CN115014065B

CN115014065B - Auto-parts processing drying device

Info

Publication number: CN115014065B
Application number: CN202210619716.4A
Authority: CN
Inventors: 邢礼宏
Original assignee: Yancheng Dongfang Tiancheng Machinery Co ltd
Current assignee: Yancheng Dongfang Tiancheng Machinery Co ltd
Priority date: 2022-06-01
Filing date: 2022-06-01
Publication date: 2024-01-09
Anticipated expiration: 2042-06-01
Also published as: CN115014065A

Abstract

The invention is applicable to the field of auto parts, and provides an auto parts processing and drying device, which comprises a drying box and further comprises: the device comprises a supporting seat, a filter screen, a heating wire, a mounting plate, a first pressure spring, a drying hole, a clamping assembly, an intermittent blasting assembly and a rotating assembly; the supporting seat is fixedly arranged in the drying box. The clamping component clamps the automobile parts, the heating wire heats the air in the drying cavity, the intermittent blowing component intermittently blows air into the drying cavity, hot air in the drying cavity is blown to the automobile parts through the drying holes, then the automobile parts are dried, the pressure in the drying cavity is increased when the intermittent blowing component blows air into the drying cavity, then the mounting plate is jacked up by overcoming the elastic force of the first pressure spring, when the intermittent blowing component does not blow air into the drying cavity, the mounting plate is pulled to move downwards and reset by the first pressure spring, then the mounting plate intermittently vibrates up and down, and the mounting plate drives the automobile parts to intermittently vibrate up and down, so that water on the automobile parts is thrown out.

Description

Auto-parts processing drying device

Technical Field

The invention belongs to the field of automobile accessories, and particularly relates to an automobile accessory processing and drying device.

Background

An automobile accessory is a product that serves an automobile as well as individual units that make up the automobile as a whole. In the production of automotive parts, cleaning and drying are generally required in order to ensure the cleanliness of the parts.

The existing method for drying the automobile parts comprises the steps that the automobile parts are placed on a conveying belt, the conveying belt drives the automobile parts to pass through a drying box, and a heater in the drying box generates heat, so that the drying of the automobile parts is completed; the drying efficiency of this kind of stoving mode is low, and auto-parts is placed on the conveyer belt, and auto-parts's bottom can not fully dry, leads to the stoving inhomogeneous.

Disclosure of Invention

The embodiment of the invention aims to provide an automobile part processing and drying device, which aims to solve the problem that the existing automobile part drying device cannot be used for rapidly and uniformly drying automobile parts.

The invention is realized in such a way that an auto-parts processing drying device comprises a drying box and further comprises:

the device comprises a supporting seat, a filter screen, a heating wire, a mounting plate, a first pressure spring, a drying hole, a clamping assembly, an intermittent blasting assembly and a rotating assembly;

the support seat is fixedly arranged in the drying box, a drying cavity is arranged on the support seat in a penetrating manner, the intermittent air blast assembly is arranged in the drying cavity, an air inlet is arranged on the drying box, the filter screen is arranged on the air inlet, the drying cavity is communicated with the air inlet, the heating wire is arranged in the drying cavity, the mounting plate is slidably connected to the support seat, two ends of the first pressure spring are respectively connected with the support seat and the mounting plate, the drying holes are formed in the mounting plate, a plurality of drying holes are formed in the drying holes, the clamping assembly is arranged on the mounting plate, and the rotating assembly is arranged on the clamping assembly;

the clamping assembly is used for clamping the automobile parts, the intermittent blasting assembly is used for blasting air intermittently into the drying cavity, the mounting plate vibrates up and down in a mode of changing pressure in the drying cavity, and the rotating assembly drives the automobile parts to rotate intermittently in a mode of vibrating the mounting plate.

Further technical scheme, intermittent type blast subassembly includes motor, mounting bracket, drive shaft, blade, head rod, second connecting rod, slip cap, first transmission piece, second transmission piece, third pressure spring and balancing weight, motor fixed mounting is on the stoving case, second transmission piece fixed mounting is on the rotation end of motor, mounting bracket fixed mounting is in the stoving intracavity, the drive shaft rotates to be connected on the mounting bracket, blade fixed mounting is in the one end of drive shaft, slip cap sliding connection is at the other end of drive shaft, first transmission piece fixed mounting is on the slip cap, head rod rotation is connected in the drive shaft, the both ends of second connecting rod rotate with head rod and slip cap respectively to be connected, the cover of third pressure spring is established in the drive shaft, just the both ends of third pressure spring are connected with head rod and slip cap respectively, the balancing weight sets up the junction at head rod and second connecting rod.

Further technical scheme, the clamping assembly includes first supporting shoe, first rolling disc, second supporting shoe, flexible jar, guiding axle, installation piece and second rolling disc, first supporting shoe and second supporting shoe are all fixed mounting on the mounting panel, first rolling disc and second rolling disc rotate respectively and connect on first supporting shoe and installation piece, flexible jar fixed mounting is on the second supporting shoe, flexible end and the installation piece of flexible jar are connected, guiding axle fixed mounting is on the installation piece, guiding axle and second supporting shoe sliding fit.

According to a further technical scheme, a friction assembly for limiting the rotation of the second rotating disc is arranged in the mounting block.

Further technical scheme, friction subassembly includes friction block, second pressure spring, first slider and binding nail, be provided with first spout in the installation piece, friction block and first slider equal sliding connection are in first spout, the both ends of second pressure spring are connected with friction block and first slider respectively, binding nail threaded connection is on the installation piece, just the terminal of binding nail stretches into in the first spout.

Further technical scheme, rotating assembly includes rack, axis of rotation, gear, fixed block, sliding block, fourth pressure spring, engagement piece and interior ratchet, be provided with the ring channel on the first rolling disc, interior ratchet fixed mounting is in the ring channel, be provided with the second spout in the first supporting shoe, rack sliding connection is in the second spout, just rack fixed mounting is on the mounting panel, the axis of rotation rotates to be connected on the first supporting shoe, gear fixed mounting is in the axis of rotation, just gear and rack meshing cooperation, fixed block fixed mounting is in the axis of rotation, be provided with the third spout in the fixed block, sliding block sliding connection is in the third spout, the fourth pressure spring sets up in the third spout, engagement piece fixed mounting is on the sliding block, engagement piece and interior ratchet meshing cooperation.

According to a further technical scheme, the fixed block, the third sliding groove, the sliding block, the fourth pressure spring and the meshing block are provided with two groups.

According to the automobile accessory processing and drying device, when the automobile accessory processing and drying device is used, the clamping assembly clamps an automobile accessory, the heating wire heats air in the drying cavity, the intermittent air blowing assembly intermittently blows air into the drying cavity, hot air in the drying cavity is blown to the automobile accessory through the drying hole, the automobile accessory is further dried, when the intermittent air blowing assembly blows air into the drying cavity, the pressure in the drying cavity is increased, the mounting plate is further jacked up by overcoming the elastic force of the first pressure spring, when the intermittent air blowing assembly does not blow air into the drying cavity, the first pressure spring pulls the mounting plate to move downwards and reset, the mounting plate is further made to vibrate intermittently up and down, the mounting plate drives the automobile accessory to vibrate intermittently up and down, water on the automobile accessory is further thrown out, meanwhile, the wind speed on the surface of the automobile accessory is increased in a mode of vibrating up and down, the drying effect is improved, the rotating assembly drives the automobile accessory to intermittently rotate in a mode of vibrating, and further the automobile accessory is uniformly dried, and the drying effect of the automobile accessory is improved.

Drawings

Fig. 1 is a schematic structural diagram of an auto part processing and drying device according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a connection structure of the first rotating disc in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the structure of FIG. 1A according to an embodiment of the present invention;

fig. 4 is an enlarged schematic view of the structure of B in fig. 1 according to an embodiment of the present invention.

In the accompanying drawings: drying box 101, supporting seat 102, drying chamber 103, air intake 104, filter screen 105, heater wire 106, mounting plate 107, first pressure spring 108, drying hole 109, clamping assembly 2, first supporting block 201, first rotating disk 202, second supporting block 203, telescopic cylinder 204, guide shaft 205, mounting block 206, second rotating disk 207, friction assembly 3, first sliding chute 301, friction block 302, second pressure spring 303, first sliding block 304, fastener 305, intermittent blasting assembly 4, motor 401, mounting bracket 402, driving shaft 403, vane 404, first connecting rod 405, second connecting rod 406, sliding sleeve 407, first transmission block 408, second transmission block 409, third pressure spring 410, balancing weight 411, rotating assembly 5, second sliding chute 501, rack 502, rotating shaft 503, gear 504, fixed block 505, third sliding chute 506, sliding block 507, fourth pressure spring 508, engagement block 509, inner ratchet 510, annular groove 511.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

As shown in fig. 1, an auto parts processing and drying device according to an embodiment of the present invention includes a drying box 101, and further includes:

the device comprises a supporting seat 102, a filter screen 105, a heating wire 106, a mounting plate 107, a first pressure spring 108, a drying hole 109, a clamping assembly 2, an intermittent blasting assembly 4 and a rotating assembly 5;

the support seat 102 is fixedly arranged in the drying box 101, a drying cavity 103 is arranged on the support seat 102 in a penetrating manner, the intermittent air blowing component 4 is arranged in the drying cavity 103, an air inlet 104 is arranged on the drying box 101, the filter screen 105 is arranged on the air inlet 104, the drying cavity 103 is communicated with the air inlet 104, the heating wire 106 is arranged in the drying cavity 103, the mounting plate 107 is slidably connected on the support seat 102, two ends of the first pressure spring 108 are respectively connected with the support seat 102 and the mounting plate 107, the drying holes 109 are formed in a plurality of, the clamping component 2 is arranged on the mounting plate 107, and the rotating component 5 is arranged on the clamping component 2;

the clamping assembly 2 is used for clamping the automobile parts, the intermittent blasting assembly 4 is used for intermittently blasting air into the drying cavity 103, the mounting plate 107 vibrates up and down in a pressure change mode in the drying cavity 103, and the rotating assembly 5 drives the automobile parts to intermittently rotate in a vibration mode of the mounting plate 107.

In the embodiment of the invention, when the automobile accessory is used, the clamping component 2 clamps the automobile accessory, the heating wire 106 heats the air in the drying cavity 103, the intermittent air blowing component 4 intermittently blows air into the drying cavity 103, hot air in the drying cavity 103 is blown to the automobile accessory through the drying hole 109, the automobile accessory is dried, when the intermittent air blowing component 4 blows air into the drying cavity 103, the pressure in the drying cavity 103 is increased, the mounting plate 107 is jacked up by overcoming the elastic force of the first pressure spring 108, when the intermittent air blowing component 4 does not blow air into the drying cavity 103, the first pressure spring 108 pulls the mounting plate 107 to move downwards and reset, the mounting plate 107 is made to vibrate up and down intermittently, the mounting plate 107 drives the automobile accessory to vibrate up and down intermittently, water on the automobile accessory is thrown out, meanwhile, the wind speed on the surface of the automobile accessory is increased in a mode of vibrating up and down of the automobile accessory is improved, the automobile accessory is driven by the rotating component 5 to intermittently rotate in a mode of vibrating the mounting plate 107, the automobile accessory is evenly dried, and the automobile accessory is dried.

As shown in fig. 1 and 4, as a preferred embodiment of the present invention, the intermittent air blowing assembly 4 includes a motor 401, a mounting frame 402, a driving shaft 403, a vane 404, a first connection rod 405, a second connection rod 406, a sliding sleeve 407, a first transmission block 408, a second transmission block 409, a third compression spring 410 and a balancing weight 411, wherein the motor 401 is fixedly installed on the drying box 101, the second transmission block 409 is fixedly installed on a rotating end of the motor 401, the mounting frame 402 is fixedly installed in the drying cavity 103, the driving shaft 403 is rotatably connected to the mounting frame 402, the vane 404 is fixedly installed on one end of the driving shaft 403, the sliding sleeve 407 is slidably connected to the other end of the driving shaft 403, the first transmission block 408 is fixedly installed on the sliding sleeve 407, the first connection rod 405 is rotatably connected to the driving shaft 403, two ends of the second connection rod 406 are respectively rotatably connected to the first connection rod 405 and the sliding sleeve 407, the third compression spring 410 is sleeved on the driving shaft 403, and two ends of the third compression spring 410 are respectively connected to the first connection rod 405 and the sliding sleeve 407, the second connection rod 405 and the balancing weight 406 are respectively provided at the first connection rod 405 and the second connection rod 405.

In the embodiment of the invention, the motor 401 drives the second transmission block 409 to rotate, the third pressure spring 410 pushes the sliding sleeve 407 to move downwards, the sliding sleeve 407 drives the first transmission block 408 to contact with the second transmission block 409, the second transmission block 409 drives the first transmission block 408 to rotate through friction force, the first transmission block 408 drives the sliding sleeve 407 to rotate, the sliding sleeve 407 drives the driving shaft 403 to rotate, the driving shaft 403 drives the blades 404 to rotate, the blades 404 blows hot air in the drying cavity 103 to an automobile accessory through the drying hole 109, the driving shaft 403 drives the first connecting rod 405 and the second connecting rod 406 to rotate along with the driving shaft 403 through the sliding sleeve 407, the first connecting rod 405 and the second connecting rod 406 drive the balancing weight 411 to rotate, centrifugal force is generated when the balancing weight 411 rotates, the centrifugal force drives the first connecting rod 405 and the second connecting rod 406 to rotate, the second connecting rod 406 can overcome the elasticity of the third pressure spring 410 through centrifugal force and drive the sliding sleeve 407 to move upwards, at the moment, the first transmission block 408 does not mesh with the second transmission block 409, the rotating speed of the driving shaft 403 gradually reduces, the centrifugal force of the balancing weight 411 gradually pushes the third connecting rod 405 to rotate, the balancing weight 411 gradually to rotate, and then the speed of the driving shaft 103 rotates to change, and the speed of the driving shaft 103 rotates, so that the speed change is changed, and the speed of the driving shaft rotates.

As shown in fig. 1 and 3, as a preferred embodiment of the present invention, the clamping assembly 2 includes a first support block 201, a first rotating disc 202, a second support block 203, a telescopic cylinder 204, a guide shaft 205, a mounting block 206 and a second rotating disc 207, wherein the first support block 201 and the second support block 203 are fixedly mounted on the mounting plate 107, the first rotating disc 202 and the second rotating disc 207 are respectively rotatably connected to the first support block 201 and the mounting block 206, the telescopic cylinder 204 is fixedly mounted on the second support block 203, a telescopic end of the telescopic cylinder 204 is connected to the mounting block 206, the guide shaft 205 is fixedly mounted on the mounting block 206, and the guide shaft 205 is slidably engaged with the second support block 203.

In the embodiment of the invention, the automobile part is placed between the first rotating disc 202 and the second rotating disc 207, the telescopic cylinder 204 stretches, the telescopic cylinder 204 drives the mounting block 206 to move leftwards, and the mounting block 206 drives the second rotating disc 207 to move leftwards and clamp the automobile part.

As shown in fig. 3, as a preferred embodiment of the present invention, a friction assembly 3 for limiting the rotation of the second rotating disc 207 is disposed in the mounting block 206, the friction assembly 3 includes a friction block 302, a second pressure spring 303, a first sliding block 304 and a fastening nail 305, a first sliding slot 301 is disposed in the mounting block 206, the friction block 302 and the first sliding block 304 are both slidingly connected in the first sliding slot 301, two ends of the second pressure spring 303 are respectively connected with the friction block 302 and the first sliding block 304, the fastening nail 305 is screwed on the mounting block 206, and the end of the fastening nail 305 extends into the first sliding slot 301.

In the embodiment of the invention, the second compression spring 303 pushes the friction block 302 to move towards the direction of the second rotating disc 207, so that the friction block 302 contacts with the second rotating disc 207, and further, the rotation of the second rotating disc 207 is limited, and therefore, the situation that the auto parts rotate due to the inertia of up-and-down vibration is avoided.

As shown in fig. 1 and 2, as a preferred embodiment of the present invention, the rotating assembly 5 includes a rack 502, a rotating shaft 503, a gear 504, a fixed block 505, a sliding block 507, a fourth pressure spring 508, an engagement block 509, and an inner ratchet 510, wherein the first rotating disc 202 is provided with an annular groove 511, the inner ratchet 510 is fixedly installed in the annular groove 511, the first supporting block 201 is provided with a second sliding groove 501, the rack 502 is slidably connected in the second sliding groove 501, and the rack 502 is fixedly installed on the mounting plate 107, the rotating shaft 503 is rotatably connected to the first supporting block 201, the gear 504 is fixedly installed on the rotating shaft 503, and the gear 504 is engaged with the rack 502, the fixed block 505 is fixedly installed on the rotating shaft 503, the fixed block 505 is provided with a third sliding groove 506, the sliding block 507 is slidably connected in the third sliding groove 506, the fourth 508 is provided in the third sliding groove 506, the engagement block 509 is fixedly installed on the sliding block 507, the engagement block 509 is engaged with the inner ratchet 510, and the third pressure spring 508, the fourth sliding block 506, and the fourth pressure spring 506 are engaged with the sliding block 509.

In the embodiment of the invention, when the mounting plate 107 moves downwards, the rack 502 drives the gear 504 to rotate, the gear 504 drives the rotating shaft 503 to rotate, the rotating shaft 503 drives the fixed block 505 to rotate, the fixed block 505 drives the engagement block 509 to rotate through the sliding block 507, the fourth pressure spring 508 drives the engagement block 509 to engage with the inner ratchet 510 through the sliding block 507, so that the engagement block 509 drives the inner ratchet 510 to rotate, the inner ratchet 510 drives the first rotating disc 202 to rotate, the first rotating disc 202 drives the automobile part to rotate, when the mounting plate 107 moves upwards, the inner ratchet 510 overcomes the elasticity of the fourth pressure spring 508 to push the engagement block 509 to retract into the fixed block 505, and the two groups of fixed blocks 505, the third sliding groove 506, the sliding block 507, the fourth pressure spring 508 and the engagement block 509 are used for improving the stability of transmission.

In the above embodiment of the present invention, when the auto-parts processing and drying device is used, the auto-parts are placed between the first rotating disc 202 and the second rotating disc 207, the telescopic cylinder 204 stretches, the telescopic cylinder 204 drives the mounting block 206 to move leftwards, the mounting block 206 drives the second rotating disc 207 to move leftwards and clamp the auto-parts, the heating wire 106 heats the air in the drying cavity 103, the motor 401 drives the second transmission block 409 to rotate, the third pressure spring 410 pushes the sliding sleeve 407 to move downwards, the sliding sleeve 407 drives the first transmission block 408 to contact with the second transmission block 409, the second transmission block 409 drives the first transmission block 408 to rotate through friction, the first transmission block 408 drives the sliding sleeve 407 to rotate, the sliding sleeve 407 drives the driving shaft 403 to rotate, the driving shaft 403 drives the blade 404 to rotate, the blade 404 blows the hot air in the drying cavity 103 to the auto-parts through the drying hole 109, along with the driving shaft 403 driving the first connecting rod 405 and the second connecting rod 406 to rotate through the sliding sleeve 407, the first connecting rod 405 and the second connecting rod 406 drive the balancing weight 411 to rotate, centrifugal force is generated when the balancing weight 411 rotates, the centrifugal force drives the first connecting rod 405 and the second connecting rod 406 to rotate, the second connecting rod 406 can overcome the elastic force of the third pressure spring 410 through the centrifugal force and drive the sliding sleeve 407 to move upwards, the sliding sleeve 407 drives the first transmission block 408 to move upwards, at the moment, the first transmission block 408 is not meshed with the second transmission block 409, the rotating speed of the driving shaft 403 is gradually reduced, the centrifugal force of the balancing weight 411 is gradually reduced, the third pressure spring 410 pushes the sliding sleeve 407 to move downwards, and the driving shaft 403 is further made to make variable speed rotation, so that the blades 404 make variable speed rotation, the pressure in the drying cavity 103 changes, and when the pressure in the drying cavity 103 becomes large, the pressure in the drying cavity 103 increases, when the pressure in the drying cavity 103 is reduced, the first pressure spring 108 pulls the mounting plate 107 to move downwards and reset, the mounting plate 107 is made to vibrate intermittently up and down, the mounting plate 107 drives the automobile fitting to vibrate intermittently up and down, water on the automobile fitting is thrown out, meanwhile, the wind speed on the surface of the automobile fitting is increased in a mode that the automobile fitting vibrates up and down, the drying effect is improved, the second pressure spring 303 pushes the friction block 302 to move towards the second rotating disc 207, the friction block 302 is in contact with the second rotating disc 207, rotation of the second rotating disc 207 is further limited, accordingly, the situation that the automobile fitting rotates due to inertia of up and down vibration is avoided, when the mounting plate 107 moves downwards, the rack 502 drives the gear 504 to rotate, the gear 504 drives the rotating shaft 503 to rotate, the rotating shaft 503 drives the fixed block 505 to rotate, the fixed block 505 drives the engaging block 509 to rotate through the sliding block 507, the fourth pressure spring 508 drives the inner ratchet 510 to rotate through the sliding block 509, the inner ratchet 510 drives the first rotating disc 202 to rotate, the first rotating disc 202 drives the inner ratchet 508 drives the ratchet 508 to rotate, and the inner ratchet block 510 uniformly rotates, and the fourth pressure spring 505 drives the inner ratchet block 510 to rotate, and the fourth pressure spring 505 is meshed with the inner ratchet block 510, and the fourth spring 505 is evenly rotates, and the drying effect of the fourth spring 505 is improved, and the drying effect of the automobile fitting is improved.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims

1. The utility model provides an auto-parts processing drying device, includes stoving case, its characterized in that still includes:

the clamping assembly is used for clamping the automobile parts, the intermittent air blowing assembly is used for intermittently blowing air into the drying cavity, the mounting plate vibrates up and down in a mode of pressure change in the drying cavity, and the rotating assembly drives the automobile parts to intermittently rotate in a mode of vibration of the mounting plate;

the intermittent blast assembly comprises a motor, a mounting frame, a driving shaft, blades, a first connecting rod, a second connecting rod, a sliding sleeve, a first transmission block, a second transmission block, a third pressure spring and a balancing weight, wherein the motor is fixedly arranged on a drying box, the second transmission block is fixedly arranged at the rotating end of the motor, the mounting frame is fixedly arranged in a drying cavity, the driving shaft is rotationally connected to the mounting frame, the blades are fixedly arranged at one end of the driving shaft, the sliding sleeve is slidingly connected to the other end of the driving shaft, the first transmission block is fixedly arranged on the sliding sleeve, the first connecting rod is rotationally connected to the driving shaft, two ends of the second connecting rod are respectively rotationally connected with the first connecting rod and the sliding sleeve, the third pressure spring is sleeved on the driving shaft, two ends of the third pressure spring are respectively connected with the first connecting rod and the sliding sleeve, and the balancing weight is arranged at the connecting position of the first connecting rod and the second connecting rod;

the clamping assembly comprises a first supporting block, a first rotating disc, a second supporting block, a telescopic cylinder, a guide shaft, a mounting block and a second rotating disc, wherein the first supporting block and the second supporting block are fixedly mounted on the mounting plate, the first rotating disc and the second rotating disc are respectively and rotatably connected to the first supporting block and the mounting block, the telescopic cylinder is fixedly mounted on the second supporting block, the telescopic end of the telescopic cylinder is connected with the mounting block, the guide shaft is fixedly mounted on the mounting block, and the guide shaft is in sliding fit with the second supporting block;

the rotating assembly comprises a rack, a rotating shaft, a gear, a fixed block, a sliding block, a fourth pressure spring, a meshing block and an inner ratchet wheel, wherein an annular groove is formed in the first rotating disc, the inner ratchet wheel is fixedly arranged in the annular groove, a second sliding groove is formed in the first supporting block, the rack is slidably connected in the second sliding groove, the rack is fixedly arranged on the mounting plate, the rotating shaft is rotationally connected to the first supporting block, the gear is fixedly arranged on the rotating shaft, the gear is meshed with the rack in a matched mode, the fixed block is fixedly arranged on the rotating shaft, a third sliding groove is formed in the fixed block, the sliding block is slidably connected in the third sliding groove, the fourth pressure spring is arranged in the third sliding groove, the meshing block is fixedly arranged on the sliding block, and the meshing block is meshed with the inner ratchet wheel in a matched mode.

2. The auto parts processing drying apparatus of claim 1, wherein a friction assembly is provided in the mounting block to limit rotation of the second rotating disc.

3. The automobile accessory processing and drying device according to claim 2, wherein the friction assembly comprises a friction block, a second pressure spring, a first sliding block and a fastening nail, a first sliding groove is formed in the installation block, the friction block and the first sliding block are both in sliding connection in the first sliding groove, two ends of the second pressure spring are respectively connected with the friction block and the first sliding block, the fastening nail is in threaded connection on the installation block, and the tail end of the fastening nail extends into the first sliding groove.

4. The auto parts processing drying device of claim 1, wherein the fixed block, the third runner, the sliding block, the fourth compression spring, and the engagement block are provided in two sets.