CN115683033A - Intelligent hub comprehensive detection device and use method thereof - Google Patents

Abstract

The invention relates to the technical field of hub detection, and discloses an intelligent hub comprehensive detection device and a use method thereof.

Description

Intelligent hub comprehensive detection device and use method thereof

Technical Field

The invention relates to the technical field of hub detection, in particular to an intelligent hub comprehensive detection device and a using method thereof.

Background

The invention discloses a comprehensive detection device for an inner ring of a heavy truck hub bearing (CN 201922380374.1) by retrieving the prior art, which comprises a rack, wherein a detection platform, a detection mechanism and a feeding mechanism are arranged on the rack, the left end of the detection platform is provided with a feeding conveyor belt, the right end of the detection platform is provided with a qualified product conveyor belt and a defective product conveyor belt, the feeding mechanism is arranged in front of the detection mechanism, the detection platform is positioned between the feeding mechanism and the detection mechanism, the detection mechanism comprises a hydraulic lifting rod, an inner diameter detection head, an outer diameter detection head, a crack detection head and a height detection head, and the inner diameter detection head, the crack detection head and the height detection head are sequentially arranged on the rack from left to right through the hydraulic lifting rod and are all positioned above the detection platform;

in the prior art, visual data recording is lacked for circumferential detection of a hub, a micrometer is generally attached to the circumferential surface of the hub and then the hub is rotated, and a detection end of the micrometer is pushed to move by the circumferential surface of the hub so as to rotate a pointer of the micrometer.

Therefore, an intelligent hub comprehensive detection device and a using method thereof are provided.

Disclosure of Invention

The invention mainly solves the technical problems in the prior art and provides an intelligent hub comprehensive detection device and a using method thereof.

In order to achieve the purpose, the invention adopts the following technical scheme that the intelligent hub comprehensive detection device comprises a cabinet body and a table top, wherein the table top is fixedly installed on the top surface of the cabinet body, a gap is reserved between the table top and the cabinet body, the top surface of the table top is provided with a measurement assembly, the measurement assembly comprises a bottom plate, a gasket, a lower through groove, a poke rod, a convex contact and a vertical detection rod, the bottom plate is fixedly connected with the table top, the top surface of the bottom plate is provided with the lower through groove, the poke rod penetrates through the lower through groove and extends into the gap between the cabinet body and the table top, the convex contact is fixedly connected with the poke rod, the gasket is fixedly connected with the bottom plate, and the top surface of the table top is also provided with a driving mechanism.

Further, the bottom plate is an arched plate, a plurality of lower through grooves are formed in the top surface of the bottom plate, the size of each lower through groove is larger than that of the poke rod, a displacement sensor is arranged in a gap between the table top and the cabinet body, and the poke rods are attached to the detection ends of the sensors.

Further, the tip of vertical test rod is the hemisphere arch, and two liang of mutual symmetries of a plurality of poker bars set up, and the protruding contact orientation of the poker bar lateral wall of adjacent position sets up oppositely.

Furthermore, the gasket is a circular metal plate, the end faces of the detection workpieces are placed on the top faces of the gaskets through a heat treatment process, the number of the gaskets is three, the three gaskets are arranged on the top face of the bottom plate in an annular array mode, and an included angle between every two adjacent gaskets is one hundred twenty degrees.

Further, protruding contact and bottom plate fixed connection and protruding contact extend to the clearance department between the cabinet body and the mesa, vertical test rod and protruding contact adaptation and vertical test rod and the internal face sliding connection of protruding contact, the upper end of vertical test rod is personally submitted spherical arch, and the below of vertical test rod sets up the same displacement sensor, and the top surface symmetry of bottom plate sets up two sets of protruding contacts and vertical test rod, and two sets of vertical test rod and protruding contact height are different, and the vertical test rod height in the same group is the same.

Further, actuating mechanism includes guide rail, support, electric jar, connecting plate, driving motor and driving shaft, guide rail and mesa fixed connection, support and guide rail sliding connection, the support promotes through the electric jar, and connecting plate and support sliding connection and support promote through the same electric jar, driving motor and connecting plate fixed connection, driving shaft and driving motor's output shaft fixed connection.

Furthermore, the support is a triangular plate, an electric cylinder is horizontally arranged on the top surface of the guide rail, an output shaft of the electric cylinder is fixedly connected with the support, the side wall of the support is vertically and fixedly connected with the same electric cylinder, the output shaft of the electric cylinder is fixedly connected with the connecting plate, and the driving shaft can move right above the bottom plate.

Further, actuating mechanism still includes limiting plate, side channel, otic placode, roller bearing, sleeve pipe, pull rod and elastic spring, sleeve pipe and connecting plate fixed connection, pull rod and sleeve pipe sliding connection, the other end and the pull rod fixed connection of the one end of elastic spring and sleeve pipe fixed connection and elastic spring, the terminal surface fixed connection of limiting plate and pull rod, the lower terminal surface fixed connection of otic placode and limiting plate, the roller bearing rotates with the otic placode to be connected, and the side channel of dodging the driving shaft is still seted up to the top surface of limiting plate.

Advantageous effects

The invention provides an intelligent hub comprehensive detection device and a using method thereof. The method has the following beneficial effects:

(1) The intelligent hub comprehensive detection device and the use method thereof are characterized in that a detection workpiece is placed on a bottom plate, the end face of a hub is supported by three gaskets, a plurality of poke rods are respectively arranged on the inner side and the outer side of the hub, the corresponding raised contacts are respectively contacted and attached with the inner wall face and the outer wall face of the hub, the inner circumferential face and the outer circumferential face of the hub respectively move circularly relative to the plurality of raised contacts by rotating the hub, when the inner circumferential face and the outer circumferential face of the hub have deviation and out-of-round, the circumferential face of the hub pushes the raised contacts to drive the corresponding raised contacts to move in a lower through groove, the circumferential face jumping amplitude of the hub is detected by a displacement sensor, and the hub comprehensive detection device is matched with a control module and a display which are arranged on the side wall of a cabinet body, the processing precision of the inner circumferential face and the outer circumferential face of the hub is intuitively reflected, the inner circumferential face or the outer circumferential face of the hub is simultaneously detected by the raised contacts at symmetrical positions, the detection precision is improved, and the error is reduced.

(2) According to the intelligent hub comprehensive detection device and the use method thereof, the end face of the hub is arranged on the top face of the gasket through the gasket subjected to heat treatment, and in the rotation process of the hub, the abrasion to the end face of the hub caused in the rotation process is reduced by reducing the contact area of the end face of the hub, so that the end face of the hub is better protected.

(3) According to the intelligent comprehensive wheel hub detection device and the use method thereof, the inner end face of the wheel hub is in contact with the vertical detection rod, when the end face of the wheel hub is uneven, the end face of the wheel hub can push the vertical detection rod to move in the vertical direction in the raised contact to realize the detection of the smoothness of the end face of the wheel hub, the detection of the circumferential face is matched with the raised contact to realize the detection of the accuracy of the end face and the circumferential face of the wheel hub at the same time, and the detection efficiency is high.

(4) This intelligent wheel hub comprehensive testing device and application method thereof makes support horizontal migration through control electric jar, and the connecting plate removes in vertical direction and pushes down the driving shaft to the eccentric hole of wheel hub's terminal surface, drives the driving shaft through driving motor and rotates and promote the wheel hub circumference rotatory for wheel hub keeps at the uniform velocity circumference and rotates, replaces artifical the promotion, improves and detects the convenience, and simultaneously, reduces work load, overcomes the problem that artifical promotion is difficult to control the rotational speed.

(5) The intelligent comprehensive wheel hub detection device and the using method thereof have the advantages that the connecting plate moves downwards to push the sleeve to drive the limiting plate to move downwards, the limiting plate is attached to the outer end face of the wheel hub through the rolling shaft, when the lower end face of the wheel hub generates vertical jumping smoothly, the rolling shaft is pushed through the wheel hub to drive the lug plate to move upwards, the lug plate pushes the guide rail to drive the pull rod to slide upwards in the sleeve and compress the elastic spring, the wheel hub is allowed to generate displacement in the vertical direction, the end face flatness of the wheel hub is convenient to detect, and meanwhile, the jumping of the wheel hub in the vertical direction is restrained to a certain degree.

Drawings

The structures, proportions, sizes, and other dimensions shown in the specification are for illustrative purposes only and are not intended to limit the scope of the present invention, which is defined in the claims, since they are not intended to limit the scope of the present invention.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is an enlarged view of A of FIG. 1 according to the invention;

FIG. 3 is an enlarged view of B of FIG. 1 according to the invention;

FIG. 4 is a perspective view of the inventive limiting plate;

fig. 5 is a schematic view of the pull rod separated from the sleeve.

Illustration of the drawings:

10. a cabinet body; 11. a table top; 20. a base plate; 21. a gasket; 22. a lower through groove; 23. a poke rod; 24. a protrusion; 25. a vertical detection rod; 30. a guide rail; 31. a support; 32. an electric cylinder; 33. a connecting plate; 34. a drive motor; 35. a drive shaft; 40. a limiting plate; 41. a side groove; 42. an ear plate; 43. a roller; 44. a sleeve; 45. a pull rod; 46. a spring.

Detailed Description

The embodiment one is an intelligent hub comprehensive detection device and a use method thereof, as shown in fig. 1-2, the intelligent hub comprehensive detection device comprises a cabinet body 10 and a table top 11, the table top 11 is fixedly installed on the top surface of the cabinet body 10, a gap is left between the table top 11 and the cabinet body 10, a measurement component is arranged on the top surface of the table top 11, the measurement component comprises a bottom plate 20, a gasket 21, a lower through groove 22, a poke rod 23, a convex contact 24 and a vertical detection rod 25, the bottom plate 20 is fixedly connected with the table top 11, the top surface of the bottom plate 20 is provided with the lower through groove 22, the poke rod 23 penetrates through the lower through groove 22 and extends into the gap between the cabinet body 10 and the table top 11, the convex contact 24 is fixedly connected with the poke rod 23, the gasket 21 is fixedly connected with the bottom plate 20, the top surface of the table top 11 is further provided with a driving mechanism, the bottom plate 20 is an arched plate, the top surface of the bottom plate 20 is provided with a plurality of lower through grooves 22, the lower through groove 22 is larger than the poke rod 23 in size, a displacement sensor is arranged in a gap between the table board 11 and the cabinet body 10, the poke rods 23 are attached to the detection ends of the sensor, the end portions of the vertical detection rods 25 are hemispherical bulges, the plurality of poke rods 23 are symmetrically arranged in pairs, the raised contacts 24 on the side walls of the poke rods 23 at adjacent positions are oppositely arranged, the gaskets 21 are round metal plates, the gaskets 21 are subjected to a heat treatment process, the end surfaces of detection workpieces are placed on the top surfaces of the gaskets 21, the number of the gaskets 21 is three, three gaskets 21 are arranged on the top surface of the bottom plate 20 and are annular array parts, the included angle between adjacent gaskets 21 is one hundred twenty degrees, the raised contacts 24 are fixedly connected with the bottom plate 20, the raised contacts 24 extend to the gap between the cabinet body 10 and the table board 11, the vertical detection rods 25 are matched with the raised contacts 24, and the inner wall surfaces of the vertical detection rods 25 are in sliding connection with the raised contacts 24, the upper end surface of the vertical detection rod 25 is a spherical bulge, the same displacement sensor is arranged below the vertical detection rod 25, two groups of bulge contacts 24 and the vertical detection rod 25 are symmetrically arranged on the top surface of the bottom plate 20, the two groups of vertical detection rods 25 and the bulge contacts 24 are different in height, the vertical detection rods 25 in the same group are same in height, a detection workpiece is placed on the bottom plate 20, the end surfaces of the hub are supported through three gaskets 21, the poke rods 23 are respectively arranged on the inner side and the outer side of the hub, the corresponding bulge contacts 24 are respectively in contact fit with the inner wall surface and the outer wall surface of the hub, the inner circumference surface and the outer circumference surface of the hub are respectively in circular motion relative to the bulge contacts 24 through rotating the hub, when the inner circumference surface and the outer circumference surface of the hub deviate and lose roundness, the circumference surface of the hub pushes the bulge contacts 24 to drive the corresponding bulge contacts 24 to displace in the lower through grooves 22, the circumferential surface jumping amplitude of the hub is detected through the displacement sensor, a control module and a display arranged on the side wall of the cabinet body 10 are matched, the processing precision of the inner circumference surface in a visualized reaction, the raised contacts 24 at symmetrical positions are simultaneously, and the inner circumference surface is detected, and the error is reduced.

Through the gasket 21 of thermal treatment, place the terminal surface of wheel hub in gasket 21 top surface, in wheel hub rotation process, through reducing the area of contact of wheel hub terminal surface, reduce the wearing and tearing that cause the wheel hub terminal surface in the rotation process, better protection wheel hub terminal surface.

Through the contact of the inner end surface of the hub and the vertical detection rod 25, when the end surface of the hub is uneven, the end surface of the hub can push the vertical detection rod 25 to move in the vertical direction in the convex contact 24 to realize the detection of the smoothness of the end surface of the hub, and the detection of the circumferential surface by matching with the convex contact 24 realizes the detection of the accuracy of the end surface and the circumferential surface of the hub simultaneously, and the detection efficiency is high.

The second embodiment is an intelligent hub comprehensive detection device and a use method thereof, as shown in fig. 3, the intelligent hub comprehensive detection device comprises a cabinet body 10 and a table top 11, the table top 11 is fixedly installed on the top surface of the cabinet body 10, a gap is reserved between the table top 11 and the cabinet body 10, a measurement component is arranged on the top surface of the table top 11, the measurement component comprises a bottom plate 20, a gasket 21, a lower through groove 22, a poke rod 23, a convex contact 24 and a vertical detection rod 25, the bottom plate 20 is fixedly connected with the table top 11, the lower through groove 22 is formed in the top surface of the bottom plate 20, the poke rod 23 penetrates through the lower through groove 22 and extends into the gap between the cabinet body 10 and the table top 11, the convex contact 24 is fixedly connected with the poke rod 23, the gasket 21 is fixedly connected with the bottom plate 20, a driving mechanism is further arranged on the top surface of the table top 11, the bottom plate 20 is an arched plate, the plurality of lower through grooves 22 are formed in the top surface of the bottom plate 20, the size of the lower through groove 22 is larger than the poke rod 23, a displacement sensor is arranged in a gap between the table board 11 and the cabinet body 10, the poke rods 23 are attached to the detection ends of the sensor, the end portions of the vertical detection rods 25 are hemispherical bulges, the plurality of poke rods 23 are symmetrically arranged in pairs, the raised contacts 24 on the side walls of the poke rods 23 at adjacent positions are oppositely arranged, the gaskets 21 are round metal plates, the gaskets 21 are subjected to a heat treatment process, the end surfaces of detection workpieces are placed on the top surfaces of the gaskets 21, the number of the gaskets 21 is three, three gaskets 21 are arranged on the top surface of the bottom plate 20 and are annular array parts, the included angle between adjacent gaskets 21 is one hundred twenty degrees, the raised contacts 24 are fixedly connected with the bottom plate 20, the raised contacts 24 extend to the gap between the cabinet body 10 and the table board 11, the vertical detection rods 25 are matched with the raised contacts 24, and the inner wall surfaces of the vertical detection rods 25 are in sliding connection with the raised contacts 24, the upper end surface of the vertical detection rod 25 is a spherical bulge, the same displacement sensor is arranged below the vertical detection rod 25, two groups of bulge contacts 24 and vertical detection rods 25 are symmetrically arranged on the top surface of the bottom plate 20, the heights of the two groups of vertical detection rods 25 and the bulge contacts 24 are different, the heights of the vertical detection rods 25 in the same group are the same, the driving mechanism comprises a guide rail 30, a support 31, an electric cylinder 32, a connecting plate 33, a driving motor 34 and a driving shaft 35, the guide rail 30 is fixedly connected with the table top 11, the support 31 is slidably connected with the guide rail 30, the support 31 is pushed by the electric cylinder 32, the connecting plate 33 is slidably connected with the support 31, the support 31 is pushed by the same electric cylinder 32, the driving motor 34 is fixedly connected with the connecting plate 33, and the driving shaft 35 is fixedly connected with the output shaft of the driving motor 34, support 31 is the triangle-shaped board, the top surface level of guide rail 30 sets up electric jar 32 and this electric jar 32's output shaft and support 31 fixed connection, the same electric jar 32 of the vertical fixed connection of lateral wall of support 31 and this electric jar 32's output shaft and connecting plate 33 fixed connection, driving shaft 35 is movable to bottom plate 20 directly over, on the basis of realizing the embodiment effect, make support 31 horizontal migration through control electric jar 32, connecting plate 33 moves in vertical direction and pushes down driving shaft 35 to the eccentric centre of wheel hub's terminal surface downthehole, it is rotatory to drive driving shaft 35 through driving motor 34 and rotate and promote the wheel hub circumference, make wheel hub keep at the uniform velocity circumferential rotation, replace artifical promotion, improve and detect the convenience, and simultaneously, the work load is reduced, overcome the problem that artifical promotion is difficult to control the rotational speed.

In a third embodiment, as shown in fig. 4 to 5, the driving mechanism further includes a limiting plate 40, a side groove 41, an ear plate 42, a roller 43, a sleeve 44, a pull rod 45, and an elastic spring 46, the sleeve 44 is fixedly connected to the connecting plate 33, the pull rod 45 is slidably connected to the sleeve 44, one end of the elastic spring 46 is fixedly connected to the sleeve 44, and the other end of the elastic spring 46 is fixedly connected to the pull rod 45, the limiting plate 40 is fixedly connected to an end face of the pull rod 45, the ear plate 42 is fixedly connected to a lower end face of the limiting plate 40, the roller 43 is rotatably connected to the ear plate 42, the top face of the limiting plate 40 is further provided with the side groove 41 which avoids the driving shaft 35, the sleeve 44 is pushed downward by moving the connecting plate 33 to drive the limiting plate 40 to move downward, the roller 43 is attached to an outer end face of the hub, when the lower end face of the hub is flat and generates a vertical runout, the ear plate 43 drives the roller 42 to move upward, the rail 30 drives the pull rod 45 to slide in the sleeve 44 and compress the elastic spring 46, so as to allow the hub to generate a vertical runout displacement in the vertical direction, and to detect the hub runout degree.

The working principle of the invention is as follows:

the first step is as follows: placing a detection workpiece on a bottom plate 20, supporting the end face of a hub by three gaskets 21, respectively placing a plurality of poke rods 23 on the inner side and the outer side of the hub, contacting the inner end face of the hub with a vertical detection rod 25, and contacting a plurality of convex contacts 24 with the circumferential face of the hub;

the second step is that: the electric cylinder 32 is controlled so that the carriage 31 moves horizontally,

the third step: the output shaft of the vertical electric cylinder 32 pushes the connecting plate 33 to move in the vertical direction to push the driving shaft 35 down to an eccentric hole on the end face of the hub;

the fourth step: the driving shaft 35 is driven by the driving motor 34 to rotate to push the hub to rotate circumferentially,

the fifth step: the connecting plate 33 moves downwards to push the sleeve 44 to drive the limiting plate 40 to move downwards, the roller 43 is attached to the outer end face of the hub, when the lower end face of the hub is flat and generates vertical jumping, the hub pushes the roller 43 to drive the lug plate 42 to move upwards, the lug plate 42 pushes the guide rail 30 to drive the pull rod 45 to slide upwards in the sleeve 44 and compress the spring 46.

The foregoing shows and describes the general principles and features of the present invention, together with the advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims (9)

1. The utility model provides an intelligent wheel hub comprehensive testing device, includes the cabinet body (10) and mesa (11), mesa (11) fixed mounting leaves clearance, its characterized in that at the top surface of the cabinet body (10) between mesa (11) and the cabinet body (10): the top surface of mesa (11) sets up measuring component, measuring component includes bottom plate (20), gasket (21), lower through groove (22), poker rod (23), protruding contact (24) and vertical detection pole (25), bottom plate (20) and mesa (11) fixed connection, the top surface of bottom plate (20) is opened and is established lower through groove (22), poker rod (23) pass lower through groove (22) and extend to the clearance between the cabinet body (10) and mesa (11) in, protruding contact (24) and poker rod (23) fixed connection, gasket (21) and bottom plate (20) fixed connection, the top surface of mesa (11) still is provided with actuating mechanism.

2. The intelligent hub comprehensive detection device according to claim 1, wherein: the bottom plate (20) is a cambered plate, a plurality of lower through grooves (22) are formed in the top surface of the bottom plate (20), the size of each lower through groove (22) is larger than that of each poking rod (23), a displacement sensor is arranged in a gap between the table board (11) and the cabinet body (10), and the poking rods (23) are attached to the detection ends of the sensors.

3. The intelligent hub comprehensive detection device according to claim 2, wherein: the end part of the vertical detection rod (25) is hemispherical and convex, a plurality of poking rods (23) are symmetrically arranged in pairs, and the convex contacts (24) on the side walls of the poking rods (23) at adjacent positions are oppositely arranged.

4. The intelligent hub comprehensive detection device according to claim 3, wherein: the gasket (21) is circular metal sheet and gasket (21) are through heat treatment process, and the terminal surface that detects the work piece is placed on the top surface of gasket (21), and the quantity of gasket (21) is three and three gasket (21) are annular array part at bottom plate (20) top surface, and the contained angle between adjacent gasket (21) is one hundred twenty degrees.

5. The intelligent hub comprehensive detection device according to claim 4, wherein: protruding contact (24) and bottom plate (20) fixed connection and protruding contact (24) extend to the clearance department between the cabinet body (10) and mesa (11), vertical detection pole (25) and protruding contact (24) adaptation and the internal face sliding connection of vertical detection pole (25) and protruding contact (24), the upper end of vertical detection pole (25) is personally submitted spherical arch, and the below of vertical detection pole (25) sets up the same displacement sensor, and the top surface symmetry of bottom plate (20) sets up two sets of protruding contacts (24) and vertical detection pole (25), and two sets of vertical detection pole (25) and protruding contact (24) highly are different, and vertical detection pole (25) in the same group are highly the same.

6. The intelligent hub comprehensive detection device according to claim 5, wherein: the driving mechanism comprises a guide rail (30), a support (31), an electric cylinder (32), a connecting plate (33), a driving motor (34) and a driving shaft (35), the guide rail (30) is fixedly connected with the table board (11), the support (31) is in sliding connection with the guide rail (30), the support (31) is pushed through the electric cylinder (32), the connecting plate (33) is in sliding connection with the support (31), the support (31) is pushed through the same electric cylinder (32), the driving motor (34) is fixedly connected with the connecting plate (33), and the driving shaft (35) is fixedly connected with an output shaft of the driving motor (34).

7. The intelligent hub comprehensive detection device according to claim 5, wherein: the support (31) is a triangular plate, the top surface of the guide rail (30) is horizontally provided with an electric cylinder (32), an output shaft of the electric cylinder (32) is fixedly connected with the support (31), the side wall of the support (31) is vertically and fixedly connected with the same electric cylinder (32), the output shaft of the electric cylinder (32) is fixedly connected with the connecting plate (33), and the driving shaft (35) can move to the position right above the bottom plate (20).

8. The intelligent hub comprehensive detection device according to claim 5, wherein: actuating mechanism still includes limiting plate (40), side channel (41), otic placode (42), roller bearing (43), sleeve pipe (44), pull rod (45) and elasticity spring (46), sleeve pipe (44) and connecting plate (33) fixed connection, pull rod (45) and sleeve pipe (44) sliding connection, the one end and sleeve pipe (44) fixed connection and the other end and pull rod (45) fixed connection of elasticity spring (46), the terminal surface fixed connection of limiting plate (40) and pull rod (45), the lower terminal surface fixed connection of otic placode (42) and limiting plate (40), roller bearing (43) and otic placode (42) rotate to be connected, and the side channel (41) of dodging driving shaft (35) are still seted up to the top surface of limiting plate (40).

9. The use method of the intelligent hub comprehensive detection device is characterized by comprising the following steps: the method comprises the following steps:

the first step is as follows: placing a detection workpiece on a bottom plate (20), supporting the end face of a hub through three gaskets (21), respectively placing a plurality of poke rods (23) on the inner side and the outer side of the hub, contacting the inner end face of the hub with a vertical detection rod (25), and contacting a plurality of convex contacts (24) with the circumferential surface of the hub;

the second step is that: the electric cylinder (32) is controlled to enable the bracket (31) to move horizontally,

the third step: an output shaft of the vertical electric cylinder (32) pushes the connecting plate (33) to move in the vertical direction to push the driving shaft (35) down to an eccentric hole in the end face of the hub;

the fourth step: the driving shaft (35) is driven by the driving motor (34) to rotate to push the hub to rotate circumferentially,

the fifth step: the connecting plate (33) moves downwards to push the sleeve (44) to drive the limiting plate (40) to move downwards, the roller (43) is attached to the outer end face of the hub, when the lower end face of the hub is flat and generates vertical jumping, the hub pushes the roller (43) to drive the lug plate (42) to move upwards, and the lug plate (42) pushes the guide rail (30) to drive the pull rod (45) to slide upwards in the sleeve (44) and compress the elastic spring (46).

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