A compression wheel rubber coating production auxiliary device

By designing an auxiliary device for the production of rubber-coated pressure rollers, and using a distance sensor and a servo hub motor to drive the movement of the bearing rod, the problem of inconvenient transfer of rubber-coated pressure rollers was solved, enabling rapid sorting and processing of workpieces and facilitating the improvement of production efficiency.

CN224391106UActive Publication Date: 2026-06-23HUIZHOU YAOXIN MACHINERY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HUIZHOU YAOXIN MACHINERY CO LTD
Filing Date
2025-07-02
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

During the production of rubber-coated pressure rollers, there are problems with handling and stacking during transportation, which affects production efficiency.

Method used

An auxiliary device for the production of rubber coating on pressure rollers was designed. It adopts components such as an L-shaped frame, a distance sensor, a servo hub motor, and a gear ring to realize the automatic adjustment of the support rod and the rapid picking up of workpieces. The distance sensor detects the distance to the workpiece, and the servo hub motor drives the support rod to move, thereby realizing the automatic sorting and transfer of workpieces.

Benefits of technology

It improves the transfer efficiency of the pressure roller coating, facilitates rapid processing, and enhances production efficiency.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224391106U_ABST
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Abstract

The utility model relates to a kind of compression wheel rubber coating production auxiliary devices, belong to compression wheel rubber coating production technical field, including frame body, frame body is L type structure, the upper end of frame body is openwork structure, vertical plate is rotatably installed in the inside of openwork structure on frame body, and vertical plate is installed with sleeve pipe in array, sleeve pipe is inserted with load bar in its inside, and the lower end of load bar is fixedly installed with range finding sensor in one end, servo wheel hub motor is fixedly installed with gear ring in the lower end of sleeve pipe middle position, and gear ring extends to the inside of sleeve pipe and is engaged with the lower end of load bar, when using, multiple compression wheel rubber coating sleeve is connected on load bar, workpiece is combed, and after the workpiece in end position is taken, load bar is automatically retracted, the next workpiece is conveniently taken, improve the convenience when operating, workpiece is conveniently transferred, reach the auxiliary effect when compression wheel rubber coating production, improve production efficiency, convenient to use.
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Description

Technical Field

[0001] This utility model relates to the field of pressure roller coating production technology, and in particular to an auxiliary device for pressure roller coating production. Background Technology

[0002] Roller coating is an industrial process that involves applying a rubber or polymer material coating to the surface of a roller to improve its functionality, durability, and safety. This technology, which combines elastic materials with a metal substrate, has wide applications. The production of roller coating involves multiple processes. For example, after vulcanization, to prevent sharp edges or overflow from affecting performance, the roller needs to be trimmed to remove excess coating. During transitions between processes, the coated roller needs to be transferred. Currently, trolleys or storage frames are mostly used for transfer, but in subsequent operations, the accumulation and compression of the coated roller makes it difficult to handle, affecting production efficiency and inconvenience. Utility Model Content

[0003] To overcome the technical defects of the existing technology, this utility model provides an auxiliary device for the production of pressure roller coating, which facilitates the sorting of pressure roller coating and allows for quick handling of workpieces in the next process, making it easy to use.

[0004] The technical solution adopted by this utility model is: an auxiliary device for the production of pressure roller coating, including a frame, the frame being an L-shaped structure, the upper end of the frame being a hollow structure, a vertical plate being rotatably mounted inside the hollow structure on the frame, and sleeves being installed in an array on the vertical plate, a bearing rod being inserted into the inside of the sleeve, a distance measuring sensor being fixedly mounted at the lower end of one end of the bearing rod, a servo hub motor being fixedly mounted at the lower end of the middle position of the sleeve, a gear ring being fixedly mounted on the outer side of the servo hub motor, and the gear ring extending into the inside of the sleeve and meshing with the lower end of the bearing rod. In use, the bearing rod is adjusted to its initial state, and the pressure roller coating parts to be transferred are sequentially fitted onto the sleeve. The workpiece is positioned on the support rod, with the end workpiece located at the position of the distance sensor. The distance sensor detects the distance between the workpieces. After the connection is completed, the vertical plate is adjusted to a slightly tilted state and then transferred to the next process via the frame. During the next process, the end workpiece is removed for processing. When the end workpiece is removed, the distance sensor detects a change in distance, causing the servo hub motor to start and the gear ring to rotate, causing the support rod to move inside the sleeve. The support rod moves towards the hollow structure. When the distance sensor detects again that the workpiece is inside, the servo hub motor stops, facilitating the retrieval of the next workpiece and enabling rapid processing.

[0005] Preferably, a control host is fixedly installed at the middle position of the lower surface of the frame. The control host is electrically connected to the ranging sensor and the servo hub motor. Through the control host, the servo hub motor can be automatically turned on when the ranging sensor detects a change in distance.

[0006] Preferably, casters are fixedly installed at all four corners of the lower surface of the frame, and a handle is fixedly installed at the upper end of the frame. The workpiece can be easily transferred by pushing the frame through the handle.

[0007] Preferably, limit plates are fixedly installed on both sides of the lower end of the hollow structure on the frame, and a movable plate is fixedly installed at the lower end of the vertical plate. The movable plate is located between the limit plates, and the tilt state of the vertical plate can be easily adjusted through the limit plates and the movable plate.

[0008] Preferably, an electric telescopic rod is fixedly installed on one side of the upper part of the hollow structure on the frame. A push plate is fixedly installed at the telescopic end of the electric telescopic rod, and a contact plate is fixedly installed on one side of the upper part of the vertical plate. The push plate contacts the contact plate. The electric telescopic rod pushes the push plate to extend, so that the push plate pushes the contact plate, causing the vertical plate to tilt, and thus causing the bearing rod to tilt, so as to prevent the workpiece from falling during transportation.

[0009] Preferably, the lower end of the sleeve has a through hole structure at the middle position, and the upper end of the gear ring extends into the interior of the sleeve through the through hole structure to mesh with the bearing rod, so as to facilitate driving the bearing rod and making the bearing rod move along the sleeve.

[0010] Preferably, the lower end of the bearing rod is embedded with a toothed groove, and the gear ring meshes with the toothed groove. When the gear ring applies force to the toothed groove, the bearing rod is displaced.

[0011] Preferably, a trapezoidal reinforcing plate is fixedly installed at the upper end of the sleeve, and one side of the reinforcing plate is fixedly connected to the vertical plate to improve the load-bearing capacity of the bearing rod.

[0012] The beneficial effects of this utility model are: when in use, multiple pressure rollers are wrapped with rubber and connected to the support rod to comb the workpiece. After the workpiece at the end position is taken out, the support rod automatically retracts, making it convenient to take out the next workpiece, improving the convenience of operation, facilitating the transfer of workpieces, achieving the auxiliary effect of rubber coating production of pressure rollers, improving production efficiency, and being easy to use. Attached Figure Description

[0013] Figure 1 This is a schematic diagram of the overall structure of this utility model.

[0014] Figure 2 This is a schematic diagram of the overall structure of this utility model from another angle.

[0015] Figure 3 This is a structural diagram of the frame position in this utility model.

[0016] Figure 4 This is a structural diagram showing the position of the vertical plate in this utility model.

[0017] Figure 5 This is a structural schematic diagram of the position of the bearing rod in this utility model.

[0018] Explanation of reference numerals in the attached drawings: 1. Frame; 2. Vertical plate; 3. Sleeve; 4. Bearing rod; 5. Distance sensor; 6. Servo hub motor; 7. Gear ring; 8. Control host; 9. Caster wheel; 10. Handle; 11. Limit plate; 12. Movable plate; 13. Electric telescopic rod; 14. Push plate; 15. Contact plate; 16. Tooth groove; 17. Reinforcing plate. Detailed Implementation

[0019] The present invention will be further described below with reference to the accompanying drawings:

[0020] like Figures 1-5 As shown, this embodiment provides an auxiliary device for the production of pressure roller coating, including a frame 1, which is an L-shaped structure with a hollow upper end. A vertical plate 2 is rotatably mounted inside the hollow structure on the frame 1, and sleeves 3 are arranged in an array on the vertical plate 2. A bearing rod 4 is inserted into the sleeve 3. A distance sensor 5 is fixedly mounted at the lower end of one end of the bearing rod 4. A servo hub motor 6 is fixedly mounted at the lower middle position of the sleeve 3. A gear ring 7 is fixedly mounted on the outer side of the servo hub motor 6, extending into the interior of the sleeve 3 and meshing with the lower end of the bearing rod 4. In use, the bearing rod 4 is adjusted to its initial state, where one end of the bearing rod 4 and one end of the sleeve 3 are on the same vertical plane. The device then proceeds to the next step. The rubber-coated parts of the transfer rollers are successively fitted onto the support rod 4, so that the workpiece at the end is located at the position of the distance sensor 5. The distance sensor 5 detects the distance between the workpieces. After the fitting is completed, the vertical plate 2 is adjusted to a slightly tilted state, and then transferred to the next process through the frame 1. When the next process is processed, the workpiece at the end is removed for processing. When the workpiece at the end is removed, the distance sensor 5 detects the distance change, which causes the servo hub motor 6 to start, and the gear ring 7 to rotate, so that the support rod 4 moves inside the sleeve 3. The support rod 4 moves towards the hollow structure. When the distance sensor 5 detects again that it is inside the workpiece, the servo hub motor 6 stops, which facilitates the picking up of the next workpiece, making it convenient to use and facilitates rapid processing.

[0021] As a technical optimization solution of this utility model, specifically as follows: Figure 2 As shown, a control host 8 is fixedly installed at the middle position of the lower surface of the frame 1. The control host 8 is electrically connected to the distance sensor 5 and the servo hub motor 6. Through the control host 8, the servo hub motor 6 can be automatically turned on when the distance sensor 5 detects a change in distance. The control host 8 has a built-in battery to power the distance sensor 5 and the servo hub motor 6. Universal wheels 9 are fixedly installed at the four corners of the lower surface of the frame 1, and a handle 10 is fixedly installed at the upper end of the frame 1. By pushing the frame 1 with the handle 10, the universal wheels 9 are rotated, which facilitates the transfer of workpieces.

[0022] As a technical optimization solution of this utility model, specifically as follows: Figure 3 and Figure 4 As shown, limit plates 11 are fixedly installed on both sides of the lower end of the hollow structure on the frame 1. A movable plate 12 is fixedly installed on the lower end of the vertical plate 2. The movable plate 12 is located between the limit plates 11. The limit plates 11 and the movable plate 12 facilitate the adjustment of the tilt state of the vertical plate 2 to prevent the workpiece from falling off. An electric telescopic rod 13 is fixedly installed on one side of the upper end of the hollow structure on the frame 1. A push plate 14 is fixedly installed at the telescopic end of the electric telescopic rod 13. A contact plate 15 is fixedly installed on one side of the upper end of the vertical plate 2. The push plate 14 contacts the contact plate 15. The electric telescopic rod 13 pushes the push plate 14 to extend, so that the push plate 14 pushes the contact plate 15, causing the vertical plate 2 to tilt, and thus causing the bearing rod 4 to tilt, preventing the workpiece from falling off during transportation.

[0023] As a technical optimization solution of this utility model, specifically as follows: Figure 4 and Figure 5 As shown, the lower end of the sleeve 3 has a through hole structure in the middle. The upper end of the gear ring 7 extends into the interior of the sleeve 3 through the through hole structure and meshes with the bearing rod 4. This facilitates the driving of the bearing rod 4 when the gear ring 7 rotates, causing the bearing rod 4 to move along the sleeve 3. The lower end of the bearing rod 4 has a toothed groove 16 embedded in it. The gear ring 7 meshes with the toothed groove 16. When the gear ring 7 rotates, it applies force to the toothed groove 16, causing the bearing rod 4 to displace. The upper end of the sleeve 3 is fixedly installed with a trapezoidal reinforcing plate 17, and one side of the reinforcing plate 17 is fixedly connected to the vertical plate 2, which improves the stability of the connection between the sleeve 3 and the vertical plate 2, thereby improving the bearing capacity of the bearing rod 4.

[0024] The foregoing has shown and described the basic principles, main features, and advantages of this invention. Those skilled in the art should understand that this invention is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this invention. Various changes and modifications may be made to this invention without departing from its spirit and scope. All such changes and modifications fall within the scope of this invention as defined by the appended claims and their equivalents.

Claims

1. An auxiliary device for producing rubber coating on pressure rollers, characterized in that: The device includes a frame (1), which is an L-shaped structure. The upper end of the frame (1) is a hollow structure. A vertical plate (2) is rotatably installed inside the hollow structure on the frame (1). Sleeves (3) are installed in an array on the vertical plate (2). A bearing rod (4) is inserted into the sleeve (3). A distance measuring sensor (5) is fixedly installed at the lower end of one end of the bearing rod (4). A servo hub motor (6) is fixedly installed at the lower end of the middle position of the sleeve (3). A gear ring (7) is fixedly installed on the outside of the servo hub motor (6). The gear ring (7) extends into the inside of the sleeve (3) and meshes with the lower end of the bearing rod (4).

2. The auxiliary device for producing rubber coating on pressure rollers according to claim 1, characterized in that: A control host (8) is fixedly installed at the middle position of the lower surface of the frame (1). The control host (8) is electrically connected to the ranging sensor (5) and the servo hub motor (6).

3. The auxiliary device for producing rubber coating on pressure rollers according to claim 1, characterized in that: The frame (1) has casters (9) fixedly installed at the four corners of its lower surface, and a handle (10) fixedly installed at the upper end of the frame (1).

4. The auxiliary device for producing rubber coating on pressure rollers according to claim 1, characterized in that: Limiting plates (11) are fixedly installed on both sides of the lower end of the hollow structure on the frame (1), and a movable plate (12) is fixedly installed on the lower end of the vertical plate (2), with the movable plate (12) located between the limiting plates (11).

5. The auxiliary device for producing rubber coating on pressure rollers according to claim 1, characterized in that: An electric telescopic rod (13) is fixedly installed on one side of the upper end of the hollow structure on the frame (1). A push plate (14) is fixedly installed on the telescopic end of the electric telescopic rod (13), and a contact plate (15) is fixedly installed on one side of the upper end of the vertical plate (2). The push plate (14) is in contact with the contact plate (15).

6. The auxiliary device for producing rubber coating on pressure rollers according to claim 1, characterized in that: The lower end of the sleeve (3) has a through hole structure in the middle. The upper end of the gear ring (7) extends into the inside of the sleeve (3) through the through hole structure and meshes with the bearing rod (4).

7. The auxiliary device for producing rubber coating on pressure rollers according to claim 1, characterized in that: The lower end of the bearing rod (4) is provided with a toothed groove (16), and the gear ring (7) meshes with the toothed groove (16).

8. The auxiliary device for producing rubber coating on pressure rollers according to claim 1, characterized in that: The upper end of the sleeve (3) is fixedly installed with a trapezoidal reinforcing plate (17), and one side of the reinforcing plate (17) is fixedly connected to the vertical plate (2).