CN114314421A - Auxiliary feeding device for guide roller machining - Google Patents

Abstract

The application relates to an auxiliary feeding device for guide roller machining, which relates to the technical field of guide roller feeding devices and comprises two groups of symmetrically arranged jacking mechanisms and a propelling mechanism for propelling the jacking mechanisms to move; each group of jacking mechanisms comprises a jacking cylinder and a support frame, the support frame is arranged at the output end of the jacking cylinder, and the support frame is used for bearing a guide roller to be processed; the propulsion mechanism comprises a bottom supporting plate, a connecting block and a propulsion member, the jacking cylinder is arranged on the connecting block, the connecting block and the propulsion member are arranged on the bottom supporting plate, and the propulsion member is used for pushing the connecting block to move along the extending direction of the bottom supporting plate. This application has the effect that improves deflector roll material loading convenience, has ensured the processing normality of deflector roll in follow-up process.

Description

Auxiliary feeding device for guide roller machining

Technical Field

The application relates to a deflector roll loading attachment technical field especially relates to a deflector roll processing is with supplementary loading attachment.

Background

The guide roller is a common base material used in modern industry for supporting and transition. In the practical application of the guide rollers, after a certain amount of guide rollers are arranged at equal intervals, an operator places materials to be transported on the adjacent guide rollers, and the materials move along the arrangement direction of the guide rollers so as to be transported quickly.

The guide roller needs to undergo surface treatment steps such as grinding, spraying and the like in production and processing. The guide rollers are often lifted by the operator by manual force to a certain height for mounting on the positioning frame, and then surface-treated by special equipment.

However, the guide roller with a large size often has a large self weight, and when an operator carries the guide roller to be installed on the rack by manpower, the problem of inconvenient carrying exists, so that the subsequent normal processing of the guide roller is greatly influenced.

Disclosure of Invention

In order to improve the inconvenient problem of manpower transport deflector roll, this application provides a deflector roll processing is with supplementary loading attachment.

The application provides a pair of deflector roll processing adopts following technical scheme with supplementary loading attachment:

an auxiliary feeding device for processing guide rollers comprises two groups of jacking mechanisms and a propelling mechanism, wherein the two groups of jacking mechanisms are symmetrically arranged, and the propelling mechanism is used for propelling the jacking mechanisms to move; each group of jacking mechanisms comprises a jacking cylinder and a support frame, the support frame is arranged at the output end of the jacking cylinder, and the support frame is used for bearing a guide roller to be processed; the propulsion mechanism comprises a bottom supporting plate, a connecting block and a propulsion member, the jacking cylinder is arranged on the connecting block, the connecting block and the propulsion member are arranged on the bottom supporting plate, and the propulsion member is used for pushing the connecting block to move along the extending direction of the bottom supporting plate.

By adopting the technical scheme, an operator carries the guide roller to be processed to the support frame, and the guide roller is lifted above the rack for processing the guide roller when the output end of the jacking cylinder extends outwards; the pushing piece controls the connecting block to move along the length direction of the bottom support plate, so that the jacking cylinder moves to the position of the rack for machining the guide roller, and the guide roller quickly moves to the position above the rack for machining the guide roller; the jacking cylinder contracts the output end to enable the guide roller to be positioned on the machine frame for machining the guide roller; the process greatly reduces the workload of operators for carrying the guide roller manually, improves the carrying convenience of the guide roller, further ensures the efficiency of carrying the guide roller to the rack for processing, and ensures the normal processing of the guide roller in subsequent procedures.

In a specific possible embodiment, the propelling member comprises a driving motor, a lead-in screw and a guide seat; driving motor and guide holder set up relatively on the bottom supporting plate, the connecting block is worn to locate by the introduction lead screw thread, introduction lead screw one end links to each other with driving motor's output, the other end rotate set up in the guide holder.

By adopting the technical scheme, the forward rotation output end of the motor is driven, the lead-in screw rod rotates clockwise, and the connecting block moves from one end of the lead-in screw rod, which is close to the driving motor, to one end of the lead-in screw rod, which is close to the guide seat, along the length direction of the lead-in screw rod; when the output end of the driving motor is reversely rotated, the lead-in screw rod rotates anticlockwise, so that the connecting block moves from one end, close to the guide seat, of the lead-in screw rod to one end, close to the driving motor, of the lead-in screw rod along the length direction of the lead-in screw rod; this process has effectively ensured the displacement efficiency of jacking cylinder, has further improved the convenient degree of material loading of deflector roll in the frame.

In a specific possible embodiment, a fixing assembly is arranged between the connecting block and the jacking cylinder, and comprises a positioning plate and a fixing bolt; the locating plate sets up on the shore cylinder, be provided with the spacing groove that is used for supplying the locating plate to support into on the connecting block, fixing bolt is used for being fixed in the spacing inslot with the locating plate.

Through adopting above-mentioned technical scheme, the locating plate has increased the area of contact of jacking cylinder on the connecting block, and the position of locating plate on the connecting block has been injectd to the spacing groove, and fixing bolt makes locating plate and the quick fixed connection of connecting block, has ensured the stability of application of jacking cylinder on the connecting block, and simultaneously, the operating personnel of being convenient for dismantle the jacking cylinder fast with the maintenance, renew.

In a specific possible embodiment, a propping assembly is arranged on the supporting frame, and the propping assembly comprises a propping plate, a connecting screw rod and an extending plate; the support frame is worn to locate by connecting the lead screw thread, the butt board sets up in the one end that connecting the lead screw is located the support frame, the epitaxial plate sets up in the one end that connecting the lead screw and keep away from the butt board.

Through adopting above-mentioned technical scheme, the epitaxial plate is convenient for operating personnel to twist soon fast and connects the lead screw, through connecting the relative carriage displacement back of lead screw, can make the butt board support tightly in the outer fringe wall of deflector roll, and then has injectd the position of deflector roll in the support frame, has ensured the stability that the jacking cylinder moved fortune deflector roll.

In a specific possible embodiment, an abutting piece is arranged on the side wall, away from the connecting screw rod, of the abutting plate, and an accommodating groove for accommodating the abutting plate and the abutting piece is formed in the side wall of the supporting frame.

Through adopting above-mentioned technical scheme, the butt of butt board is behind the deflector roll outer fringe wall, and laminating piece supports tightly between butt board and deflector roll through self compression deformation, and at this moment, through the great characteristic of laminating piece lateral wall coefficient of static friction, the phenomenon that the relative deflector roll of butt board appears the pine and shakes, moves partially has effectively been reduced.

In a specific implementation mode, the feeding device further comprises a hoisting mechanism, and the hoisting mechanism comprises a mounting rack, a winch, a hoisting piece and a guide piece; the mounting frame is arranged at one end of the bottom support plate, the winch and the guide piece are arranged on the mounting frame, and the guide piece is used for pushing the winch to move along the extending direction of the bottom support plate; one end of the hoisting piece is connected with an output shaft of the winch, and the other end of the hoisting piece is used for connecting a guide roller to be processed.

Through adopting above-mentioned technical scheme, the hoist engine passes through the guide and installs on the mounting bracket, and the hoist engine is through handling spare in order to hoist and mount the deflector roll of treating processing to can follow the extending direction displacement of sill bar on the mounting bracket, make the deflector roll quick displacement to two support frames of alignment on, in order to accomplish the automatic installation of deflector roll on the support frame, further reduced the human intervention phenomenon in the deflector roll installation, improved the installation convenience of deflector roll.

In a particular embodiment, the trolley comprises a trolley wire and a receiving ring; one end of the hoisting steel cable is wound on an output shaft of the winch, and the other end of the hoisting steel cable is connected with the bearing ring body; the bearing ring body is used for sleeving a guide roller to be processed.

By adopting the technical scheme, the bearing ring body is used for sleeving the guide roller, so that the convenience of automatic lifting of the guide roller is improved; one end of the hoisting steel cable is connected with the bearing ring body, and the other end of the hoisting steel cable is wound on an output shaft of the winch, so that the rapid lifting of the guide roller is realized by matching with the application of the winch.

In a specific possible embodiment, the guide member comprises an abutting plate, an outer abutting plate and a material guiding cylinder; the top plate of the mounting frame is provided with a sliding groove for the top plate to abut into and slide, and a preset channel for the winch to pass through is arranged at the position of the sliding groove; the outer connecting plate is arranged on the side wall, far away from the winch, of the top plate of the mounting frame, and a guide channel for the outer connecting plate to move is arranged at the position, located in the sliding groove, of the top plate of the mounting frame in a penetrating mode; the material guide cylinder is arranged on the mounting frame, and the output end of the material guide cylinder is connected with the outer connecting plate.

Through adopting above-mentioned technical scheme, in the groove that slides is supported to the top fishplate bar, realized the quick installation of hoist engine on the mounting bracket, the overhanging output of guide cylinder to promote outer fishplate bar along the roof length direction displacement of mounting panel, make the hoist engine can drive deflector roll quick displacement to support frame top, in order to realize the quick installation of deflector roll on the support frame.

In a specific possible embodiment, a connecting assembly is arranged between the material guiding cylinder and the external connecting plate, and the connecting assembly comprises a clamping plate and a connecting bolt; the clamping plate is arranged at the output end of the material guide cylinder, and the connecting bolt is used for fixing the clamping plate on the outer connecting plate.

Through adopting above-mentioned technical scheme, the joint board has increased the area of contact of the output of guide cylinder and outer fishplate bar, and connecting bolt fixed connection outer fishplate bar and joint board have ensured the joint strength of outer fishplate bar and joint board, and then have ensured the stability that the guide cylinder promotes outer fishplate bar displacement.

In summary, the present application has the following beneficial technical effects:

1. an operator carries the guide roller to be processed to the support frame, and the guide roller is lifted above the rack for processing the guide roller when the output end of the jacking cylinder extends outwards; the pushing piece controls the connecting block to move along the length direction of the bottom support plate, so that the jacking cylinder moves to the position of the rack for machining the guide roller, and the guide roller quickly moves to the position above the rack for machining the guide roller; the jacking cylinder contracts the output end to enable the guide roller to be positioned on the machine frame for machining the guide roller; the process greatly reduces the workload of operators for carrying the guide roller by manpower, improves the carrying convenience of the guide roller, further ensures the efficiency of carrying the guide roller onto the rack for processing, and ensures the normal processing of the guide roller in the subsequent working procedures;

2. the hoist engine passes through the guide and installs on the mounting bracket, and the hoist engine is through handling spare in order to hoist the deflector roll of treating processing to can follow the extending direction displacement of end shoring board on the mounting bracket, make the deflector roll quick displacement to two support frames of alignment on, in order to accomplish the automatic installation of deflector roll on the support frame, further reduced the human intervention phenomenon in the deflector roll installation, improved the installation convenience of deflector roll.

Drawings

FIG. 1 is a schematic structural diagram of an auxiliary feeding device for guide roller processing in an embodiment of the present application;

FIG. 2 is an exploded view of the connection between the jacking cylinder and the connecting block in the embodiment of the present application;

FIG. 3 is an enlarged schematic view of portion A of FIG. 2;

FIG. 4 is a schematic view of the positional relationship of the guide and the mounting bracket in the embodiment of the present application;

fig. 5 is an exploded view of the connection relationship between the material guiding cylinder and the external connection plate in the embodiment of the present application.

Description of reference numerals:

1. a jacking mechanism; 11. jacking a cylinder; 12. a support frame; 121. an accommodating groove; 2. a propulsion mechanism; 21. a bottom supporting plate; 22. connecting blocks; 221. a limiting groove; 23. a pusher member; 231. a drive motor; 232. introducing a screw rod; 233. a guide seat; 3. a fixing assembly; 31. positioning a plate; 32. fixing the bolt; 4. a propping component; 41. a butt joint plate; 411. fitting parts; 42. connecting a screw rod; 43. an epitaxial plate; 5. a hoisting mechanism; 51. a mounting frame; 511. a bottom plate; 512. a side joint plate; 513. a top plate; 5131. a sliding groove; 5132. presetting a channel; 5133. a guide channel; 52. a winch; 53. a hoisting part; 531. hoisting a steel cable; 532. a receiving ring body; 54. a guide member; 541. a jacking plate; 542. an outer connecting plate; 543. a material guiding cylinder; 6. a connecting assembly; 61. a clamping and connecting plate; 62. and connecting the bolts.

Detailed Description

The embodiment of the application discloses deflector roll processing is with supplementary loading attachment.

The present application is described in further detail below with reference to figures 1-5.

Referring to fig. 1, the auxiliary feeding device includes a jacking mechanism 1 and a pushing mechanism 2. In this embodiment, the number of climbing mechanism 1 and advancing mechanism 2 is two sets of, and a set of climbing mechanism 1 corresponds and sets up on a set of advancing mechanism 2, and adjacent two sets of climbing mechanism 1 align each other.

Referring to fig. 2, the pushing mechanism 2 includes a bottom support plate 21, a connection block 22 and a pushing member 23, wherein the bottom support plate 21 is fixed on the ground by bolts, and the connection block 22 is placed on the top wall of the bottom support plate 21. In this embodiment, the two bottom supporting plates 21 of the two groups of propelling mechanisms 2 are respectively positioned at two opposite sides of the frame for processing the guide roller. The propelling part 23 comprises a driving motor 231, an introducing screw rod 232 and a guide seat 233, wherein in the embodiment, the guide seat 233 is a bearing seat, and the driving motor 231 and the guide seat 233 are oppositely arranged on the top wall of the bottom supporting plate 21.

Referring to fig. 2, the lead-in screw 232 is threaded through the connecting block 22, one end of the lead-in screw 232 in the length direction is fixed to the output end of the driving motor 231 through a flange, and the other end is rotatably disposed in the guide holder 233. When the driving motor 231 rotates forward and outputs the shaft, the lead-in screw 232 rotates clockwise, and the connecting block 22 moves from one end of the lead-in screw 232 located at the driving motor 231 to one end located at the guide seat 233. On the contrary, when the driving motor 231 rotates the output shaft reversely, the connecting block 22 is displaced from the end of the lead-in screw 232 located at the guide seat 233 to the end located at the driving motor 231.

Referring to fig. 2, the jacking mechanism 1 includes a jacking cylinder 11 and a support frame 12, the jacking cylinder 11 is disposed on the top wall of the connection block 22, and the support frame 12 is welded on the output end of the jacking cylinder 11. In this embodiment, an operator places the guide roller to be processed on two aligned support frames 12 at the same time, and the outward extending output end of the jacking cylinder 11 enables the guide roller to move to the top of the machine frame for processing the guide roller. Then, the driving motor 231 rotates the output end to rotate the lead-in screw 232, so that the connecting block 22 drives the jacking cylinder 11 to move to the rack for processing the guide roller. And finally, the jacking cylinder 11 contracts the output end, so that the guide roller is automatically installed on the rack.

Referring to fig. 2, in order to improve the position stability of the jacking cylinder 11 fixed on the connecting block 22, a fixing assembly 3 is arranged between the connecting block 22 and the jacking cylinder, and the fixing assembly 3 comprises a positioning plate 31 and a fixing bolt 32. The positioning plate 31 is welded to the bottom wall of the jacking cylinder 11 along the horizontal direction, and the outer circumference dimension of the positioning plate 31 is larger than that of the jacking cylinder 11. The top wall of the connecting block 22 is provided with a limiting groove 221, and the inner diameter of the limiting groove 221 is matched with the outer circumference of the positioning plate 31. After the positioning plate 31 abuts against the inner cavity of the limiting groove 221, the fixing bolt 32 is fixedly connected with the positioning plate 31 and the connecting block 22, so that the positioning plate 31 is stably fixed in the limiting groove 221.

Referring to fig. 3, in order to improve the supporting stability of the supporting frame 12 for the guide roller, a resisting assembly 4 is further disposed on the supporting frame 12. The abutting assembly 4 comprises an abutting plate 41, a connecting screw rod 42 and an extension plate 43, the connecting screw rod 42 is threaded through the support frame 12, the extension plate 43 is welded at one end, far away from the support frame 12, of the connecting screw rod 42 along the vertical direction, and an operator rotates the connecting screw rod 42 through the extension plate 43.

Referring to fig. 3, the abutment plate 41 is welded to an end of the connecting screw 42 away from the extension plate 43 in the vertical direction, and the abutment plate 41 is located inside the support frame 12. An operator can screw the connecting screw rod 42 to enable the abutting plate 41 to abut against the outer edge wall of the guide roller in the support frame 12, so that the position stability of the guide roller on the support frame 12 is improved.

Referring to fig. 3, in order to reduce the phenomena of loosening and deviation of the guide roller relative to the contact plate 41, the contact plate 41 is fixed with a contact piece 411 away from the sidewall of the connecting screw rod 42. In this embodiment, the fitting member 411 is a rubber pad with a large static friction coefficient on the outer surface. The adhesion piece 411 is tightly abutted between the guide roller and the abutting plate 41 through compression deformation, so as to reduce the phenomena of loosening and deflection of the abutting plate 41 relative to the guide roller.

Referring to fig. 3, in order to ensure normal use of the internal space of the supporting frame 12, an accommodating groove 121 is further disposed in the sidewall of the supporting frame 12, and an inner diameter of the accommodating groove 121 is matched with an outer circumference of the abutting plate 41. The abutting plate 41 and the abutting member 411 can abut into the receiving slot 121, so that the guide roller normally enters or leaves the cavity of the supporting frame 12.

Referring to fig. 1, in order to improve the convenience of the operator for installing the guide roller on the support frame 12, the auxiliary feeding device further comprises a hoisting mechanism 5. The hoisting mechanism 5 comprises a mounting frame 51, a winch 52, a hoisting piece 53 and a guide piece 54, the mounting frame 51 is positioned at the same end of the two bearing plates in the length direction, and the mounting frame 51 comprises a bottom plate 511, a side connecting plate 512 and a top plate 513. Wherein, the top plate 513 and the bottom plate 511 are oppositely arranged at one side of the width direction of the side connection plate 512, and the bottom plate 511 is fixed on the ground through bolts.

Referring to fig. 4, the number of winches 52 may be two, and the two winches 52 are disposed on the top plate 513 by the guide members 54, respectively. The guide 54 includes an abutting plate 541, and the abutting plate 541 is welded to the top wall of the hoist 52 in a horizontal direction. The end wall of top plate 513 far away from side fishplate bar 512 is provided with the groove 5131 that slides, and the length direction of top plate 513 extends in the groove 5131 that slides, and the internal diameter size of the groove 5131 that slides and the peripheral size looks adaptation of top fishplate bar 541. The bottom wall of the top plate 513 and the bottom of the sliding groove 5131 are further provided with a preset passage 5132, and when the top plate 541 abuts against the inner cavity of the sliding groove 5131, the winch 52 abuts against the preset passage 5132.

Referring to fig. 4, in order to achieve the automatic displacement of the hoist 52 along the length direction of the top plate 513, the guide 54 further includes an outer connection plate 542 and a guide cylinder 543. The material guiding cylinder 543 is disposed on the top wall of the top plate 513, and the external plate 542 is welded to the sidewall of the top plate 541 far from the winch 52 along the vertical direction. A guide channel 5133 is further penetratingly disposed at the sliding groove 5131 on the top wall of the top plate 513, and in this embodiment, the width dimensions of the inner cavities of the guide channel 5133 and the preset channel 5132 are both smaller than the width dimension of the inner cavity of the sliding groove 5131.

Referring to fig. 5, in order to enable the material guiding cylinder 543 to push the external connection plate 542 to displace along the length direction of the top plate 513, a connection assembly 6 is disposed between the material guiding cylinder 543 and the external connection plate 542. Coupling assembling 6 includes joint plate 61 and connecting bolt 62, and joint plate 61 welds in the output of guide cylinder 543 towards the one end of outer fishplate bar 542, and joint plate 61 offsets the back with the mutual lateral wall that faces towards of outer fishplate bar 542, connecting bolt 62 fixed connection joint plate 61 and outer fishplate bar 542.

Referring to fig. 4, the hoisting member 53 includes a hoisting cable 531 and a receiving loop 532, the receiving loop 532 is disposed at one end of the hoisting cable 531 in the length direction, and one end of the hoisting cable 531 away from the receiving loop 532 is welded and wound on the output end of the hoist 52. An operator stacks guide rollers to be processed on the top wall of the bottom plate 511 in a centralized manner, and after the bearing ring body 532 is sleeved with the guide rollers, the hoisting machine 52 winds the hoisting steel cable 531 to enable the guide rollers to move to a certain height. Then, the material guiding cylinder 543 extends out of the output end, so that the winch 52 moves to above the jacking cylinder 11, the winch 52 releases the lifting steel cable 531, and the guide roller is erected on the supporting frame 12, thereby completing the automatic feeding of the guide roller on the supporting frame 12.

The implementation principle of the auxiliary feeding device for the guide roller machining is as follows: the guide roller is sleeved on the bearing ring body 532, so that the hoisting machine 52 winds the hoisting steel cable 531 to lift the guide roller to a certain height. The material guiding cylinder 543 extends outward to make the winding machine 52 move along the length direction of the top plate 513 to the upper side of the lifting cylinder 11. The hoist 52 releases the hoist cable 531 so that the guide rollers are positioned on the two aligned support frames 12.

The receiving ring 532 is pulled away from the outer edge wall of the guide roller to control the outward extending output end of the jacking cylinder 11, so that the guide roller is moved to the upper part of the machine frame for processing the guide roller. The driving motor 231 is driven to make the lead-in screw 232 rotate along with the output end of the driving motor 231, so that the connecting block 22 drives the jacking cylinder 11 and the guide roller to move to the machine frame for processing the guide roller. The shrinkage output end of the jacking cylinder 11 is controlled, so that the guide roller is automatically positioned on the rack.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a deflector roll processing is with supplementary loading attachment which characterized in that: the feeding device comprises two groups of jacking mechanisms (1) which are symmetrically arranged and a propelling mechanism (2) for propelling the jacking mechanisms (1) to move; each group of jacking mechanisms (1) comprises a jacking cylinder (11) and a support frame (12), the support frame (12) is arranged at the output end of the jacking cylinder (11), and the support frame (12) is used for bearing a guide roller to be processed; advancing mechanism (2) are including end fagging (21), connecting block (22) and propelling part (23), jacking cylinder (11) set up on connecting block (22), connecting block (22) and propelling part (23) set up on end fagging (21), propelling part (23) are used for promoting connecting block (22) along the extending direction displacement of end fagging (21).

2. The auxiliary feeding device for guide roller processing as claimed in claim 1, wherein: the propelling part (23) comprises a driving motor (231), an introduction screw rod (232) and a guide seat (233); the drive motor (231) and the guide seat (233) are arranged on the bottom supporting plate (21) relatively, the lead-in screw rod (232) penetrates through the connecting block (22), one end of the lead-in screw rod (232) is connected with the output end of the drive motor (231), and the other end of the lead-in screw rod is rotatably arranged in the guide seat (233).

3. The auxiliary feeding device for guide roller processing as claimed in claim 1, wherein: a fixing assembly (3) is arranged between the connecting block (22) and the jacking cylinder (11), and the fixing assembly (3) comprises a positioning plate (31) and a fixing bolt (32); locating plate (31) set up on the shoring cylinder, be provided with spacing groove (221) that are used for supplying locating plate (31) to go into on connecting block (22), fixing bolt (32) are used for being fixed in spacing groove (221) with locating plate (31).

4. The auxiliary feeding device for guide roller processing as claimed in claim 1, wherein: the supporting frame (12) is provided with a propping assembly (4), and the propping assembly (4) comprises a propping plate (41), a connecting screw rod (42) and an extension plate (43); the support frame (12) is worn to locate by connecting lead screw (42) screw thread, butt plate (41) set up in the one end that connecting lead screw (42) are located support frame (12), epitaxial plate (43) set up in the one end that connecting lead screw (42) kept away from butt plate (41).

5. The auxiliary feeding device for guide roller processing as claimed in claim 4, wherein: the lateral wall that connecting screw rod (42) was kept away from in butt joint board (41) is provided with laminating piece (411), be provided with in the lateral wall of support frame (12) and be used for accomodating accepting groove (121) of butt joint board (41) and laminating piece (411).

6. The auxiliary feeding device for guide roller processing as claimed in claim 1, wherein: the feeding device further comprises a lifting mechanism (5), wherein the lifting mechanism (5) comprises a mounting rack (51), a winch (52), a lifting piece (53) and a guide piece (54); the mounting rack (51) is arranged at one end of the bottom supporting plate (21), the winch (52) and the guide piece (54) are arranged on the mounting rack (51), and the guide piece (54) is used for pushing the winch (52) to move along the extension direction of the bottom supporting plate (21); one end of the lifting piece (53) is connected with an output shaft of the winch (52), and the other end of the lifting piece is used for connecting a guide roller to be processed.

7. The auxiliary feeding device for guide roller processing as claimed in claim 6, wherein: the lifting piece (53) comprises a lifting steel rope (531) and a bearing ring body (532); one end of the hoisting steel cable (531) is wound on an output shaft of the winch (52), and the other end of the hoisting steel cable is connected with the bearing ring body (532); the bearing ring body (532) is used for sleeving a guide roller to be processed.

8. The auxiliary feeding device for guide roller processing as claimed in claim 6, wherein: the guide piece (54) comprises a jacking plate (541), an external connecting plate (542) and a material guide cylinder (543); the jacking plate (541) is arranged on the winch (52), a top plate of the mounting frame (51) is provided with a sliding groove (5131) for the jacking plate (541) to abut into and slide, and a preset channel (5132) for the winch (52) to pass through is arranged on the top plate of the mounting frame (51) and positioned in the sliding groove (5131); the outer connecting plate (542) is arranged on the side wall, far away from the winch (52), of the abutting plate (541), and a guide channel (5133) for the outer connecting plate (542) to move is arranged on the top plate of the mounting frame (51) in a penetrating mode and located at the sliding groove (5131); the material guiding cylinder (543) is arranged on the mounting frame (51), and the output end of the material guiding cylinder (543) is connected with the outer connecting plate (542).

9. The auxiliary feeding device for guide roller processing as claimed in claim 8, wherein: a connecting assembly (6) is arranged between the material guide cylinder (543) and the outer connecting plate (542), and the connecting assembly (6) comprises a clamping connecting plate (61) and a connecting bolt (62); the clamping plate (61) is arranged at the output end of the material guide cylinder (543), and the connecting bolt (62) is used for fixing the clamping plate (61) on the outer connecting plate (542).

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