger than that of the connecting sleeve section, the positioning block is slidably assembled in the end sleeve section, two clamp spring thimbles are slidably assembled on two sides of the positioning block on the end sleeve section, the clamp spring thimbles are used for being inserted into holes in the heads of the clamp springs, a thimble driving cylinder is arranged on the installation frame body and used for driving the clamp spring thimbles to reciprocate.

The beneficial effects of the technical scheme are as follows: the clamping spring thimble is used for being inserted into an eyelet at the head part of the clamping spring, so that the clamping spring is fixed, and the clamping spring is prevented from sliding off the positioning block due to elastic shrinkage.

Further, a sliding groove penetrating through the end sleeve section along the axial direction of the end sleeve section is formed in the end sleeve section, the positioning block is slidably assembled in the sliding groove, a step used for preventing the positioning block from falling off is arranged in the sliding groove, a spring is connected between the positioning block and the end face of the step, one end, close to the spring, of the positioning block is connected with a limiting rod, the limiting rod sequentially penetrates through the end sleeve section and the limiting plate, and the limiting head is connected to one end, deviating from the positioning block, of the limiting rod.

Further, rectangular through-hole has been seted up on the arc splint, arc breach has been seted up to the bottom of arc splint, and arc breach department is equipped with the arc recess, communicates through rectangular gap between arc breach and the rectangular through-hole, and the arc recess is used for pressing from both sides tightly in the outside of jump ring.

The beneficial effects of the technical scheme are as follows: the arc-shaped clamping plate is provided with the long strip through holes and communicated with the arc-shaped notch, so that the bottom end of the arc-shaped clamping plate is divided into two parts, the two parts have certain elasticity, and the arc-shaped clamping plate can clamp the clamping spring.

Further, the carrier roller positioning mechanism comprises a V-shaped positioning block, and the carrier roller is placed in a V-shaped groove on the V-shaped positioning block.

The beneficial effects of the technical scheme are as follows: the V-shaped positioning block is used for positioning the carrier roller and preventing the carrier roller from rolling.

Further, the mounting frame body driving mechanism comprises a mounting frame body driving cylinder, and a piston rod of the mounting frame body driving cylinder is connected with the mounting frame body.

The beneficial effects of the technical scheme are as follows: the mounting frame body driving cylinder is used for driving the mounting frame body to move back and forth on the sliding rail.

Further, the mounting frame body is provided with an arc clamping plate driving mechanism, the arc clamping plate driving mechanism comprises an arc clamping plate driving cylinder, and a piston rod of the arc clamping plate driving cylinder is detachably connected with the arc clamping plate.

The beneficial effects of the technical scheme are as follows: the arc splint drive cylinder is used for driving the arc splint to move, and the arc splint is detachably connected with the end part of a piston rod of the arc splint drive cylinder, so that the arc splint with different models can be replaced, and the device can be provided with clamp springs with different models.

Further, the installation sleeve driving mechanism comprises an installation sleeve driving cylinder, and a piston rod of the installation sleeve driving cylinder is connected with the installation sleeve.

The beneficial effects of the technical scheme are as follows: the mounting sleeve driving cylinder is used for driving the mounting sleeve to move back and forth.

Drawings

The above, as well as additional purposes, features, and advantages of exemplary embodiments of the present invention will become readily apparent from the following detailed description when read in conjunction with the accompanying drawings. In the drawings, embodiments of the invention are illustrated by way of example and not by way of limitation, and like reference numerals refer to similar or corresponding parts and in which:

fig. 1 is a schematic structural view of a circlip loading machine for a carrier roller of the present invention;

fig. 2 is a front view of a circlip machine on a carrier roller according to the present invention;

fig. 3 is a schematic structural view of a mounting sleeve of the circlip machine on a carrier roller according to the present invention;

fig. 4 is a schematic structural view of an arc clamping plate of the circlip loading machine for carrier rollers;

fig. 5 is a partial cross-sectional view of the carrier roller of the present invention at the mounting sleeve of the circlip machine.

Reference numerals illustrate:

1. a frame; 2. a slide rail; 3. a mounting frame body; 4. a carrier roller; 5. a clamp spring guide rail; 6. a baffle; 7. an arc clamping plate; 8. a supporting top plate; 9. a supporting vertical plate; 10. the arc clamping plate drives the air cylinder; 11. a mounting sleeve; 12. a positioning block; 13. a sleeve driving cylinder is installed; 14. driving the box body; 15. the clamp spring storage box body; 16. jump ring thimble; 17. a limiting plate; 18. a clamping block; 19. an end sleeve section; 20. a connecting sleeve section; 21. a clamping block chute; 22. a connecting plate; 23. a slide block; 24. a long through hole; 25. an arc-shaped notch; 26. an arc-shaped groove; 27. a slit strip; 28. a limit rod; 29. a positioning head; 30. and (3) a spring.

Detailed Description

The following description of the embodiments of the present invention will be made more complete and clear to those skilled in the art by reference to the figures of the embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 and 2, a jump ring machine on bearing roller, which comprises a frame 1, install slide rail 2 on the top surface of frame 1, slide rail 2 is gone up to slide and is equipped with two mounting bracket bodies 3, mounting bracket body 3 is including drive box 14 and install the jump ring storage box 15 in drive box 14 top, drive box 14 slide and assemble on slide rail 2, the below of drive box 14 is equipped with mounting bracket body actuating mechanism, mounting bracket body actuating mechanism includes mounting bracket body actuating cylinder, mounting bracket body actuating cylinder installs on frame 1, the piston rod and the drive box 14 of mounting bracket body actuating cylinder are connected, mounting bracket body actuating cylinder is used for driving mounting bracket body 3 round trip movement on slide rail 2. A carrier roller conveying mechanism is arranged between the two mounting frame bodies 3, the carrier roller conveying mechanism comprises a conveying belt, the conveying direction of the conveying belt is perpendicular to the sliding direction of the mounting frame bodies 3, a plurality of carrier roller positioning mechanisms are distributed on the conveying belt at equal intervals, the carrier roller positioning mechanisms are V-shaped positioning blocks, carrier rollers 4 are placed in V-shaped grooves on the V-shaped positioning blocks, and the axial direction of the carrier rollers 4 is perpendicular to the conveying direction of the conveying belt.

The clamp spring storage mechanism is arranged in the clamp spring storage box body 15 and comprises a clamp spring guide rail 5 in an L shape, a plurality of clamp springs are sleeved on the clamp spring guide rail 5, and a pressing block is sleeved on the clamp spring guide rail 5 above the top clamp spring. The one end that two jump ring storage boxes 15 are close to each other all is equipped with the support frame, and the support frame includes two parallel arrangement's support riser 9 and connects the support roof 8 between the top of two support riser 9, and the jump ring through-hole has all been seted up to the bottom of two support riser 9, and the terminal of jump ring guide rail 5 passes two jump ring through-holes in proper order and the terminal end face of jump ring guide rail 5 and the lateral wall coplanarity that is located the support riser 9 in the outside. The baffle 6 is arranged on the support vertical plate 9 positioned on the outer side, a gap is arranged between the baffle 6 and the outer side wall of the support vertical plate 9, and in order to ensure that only one clamp spring falls into the gap each time, the size of the gap is required to satisfy the thickness size of more than one clamp spring and less than the thickness size of two clamp springs.

The top of baffle 6 is equipped with jump ring push mechanism, and jump ring push mechanism includes arc splint 7, has offered rectangular through-hole 24 on the arc splint 7 as shown in fig. 4, and the bottom of arc splint 7 is equipped with arc breach 25, and arc breach 25 department is equipped with arc recess 26, communicates through rectangular gap 27 between rectangular through-hole 24 and the arc breach 25, and arc recess 26 is used for pressing from both sides tightly in the outside of jump ring. Install arc splint actuating mechanism on the support frame, arc splint actuating mechanism includes arc splint actuating cylinder 10, arc splint actuating cylinder 10 installs on supporting roof 8, arc splint actuating cylinder 10's piston rod stretches into between two support risers 9 along the upper and lower direction, the splint spout that corresponds each other and extend along the upper and lower direction is seted up on two support risers 9, the end connection of arc splint actuating cylinder 10's piston rod has slider 23, slider 23's both ends insert respectively in two splint spouts, slider 23's one end passes the splint spout that is located the outside and is connected with arc splint 7, arc splint 7 hugs closely the inside wall of baffle 6 so that arc splint 7 can block on the jump ring that is located extreme and release baffle 6 with this jump ring with support riser 9 between.

The driving box 14 is provided with a clamp spring mounting mechanism, the clamp spring mounting mechanism comprises a mounting sleeve 11, the mounting sleeve 11 is located below the arc clamping plate 7, the mounting sleeve 11 comprises an end sleeve section 19 and a connecting sleeve section 20 which are coaxially arranged, the wall thickness of the end sleeve section 19 is larger than that of the connecting sleeve section 20, the driving box 14 is also provided with a mounting sleeve driving mechanism, the mounting sleeve driving mechanism comprises a mounting sleeve driving cylinder 13, the mounting sleeve driving cylinder 13 is fixedly mounted in the inner cavity of the driving box 14, and a piston rod of the mounting sleeve driving cylinder 13 extends out of the driving box 14 and is connected with the connecting sleeve section 20.

The mounting frame body 3 is further provided with a clamping block 18, as shown in fig. 3, the clamping block 18 is located in an inner cavity of the connecting sleeve section 20, a clamping block sliding groove extending along the axial direction of the connecting sleeve section 20 is formed in the side wall of the connecting sleeve section 20, two connecting plates 22 parallel to each other are arranged on the bottom surface of the clamp spring storage box body 15, the two connecting plates 22 are located on two sides of the mounting sleeve 11 respectively, and two ends of the clamping block 18 penetrate through the clamping block sliding groove to extend out of the connecting sleeve section 20 and are connected to the corresponding connecting plates 22. The clamping block 18 is internally provided with a pressure switch which is connected with the mounting sleeve driving mechanism and the mounting frame body driving mechanism.

As shown in fig. 5, a sliding groove penetrating along the axial direction of the end sleeve section 19 is formed in the side wall of the end sleeve section 19, a positioning block 12 is arranged in the sliding groove in a penetrating manner, a step for preventing a limiting block from falling off is arranged in the sliding groove, one end of the positioning block 12 extends out of the end sleeve section 19, the other end of the positioning block 12 is connected with a limiting rod 28, a limiting plate 17 is connected to the driving box 14, the limiting plate 17 is positioned between the end sleeve section 19 and the driving box 14, the limiting plate 17 is connected to the driving box 14 through a mounting plate, the limiting rod 28 sequentially penetrates through the end sleeve section 19 and the limiting plate 17, a limiting head 29 is arranged at one end of the limiting rod 28 penetrating through the limiting plate 17, and a spring 30 is arranged between the limiting block 12 and the step in order to enable the positioning block 12 to recover after being retracted into the end sleeve section 19.

The two sides of the end sleeve section 19 on the positioning block 12 are respectively provided with a clamp spring thimble 16 in a penetrating manner along the axial direction of the end sleeve section 19, the clamp spring thimble 16 is used for being inserted into a hole at the head part of the clamp spring, the limiting plate 17 is provided with a miniature thimble driving cylinder, and a piston rod of the thimble driving cylinder is connected with the clamp spring thimble 16.

When the clamping roller is used, the arc clamping plate driving cylinder 10 starts to operate at first, the piston rod of the arc clamping plate driving cylinder 10 pushes the arc clamping plate 7 to move downwards, the arc groove 26 of the arc clamping plate 7 is clamped on the clamping spring, the clamping spring is pushed downwards until the clamping spring is clamped on the positioning block 12 at the end part of the end sleeve section 19, the ejector pin driving cylinder pushes the ejector pin 16 out of the end sleeve section 19 and inserts the ejector pin into the eyelet at the head part of the clamping spring, then the mounting frame body driving cylinder pushes the two mounting frame bodies 3 to be mutually close, two ends of the carrier roller 4 are respectively inserted into the inner cavities of the corresponding mounting sleeve 11, the two clamping blocks 18 are respectively pressed at two ends of the carrier roller 4, the pressure switch in the clamping block 18 detects pressure change, the mounting frame body driving mechanism stops running, the two mounting frame bodies 3 are stopped to mutually close, then the piston rod of the mounting sleeve driving cylinder 13 starts to move, the mounting sleeve 11 is pushed to move towards the carrier roller 4, the clamping spring at the end part of the mounting sleeve 11 is pushed to the groove of the carrier roller 4, the clamping spring 16 is not gradually retracted along with the movement of the mounting sleeve 11, the ejector pin 16 is gradually retracted into the end sleeve section 19, and when the mounting sleeve 11 moves to the positioning block 11, the end part of the clamping sleeve 11 is not blocked by the positioning block, the clamping pin is continuously moved along with the movement of the mounting sleeve 11, and the end part of the clamping sleeve 11 is continuously moved along with the front of the positioning block 11, and the front end part of the positioning block is not blocked by the positioning block 11, and the movement of the end is continuously moved along with the movement of the positioning sleeve 11. The invention realizes the mechanized installation of the clamp spring, greatly improves the installation efficiency of the clamp spring, effectively avoids the damage condition of the clamp spring caused by manual installation, reduces the rejection rate of the clamp spring, and can effectively save labor and material cost.

In this embodiment, the end sleeve section is provided with the snap spring thimble, and in other embodiments, the snap spring thimble may not be provided, and at this time, the snap spring is fixed on the end sleeve section through the positioning block.

In this embodiment, the mounting frame body driving mechanism, the arc clamping plate driving mechanism and the mounting sleeve driving mechanism are all driven by using air cylinders, and in other embodiments, the driving mechanisms can also be a mechanism capable of realizing reciprocating linear motion, such as a gear rack driving mechanism, a crank sliding block driving mechanism and the like.

Those skilled in the art will also appreciate from the foregoing description of the present specification that terms such as "upper," "lower," "front," "rear," "left," "right," "width," "horizontal," "top," "bottom," "inner," "outer" (which may be used interchangeably with the text employed in an individual case) and the like, which refer to an orientation or positional relationship, are based on the orientation or positional relationship shown in the drawings of the present specification, which are merely for the purpose of facilitating the description of the present invention and simplifying the description, and do not explicitly or implicitly refer to devices or elements that must have, be constructed and operated in the particular orientation, and therefore the above orientation or positional relationship terms should not be interpreted or construed as limiting the present invention.

In addition, in the description of the present specification, the meaning of "plurality" means at least two, for example, two, three or more, etc., unless specifically defined otherwise.

Claims (10)

1. The utility model provides a jump ring machine on bearing roller which characterized in that includes:

a frame;

the carrier roller positioning mechanism is used for positioning the carrier roller;

the mounting frame body is arranged on the frame, a mounting sleeve which moves back and forth along the axial direction of the carrier roller and a mounting sleeve driving mechanism which drives the mounting sleeve to move back and forth are arranged on the mounting frame body, and the mounting sleeve is used for being sleeved outside the carrier roller shaft of the carrier roller;

a positioning block is arranged in the mounting sleeve in a sliding manner along the axial direction of the carrier roller, and is used for expanding the clamp spring and keeping the clamp spring in an expanded state, and the top of the positioning block is provided with a tip so as to gradually expand the clamp spring when the clamp spring is pushed downwards;

the clamping spring pushing mechanism is arranged on the mounting frame body and comprises an arc-shaped clamping plate which is assembled on the mounting frame body in a sliding manner along the up-down direction, and the arc-shaped clamping plate is used for clamping the clamping spring and pushing the clamping spring downwards to the positioning block;

one end of the positioning block is connected with a limiting rod, the limiting rod is connected with a limiting head, the mounting frame body is fixedly provided with a limiting plate, and the limiting plate is used for being in stop fit with the limiting head so as to enable the mounting sleeve driving mechanism to drive the mounting sleeve to move relative to the positioning block and push the clamping spring away from the positioning block after the clamping spring is conveyed to the outside of the roller shaft;

springs are arranged between the positioning blocks and the mounting sleeve and/or between the limiting rods and the limiting plates, the springs are used for pushing out the end parts of the positioning blocks from the mounting sleeve to prop open and hold the clamping springs, and the positioning blocks are used for moving along with the mounting sleeve to convey the clamping springs to the outside of the carrier roller shaft.

2. The carrier roller jump ring loading machine of claim 1, wherein the mounting frame body is further provided with a jump ring storage mechanism, the jump ring storage mechanism comprises L-shaped jump ring guide rails, a plurality of jump rings are sleeved on the jump ring guide rails, a pressing block is sleeved above the topmost jump ring on the jump ring guide rails, the tail end of the jump ring guide rails is provided with a baffle, and the interval distance between the baffle and the tail end of the jump ring guide rails is greater than the thickness dimension of one jump ring and less than the thickness dimension of two jump rings.

3. The carrier roller jump ring machine of claim 1, wherein the mounting frame body is provided with two, and two mounting frame body sliding assembly are in the frame, are equipped with the mounting frame body actuating mechanism that is used for driving the reciprocating motion of mounting frame body in the frame, are equipped with the clamp block on the mounting frame body, and the clamp block is located the installation sleeve inner chamber, and the inside of clamp block is equipped with pressure switch, and pressure switch is connected with mounting frame body actuating mechanism and installation sleeve actuating mechanism.

4. The carrier roller jump ring machine according to claim 1, wherein the installation sleeve comprises an end sleeve section and a connecting sleeve section which are coaxially arranged, the wall thickness of the end sleeve section is larger than that of the connecting sleeve section, the positioning block is slidably assembled in the end sleeve section, two jump ring thimbles are slidably assembled on two sides of the positioning block on the end sleeve section, the jump ring thimbles are used for being inserted into holes in the heads of the jump rings, a thimble driving cylinder is arranged on the installation frame body, and the thimble driving cylinder is used for driving the jump ring thimbles to reciprocate.

5. The carrier roller jump ring machine of claim 4, wherein a chute penetrating along the axial direction of the end sleeve section is formed in the end sleeve section, the positioning block is slidably assembled in the chute, a step for preventing the positioning block from falling off is arranged in the chute, a spring is connected between the positioning block and the end face of the step, one end, close to the spring, of the positioning block is connected with a limiting rod, the limiting rod sequentially penetrates through the end sleeve section and the limiting plate, and the limiting head is connected to one end, deviating from the positioning block, of the limiting rod.

6. The carrier roller clamp spring loading machine according to any one of claims 1-5, wherein the arc-shaped clamping plate is provided with a long through hole, the bottom of the arc-shaped clamping plate is provided with an arc-shaped notch, the arc-shaped notch is provided with an arc-shaped groove, the arc-shaped notch is communicated with the long through hole through a long gap, and the arc-shaped groove is used for being clamped on the outer side of the clamp spring.

7. A spring loading machine for a carrier roller as claimed in any one of claims 1 to 5 wherein the carrier roller locating means comprises a V-shaped locating block, the carrier roller being disposed in a V-shaped recess in the V-shaped locating block.

8. A circlip machine on a carrier roller according to claim 3, wherein the mounting frame body driving mechanism comprises a mounting frame body driving cylinder, and a piston rod of the mounting frame body driving cylinder is connected with the mounting frame body.

9. A roller clamp spring loading machine according to any one of claims 1-5, wherein the mounting frame body is provided with an arc clamp plate driving mechanism, the arc clamp plate driving mechanism comprises an arc clamp plate driving cylinder, and a piston rod of the arc clamp plate driving cylinder is detachably connected with the arc clamp plate.

10. A roller clamp spring loading machine according to any one of claims 1-5, wherein the mounting sleeve driving mechanism comprises a mounting sleeve driving cylinder, and a piston rod of the mounting sleeve driving cylinder is connected with the mounting sleeve.