CN220514639U - Transfer device for coating production line - Google Patents

Abstract

The utility model relates to the technical field of coating transportation, and discloses a transfer device for a coating production line, which comprises a support frame, wherein the support frame is provided with a plurality of support frames; the utility model provides a plurality of pivots of being connected with braced frame rotate, braced frame's top surface is provided with the limit structure that can slow down the automobile body, limit structure includes the leading wheel, the storage portion, vertical axis and paddle board, the storage portion is dismantled with braced frame and is connected, vertical axis is rotated with the leading wheel and is connected, paddle board and vertical axis fixed connection, in the automobile body motion in-process, the leading wheel is contradicted with the automobile body and is laminated, promote the leading wheel rotatory through the automobile body, the leading wheel is rotatory with paddle board, the paddle board stirs liquid in the storage portion, the resistance through liquid for paddle board restricts the rotation of vertical axis and leading wheel, utilize the leading wheel to slow down the automobile body, realize flexible deceleration, reduce the load of motor and pivot, better realization is slowed down the automobile body and the work piece that the automobile body carried, restrain the relative slip of automobile body and push away the wheel.

Description

Transfer device for coating production line

Technical Field

The utility model belongs to the technical field of coating transportation, and particularly relates to a transfer device for a coating production line.

Background

The prior art discloses a transfer device and a coating production line (CN 202210468040.3), the transfer device comprises a supporting skid and a bearing skid, the supporting skid comprises a first conveying beam and a second conveying beam which are arranged in parallel, a beam group is connected between the first conveying beam and the second conveying beam, a transmission wheel group is arranged on the beam group so that the bearing skid moves along the length direction of the first conveying beam, a moving component is arranged on one surface of the first conveying beam, facing the second conveying beam, the moving component is connected with a code reading device, and the moving component is used for driving the code reading device to move;

in the prior art, when the vehicle body moves to a designated position, the vehicle body is required to be decelerated, namely the rotating speed of the motor is reduced, at the moment, the vehicle body and a workpiece on the vehicle body have certain inertia, the vehicle body applies larger thrust to the driving wheel and the rotating shaft of the motor, so that the load of the driving wheel, the shaft and the motor is increased, the vehicle body also slides relative to the driving wheel easily, the deceleration effect is not ideal, the precision and the service life of a driving assembly are not facilitated, and the space can be optimized for guiding and decelerating the vehicle body in the moving process.

The present utility model has been made in view of this.

Disclosure of Invention

In order to solve the technical problems, the utility model adopts the basic conception of the technical scheme that:

a transfer device for a coating production line comprises a support frame; the device comprises a plurality of rotating shafts connected with a supporting frame in a rotating mode, wherein the same pushing wheels are fixedly connected to the wall surface of each rotating shaft, the rotating shafts are driven through belts, a vehicle body is arranged on the pushing wheels and pushed through the pushing wheels, a limiting structure capable of decelerating the vehicle body is arranged on the top surface of the supporting frame, the limiting structure comprises a guide wheel, a storage part, a vertical shaft and a paddle board, the storage part is connected with the supporting frame in a detachable mode, the vertical shaft is connected with the guide wheel in a rotating mode, the paddle board is fixedly connected with the vertical shaft, the guide wheel is in contact with the supporting frame, and vehicle body displacement can push the guide wheel to drive the paddle board to rotate to stir liquid in a cavity of the storage part.

As a preferable implementation mode of the utility model, the limit structure further comprises a sliding part and a sliding groove, a gap is reserved between the paddle board and the vertical shaft, the sliding groove is formed in the wall surface of the paddle board, and the sliding part can slide in the sliding groove towards the vertical shaft.

In a preferred embodiment of the present utility model, the sliding portion is inclined toward the vertical axis, a bottom surface of the sliding portion forms an inclined surface that is engaged with the chute, and the sliding portion can slide obliquely toward the vertical axis under the action of gravity.

As a preferred implementation mode of the utility model, the limiting structure further comprises a limiting groove, a limiting screw and a connecting plate, wherein the connecting plate is fixedly connected with the paddle board and fixedly connected with the vertical shaft, the limiting screw is in threaded connection with the paddle board, the top surface of the sliding part is provided with the limiting groove, and the limiting screw extends into the limiting groove to limit the sliding part.

As a preferred embodiment of the utility model, the limit groove is a rectangular groove, the width of the limit groove is larger than the diameter of the limit screw rod, the length of the limit groove is smaller than the width of the sliding part, a margin is reserved between two side wall surfaces opposite to the sliding part, the top surface of the paddle board is provided with a threaded hole extending into the chute, and the limit screw rod is in threaded connection with the threaded hole.

As a preferred embodiment of the present utility model, the paddle board and the sliding part are rectangular blocks, and the paddle board does not interfere with the storage part.

As a preferred implementation mode of the utility model, the limiting structure further comprises an end cover, a jack and a skirt, the storage part forms an open cylinder, the end cover is matched with the storage part and is in threaded interception with the inner wall of the storage part, the end cover shields and seals the opening of the storage part, the jack is arranged on the wall surface of the end cover, the vertical shaft penetrates through the jack to extend into the cavity of the storage part, and the skirt is fixedly connected with the storage part and is locked with the supporting frame through bolts.

As a preferred implementation mode of the utility model, the inner wall surface of the end cover, which is positioned at the jack, is provided with a sealing ring, a vertical shaft penetrates through the sealing ring, the skirt edge is fixedly connected with the outer circumferential surface of the storage part, the wall surface of the skirt edge is provided with a plurality of mounting holes at equal intervals, bolts penetrate through the mounting holes to be locked with the supporting frame, and a plurality of identical limiting components are arranged at equal intervals on the top surface of the supporting frame.

Compared with the prior art, the utility model has the following beneficial effects:

1. in the motion process of the vehicle body, the guide wheel is abutted against the vehicle body to be attached, the guide wheel is pushed to rotate through the vehicle body, the guide wheel drives the vertical shaft and the paddle board to rotate, the paddle board agitates liquid in the storage part, in the stop motion process of the vehicle body, the paddle board is subjected to deceleration motion, the vertical shaft and the guide wheel are limited to rotate through the resistance of the liquid to the paddle board, the vehicle body is decelerated through the guide wheel, flexible deceleration is achieved, the load of the motor and the rotating shaft is reduced, the vehicle body and the workpiece conveyed by the vehicle body are decelerated through better realization, and the relative sliding of the vehicle body and the pushing wheel is restrained.

2. When the vehicle body needs to be decelerated, the motor gradually reduces the rotating speed, the paddle board performs deceleration circular motion, the centrifugal force born by the sliding part is reduced, the sliding part slides in the sliding groove in a direction away from the paddle board, the sliding part slides out of the sliding groove, the sliding part and the paddle board jointly agitate the liquid in the storage part, the deceleration effect is improved by increasing the area impacted by the liquid, the speed is automatically adjusted, the deceleration effect on the vehicle body is better, and an additional power device is not needed; through setting up spacing groove and spacing screw, at the portion of sliding in-process that slides, the relative motion of spacing screw in the spacing groove, spacing screw can prevent that the portion of sliding from breaking away from with the paddle, ensures the steady operation of whole device.

3. Through setting up the shirt rim, a plurality of the same mounting holes have been seted up to braced frame's top surface, the bolt passes shirt rim and braced frame's mounting hole and locks with the nut, realize the fixed to the shirt rim, can be according to the size of the work piece mass of transporting and the size of automobile body, the installation quantity of adjustment storage portion, the flexible degree is higher, be convenient for install and debug, and through setting up the end cover, utilize end cover and storage portion threaded connection to realize the sealing to storage portion open-ended, be convenient for add liquid, the sealing washer in the jack can ensure the sealed effect to the vertical axis prevents the liquid seepage.

The following describes the embodiments of the present utility model in further detail with reference to the accompanying drawings.

Drawings

In the drawings:

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a perspective view of the present utility model;

FIG. 3 is an exploded view of a spacing structure of the present utility model;

FIG. 4 is a cross-sectional view of a paddle of the utility model;

FIG. 5 is a diagram illustrating the assembly of the slip portion and the paddle according to the present utility model.

In the figure: 10. a support frame; 11. a rotating shaft; 12. a push wheel; 13. a vehicle body; 20. a guide wheel; 21. a storage unit; 22. a vertical axis; 23. a paddle board; 24. an end cap; 25. a jack; 26. a skirt edge; 30. a sliding part; 31. a chute; 32. a limit groove; 33. a limit screw; 34. and (5) connecting a plate.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions in the embodiments will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and the following embodiments are used to illustrate the present utility model.

A transfer device for a coating line, as shown in fig. 1 and 2, comprises a support frame 10; the wall surface of each rotating shaft 11 is fixedly connected with the same driving wheel 12, a plurality of rotating shafts 11 are driven by a belt, a vehicle body 13 is arranged on the driving wheel 12 and is driven by the driving wheel 12, a motor is further arranged on the wall surface of the supporting frame 10, the wall surface of each rotating shaft 11 is fixedly connected with a belt pulley, the belt pulleys of the rotating shafts 11 are mutually meshed by a plurality of belts to realize transmission, the output shaft of the motor is provided with another belt pulley, the belt pulley of the output shaft of the motor is meshed with the belt pulley of the wall surface of one rotating shaft 11, and the corresponding driving wheel 12 is driven by the plurality of rotating shafts 11 to rotate so as to realize the driving of the vehicle body 13 and further realize the transportation, which is the prior known technology and is not repeated herein;

as shown in fig. 1 and 3, the top surface of the supporting frame 10 is provided with a limit structure capable of decelerating the vehicle body 13, the limit structure comprises a guide wheel 20, a storage part 21, a vertical shaft 22 and a paddle board 23, the storage part 21 is detachably connected with the supporting frame 10, the vertical shaft 22 is rotationally connected with the guide wheel 20, the paddle board 23 is fixedly connected with the vertical shaft 22, the guide wheel 20 is abutted against the supporting frame 10, the vehicle body 13 displacement can push the guide wheel 20 to drive the paddle board 23 to rotationally stir liquid in a cavity of the storage part 21, the paddle board 23 and the sliding part 30 are rectangular blocks, the paddle board 23 does not interfere with the storage part 21, the liquid is stored in the storage part 21 and is non-newton liquid, the guide wheel 20 is abutted against the vehicle body 13 in the motion process of the vehicle body 13, the guide wheel 20 is pushed to rotate by the vehicle body 13, the guide wheel 20 drives the vertical shaft 22 and the paddle board 23 to rotate, the paddle board 23 is fixedly connected with the vertical shaft 22, the liquid is stirred in the storage part 21, the paddle board 23 is abutted against the supporting frame 10, the paddle board 23 is prevented from rotating by the liquid to stir the liquid in the motion process of the vehicle body 13, the rotation of the vertical shaft 22 and the paddle board 20 is restrained by the liquid, the rotation of the guide wheel 20 and the vehicle body 20 is better in the deceleration motor and the reduction of the vehicle body 13 is realized by the rotation of the vehicle body 13, and the load of the vehicle body 13 is reduced by the motor.

As shown in fig. 4 and 5, the limit structure further comprises a sliding part 30 and a sliding groove 31, a gap is reserved between the paddle board 23 and the vertical shaft 22, the wall surface of the paddle board 23 is provided with the sliding groove 31, the sliding part 30 can slide in the sliding groove 31 towards the vertical shaft 22, the sliding part 30 is obliquely provided towards the vertical shaft 22, the bottom surface of the sliding part 30 forms an inclined surface matched with the sliding groove 31, the sliding part 30 can obliquely slide towards the vertical shaft 22 under the action of gravity, the limit structure further comprises a limit groove 32, a limit screw 33 and a connecting plate 34, the connecting plate 34 is fixedly connected with the paddle board 23 and fixedly connected with the vertical shaft 22, the limit screw 33 is in threaded connection with the paddle board 23, the top surface of the sliding part 30 is provided with the limit groove 32, the limit screw 33 extends into the limit groove 32 to limit the sliding part 30, the limit groove 32 is a rectangular groove, the width of the limit groove 32 is larger than the diameter of the limit screw 33, the length of the limit groove 32 is smaller than the width of the sliding part 30, a margin is reserved between two opposite side wall surfaces of the sliding part 30, the top surface of the paddle board 23 is provided with a threaded hole extending into the sliding groove 31, the limit screw 33 is in threaded connection with the threaded hole, as optimization of the scheme, the paddle board 23 is connected with the circumferential surface of the vertical shaft 22 by using the connecting plate 34, a gap is formed between the paddle board 23 and the vertical shaft 22 for sliding the sliding part 30, the sliding part 30 slides towards the paddle board 23 under the action of centrifugal force in the running process of the vehicle body 13, the sliding part 30 is attached to the inner side wall surface of the paddle board 23, when the vehicle body 13 needs to be decelerated, the motor gradually reduces the rotating speed, the paddle board 23 performs deceleration circular motion, the centrifugal force received by the sliding part 30 is reduced, the sliding part 30 slides in the sliding groove 31 in a direction away from the paddle board 23, the sliding part 30 slides out from the sliding groove 31, the sliding part 30 and the paddle board 23 jointly agitates the liquid in the storage part 21, the speed reduction effect is improved by increasing the area impacted by the liquid, the speed is automatically adjusted according to the speed, the speed reduction effect on the vehicle body 13 is better, and an additional power device is not needed;

through setting up spacing groove 32 and spacing screw 33, at the portion 30 that slides in-process that slides, the relative motion of spacing screw 33 in spacing groove 32, spacing screw 33 can prevent that portion 30 and paddle 23 from breaking away from, ensures the steady operation of whole device.

As shown in fig. 3, the limit structure further comprises an end cover 24, a jack 25 and a skirt 26, the storage part 21 forms an open cylinder, the end cover 24 is mutually matched with the storage part 21 and is in threaded interception with the inner wall of the storage part 21, the end cover 24 shields and seals the opening of the storage part 21, the jack 25 is formed in the wall surface of the end cover 24, the vertical shaft 22 penetrates through the jack 25 and extends into the cavity of the storage part 21, the skirt 26 is fixedly connected with the storage part 21 through bolts and is locked with the support frame 10, the end cover 24 is provided with a sealing ring on the inner wall surface of the jack 25, the skirt 26 is fixedly connected with the outer circumferential surface of the storage part 21, a plurality of mounting holes are formed in the wall surface of the skirt 26 at equal intervals, the bolts penetrate through the mounting holes and are locked with the support frame 10, a plurality of identical limit components are formed in the top surface of the support frame 10 at equal intervals, the bolts penetrate through the skirt 26 and are locked through the mounting holes of the support frame 10, the fixing of the skirt 26 and the support frame 10 through nuts, the fixing of the skirt 26 can be realized, the mounting quantity of the storage part 21 can be adjusted according to the size of the workpiece and the size of the car body 13, the mounting quantity of the storage part 21 is convenient to install, the sealing effect is realized, the sealing effect of the sealing of the storage part 21 can be realized by the sealing of the jack 24 with the jack 25 is convenient to install, the sealing effect of the sealing of the storage part is realized, and the sealing effect of the sealing of the storage part 22 can be prevented by the sealing the wall of the jack 25 is convenient to be arranged by the wall 24.

Working principle: the storage part 21 is filled with liquid, the end cover 24 is screwed up, a plurality of same mounting holes are formed in the top surface of the support frame 10, bolts penetrate through the skirt edge 26 and the mounting holes of the support frame 10 and are locked by nuts, the skirt edge 26 is fixed, the mounting quantity of the storage part 21 can be adjusted according to the mass of a conveyed workpiece and the size of the vehicle body 13, in the moving process of the vehicle body 13, the guide wheel 20 is abutted against the vehicle body 13, the guide wheel 20 is pushed by the vehicle body 13 to rotate, the guide wheel 20 drives the vertical shaft 22 and the paddle board 23 to rotate, the paddle board 23 agitates the liquid in the storage part 21, in the stopping and decelerating process of the vehicle body 13, the paddle board 23 is subjected to decelerating motion, the paddle board 23 is connected with the circumferential surface of the vertical shaft 22 by utilizing the connecting plate 34, a gap is formed between the paddle board 23 and the vertical shaft 22 for slipping the paddle board 30, in the walking process of the vehicle body 13, the slipping part 30 slips towards the paddle board 23 under the centrifugal force, the slipping part 30 is abutted against the inner side wall surface of the paddle board 23, when the vehicle body 13 needs to decelerate, the motor gradually decreases the rotating speed, the paddle board 23 is decelerated, the paddle board 23 moves circularly, the paddle board 30 is subjected to decelerating motion, the paddle board 30 is lowered, the sliding part 30 is separated from the paddle board 31 in the sliding groove 31 in the direction from the sliding groove 31, and the sliding groove 30 is raised, and the sliding part is jointly, and the liquid is separated from the paddle board 30, and the sliding part is separated from the paddle board 23.

It will be understood that the utility model has been described in terms of several embodiments, and that various changes and equivalents may be made to these features and embodiments by those skilled in the art without departing from the spirit and scope of the utility model. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the utility model without departing from the essential scope thereof. Therefore, it is intended that the utility model not be limited to the particular embodiment disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (8)

1. A transfer device for a coating line, comprising a support frame (10); the device is characterized in that the top surface of the supporting frame (10) is provided with a limiting structure capable of decelerating the vehicle body (13), the limiting structure comprises a guide wheel (20), a storage part (21), a vertical shaft (22) and a paddle board (23), the storage part (21) is connected with the supporting frame (10) in a disassembling mode, the vertical shaft (22) is connected with the guide wheel (20) in a rotating mode, the paddle board (23) is fixedly connected with the vertical shaft (22), the guide wheel (20) is abutted to the supporting frame (10), and the vehicle body (13) can push the guide wheel (20) to drive the paddle board (23) to rotate so as to stir liquid in a cavity of the storage part (21).

2. The transfer device for a coating production line according to claim 1, wherein the limiting structure further comprises a sliding part (30) and a sliding groove (31), a gap is reserved between the paddle board (23) and the vertical shaft (22), the sliding groove (31) is formed in the wall surface of the paddle board (23), and the sliding part (30) can slide in the sliding groove (31) towards the vertical shaft (22).

3. The transfer device for a coating line according to claim 2, wherein the sliding portion (30) is obliquely opened toward the vertical axis (22), a bottom surface of the sliding portion (30) forms an inclined surface that is engaged with the chute (31), and the sliding portion (30) can obliquely slide toward the vertical axis (22) under the action of gravity.

4. The transfer device for a coating production line according to claim 2, wherein the limiting structure further comprises a limiting groove (32), a limiting screw (33) and a connecting plate (34), the connecting plate (34) is fixedly connected with the paddle board (23) and is fixedly connected with the vertical shaft (22), the limiting screw (33) is in threaded connection with the paddle board (23), the top surface of the sliding part (30) is provided with the limiting groove (32), and the limiting screw (33) extends into the limiting groove (32) to limit the sliding part (30).

5. The transfer device for the coating production line according to claim 4, wherein the limit groove (32) is a rectangular groove, the width of the limit groove (32) is larger than the diameter of the limit screw (33), the length of the limit groove (32) is smaller than the width of the sliding part (30) and a margin is reserved between two side wall surfaces opposite to the sliding part (30), a threaded hole extending into the chute (31) is formed in the top surface of the paddle board (23), and the limit screw (33) is in threaded connection with the threaded hole.

6. Transfer device for a painting line according to claim 2, characterized in that the paddles (23) and the sliding part (30) are rectangular blocks, the paddles (23) not interfering with the storage part (21).

7. The transfer device for a coating production line according to claim 1, wherein the limiting structure further comprises an end cover (24), a jack (25) and a skirt (26), the storage part (21) forms an open cylinder, the end cover (24) is matched with the storage part (21) and is in threaded interception with the inner wall of the storage part (21), the end cover (24) shields and seals the opening of the storage part (21), the jack (25) is formed in the wall surface of the end cover (24), the vertical shaft (22) penetrates through the jack (25) to extend into the cavity of the storage part (21), and the skirt (26) is fixedly connected with the storage part (21) and is locked with the support frame (10) through bolts.

8. The transfer device for a coating production line according to claim 7, wherein a sealing ring is arranged on the inner wall surface of the end cover (24) at the jack (25), a vertical shaft (22) penetrates through the sealing ring, a skirt (26) is fixedly connected with the outer circumferential surface of the storage part (21), a plurality of mounting holes are formed in the wall surface of the skirt (26) at equal intervals, bolts penetrate through the mounting holes and are locked with the supporting frame (10), and a plurality of identical limiting assemblies are arranged on the top surface of the supporting frame (10) at equal intervals.