Scratch resistant powder uncoated high strength hybrid abrasive device

By using a rotary motor to drive the grinding discs in a circular motion and designing a limiting structure, the problems of unevenness and maintenance complexity in traditional grinding devices are solved, achieving efficient and safe grinding of scratch-resistant powder coatings.

CN224371555UActive Publication Date: 2026-06-19ZHEJIANG XINGSHUN NEW MATERIAL TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG XINGSHUN NEW MATERIAL TECH CO LTD
Filing Date
2025-03-21
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Traditional grinding devices are prone to uneven grinding due to vibration or improper operation. Their complex fixing methods make maintenance difficult, and the lack of an efficient control system leads to complicated operation and safety hazards.

Method used

It uses a rotary motor to drive the grinding disc in a circular motion, combined with a lifting component and a limiting structure, and uses a strong magnet to fix the grinding disc. It is equipped with a control panel for precise adjustment and quick replacement.

Benefits of technology

It achieves uniform grinding, prevents the grinding disc from slipping, simplifies the maintenance process, and improves equipment efficiency and safety.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of high-strength mixing grinding devices of anti-scratching powder coating, including device base, installation site is provided on the device base, and the grinding disc is provided in installation site by limiting structure;Grinding device, the grinding device is set to the upper of device base, and the grinding end of grinding device corresponds with the position of grinding disc;Lifting assembly, the lifting assembly is set to the rear end of device base, and the lifting end of lifting assembly is connected with grinding device, and then drives grinding device to lift.The utility model adopts rotating motor and grinding piece, and under the action of transmission shaft, can form circumferential motion on grinding disc, ensure that when mixing anti-scratching powder coating, even and thoroughly grind, improve grinding efficiency.
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Description

Technical Field

[0001] This utility model relates to a grinding device, specifically to a high-strength mixing and grinding device for anti-scratch powder coatings. Background Technology

[0002] In modern manufacturing, the grinding and mixing process of coatings is a crucial step in ensuring coating performance and quality. In particular, anti-scratch powder coatings, due to their special application requirements, place higher demands on grinding equipment.

[0003] In traditional grinding processes, the grinding disc may slip or shift due to vibration or improper operation, resulting in uneven grinding and affecting the performance and quality of the final coating.

[0004] Existing grinding discs and grinding devices often employ complex fixing methods, which requires users to spend a lot of time and effort when replacement or maintenance is needed, reducing the efficiency of equipment use and user experience.

[0005] Many traditional devices lack efficient control systems, making precise adjustments difficult during operation. This results in an inability to flexibly respond to different working conditions, increasing operational complexity and potential safety hazards. Utility Model Content

[0006] The technical problem to be solved by this utility model is to provide a high-strength mixing and grinding device for anti-scratch powder coatings, so as to solve the problems existing in the background art.

[0007] This utility model of a high-strength mixing and grinding device for anti-scratch powder coatings is achieved through the following technical solutions, including:

[0008] The device base has a mounting position, and a grinding disc is installed in the mounting position by means of a limiting structure.

[0009] A grinding device is disposed above the device base, and the grinding end of the grinding device corresponds to the position of the grinding disc;

[0010] A lifting assembly is located at the rear end of the device base, and the lifting end of the lifting assembly is connected to the grinding device, thereby driving the grinding device to move up and down.

[0011] As a preferred technical solution, the grinding device includes a rotary motor, a fixed disk, and grinding discs;

[0012] The output shaft of the rotary motor is equipped with a... A drive shaft is provided, and the other end of the drive shaft is connected to a fixed disk; the grinding disc is connected to the fixed disk under the action of the splicing structure. When the anti-scratch powder coating in the grinding disc is mixed and ground, the rotary motor drives the grinding disc to move in a circular motion.

[0013] As a preferred technical solution, the lifting assembly includes a lifting seat and a lifting plate disposed at the rear end of the device base;

[0014] The lifting plate is installed inside the lifting seat, and the lifting seat is equipped with an electric telescopic rod. The output of the electric telescopic rod is connected to the lifting plate around its perimeter, thereby driving the lifting plate to move up and down.

[0015] A connecting plate is installed above the lifting plate, and the rotary motor is fixed to the connecting plate, thereby realizing the installation of the grinding device.

[0016] As a preferred technical solution, the limiting structure includes limiting blocks disposed around the grinding disc and limiting grooves disposed at the mounting position;

[0017] The limiting block is inserted into the limiting groove to realize the installation between the grinding disc and the device base, and to prevent the grinding disc from sliding during grinding and affecting the grinding quality.

[0018] As a preferred technical solution, the splicing structure includes a splicing groove disposed below the fixed plate and splicing blocks disposed on the grinding plate;

[0019] The splicing groove and the splicing block are spliced ​​together and fixed by strong magnets, thereby realizing the installation and fixation between the fixing plate and the splicing block.

[0020] As a preferred technical solution, it also includes a control panel, which is connected to control the rotary motor and the electric lifting rod to operate.

[0021] The beneficial effects of this utility model are:

[0022] This invention employs a rotary motor and grinding discs, which, under the action of a transmission shaft, can form a circular motion on the grinding disc, ensuring uniform and thorough grinding when mixing anti-scratch powder coatings, thus improving grinding efficiency.

[0023] The grinding disc of this invention is equipped with limiting blocks and limiting grooves around its perimeter to ensure that the grinding disc will not slip or deviate during operation, thus guaranteeing grinding quality and stability and improving the reliability of the entire grinding process.

[0024] This invention, through the splicing structure between the grinding disc and the fixed plate, allows users to quickly and conveniently replace the grinding disc, reducing maintenance time and labor intensity, and improving the efficiency of equipment use. Attached Figure Description

[0025] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0026] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0027] Figure 2 This is a schematic diagram of the grinding state structure of this utility model;

[0028] Figure 3 This is a schematic diagram of the exploded structure of this utility model;

[0029] Figure 4 This is a schematic diagram of the splicing groove structure of this utility model.

[0030] 1. Device base; 2. Grinding device; 3. Mounting position; 4. Grinding disc; 5. Rotary motor; 6. Fixed disc; 7. Grinding pad; 8. Lifting seat; 9. Lifting plate; 10. Drive shaft; 11. Connecting plate; 12. Limiting block; 13. Limiting groove; 14. Splicing groove; 15. Splicing block. Detailed Implementation

[0031] All features disclosed in this specification, or all steps in all disclosed methods or processes, may be combined in any way, except for mutually exclusive features and / or steps.

[0032] like Figures 1-4 As shown, this utility model discloses a high-strength mixing and grinding device for anti-scratch powder coatings, comprising:

[0033] The device base 1 has a mounting position 3, and a grinding disc 4 is provided in the mounting position 3 by means of a limiting structure.

[0034] Grinding device 2, which is disposed above the device base 1, and the grinding end of the grinding device 2 corresponds to the position of the grinding disc 4;

[0035] The lifting assembly is located at the rear end of the device base 1, and the lifting end of the lifting assembly is connected to the grinding device 2, thereby driving the grinding device 2 to move up and down.

[0036] The grinding device 2 includes a rotary motor 5, a fixed disk 6, and a grinding disc 7.

[0037] The output shaft of the rotary motor 5 is equipped with a... A drive shaft 10 is provided, and the other end of the drive shaft 10 is connected to the fixed disk 6; the grinding disc 7 is connected to the fixed disk 6 under the action of the splicing structure. When the anti-scratch powder coating in the grinding disk 4 is mixed and ground, the rotary motor 5 drives the grinding disc 7 to move in a circular state.

[0038] To facilitate grinding, in this embodiment, the lifting assembly includes a lifting seat 8 and a lifting plate 9 disposed at the rear end of the device base 1;

[0039] The lifting plate 9 is installed inside the lifting seat 8, and the lifting seat 8 is equipped with an electric telescopic rod. The output of the electric telescopic rod is connected to the lifting plate 9 around its perimeter, thereby driving the lifting plate 9 to rise and fall.

[0040] A connecting plate 11 is installed above the lifting plate 9, and the rotary motor 5 is fixed on the connecting plate 11, thereby realizing the installation of the grinding device 2.

[0041] In order to prevent the grinding disc from sliding off course, in this embodiment, the limiting structure includes limiting blocks 12 disposed around the grinding disc 4 and limiting grooves 13 disposed at the mounting position 3;

[0042] The limiting block 12 is inserted into the limiting groove 13 to realize the installation between the grinding disc 4 and the device base 1, and to prevent the grinding disc 4 from sliding during grinding and affecting the grinding quality.

[0043] To facilitate the replacement and installation of the grinding disc, in this embodiment, the splicing structure includes a splicing groove 14 disposed below the fixing plate 6 and a splicing block 15 disposed on the grinding disc 7;

[0044] The splicing groove 14 and the splicing block 15 are spliced ​​together and fixed by strong magnets, thereby realizing the installation and fixation between the fixing plate 6 and the splicing block 15.

[0045] For ease of control, this embodiment also includes a control panel, which is connected to control the rotary motor 5 and the electric lifting rod to operate.

[0046] This invention uses a rotary motor and a grinding disc, and under the action of the transmission shaft, it can form a circular motion on the grinding disc, ensuring uniform and thorough grinding when mixing anti-scratch powder coatings, thus improving grinding efficiency.

[0047] The grinding disc is surrounded by limiting blocks and limiting grooves to ensure that the grinding disc will not slip or deviate during operation, thus guaranteeing grinding quality and stability and improving the reliability of the entire grinding process.

[0048] The above description is merely a specific embodiment of this utility model, but the protection scope of this utility model is not limited thereto. Any changes or substitutions conceived without inventive effort should be included within the protection scope of this utility model. Therefore, the protection scope of this utility model should be determined by the scope defined in the claims.

Claims

1. A high strength hybrid abrasive device for anti-scratch powder coating, characterized by, include: Device base (1), the device base (1) is provided with a mounting position (3), and a grinding disc (4) is provided in the mounting position (3) through a limiting structure; Grinding device (2), the grinding device (2) is disposed above the device base (1), and the grinding end of the grinding device (2) corresponds to the position of the grinding disc (4); A lifting assembly is provided at the rear end of the device base (1), and the lifting end of the lifting assembly is connected to the grinding device (2), thereby driving the grinding device (2) to move up and down; The grinding device (2) includes a rotary motor (5), a fixed disk (6), and a grinding disc (7); The output shaft of the rotary motor (5) is equipped with a transmission shaft (10) arranged in a "𠃑" shape, and the other end of the transmission shaft (10) is connected to the fixed disk (6); the grinding disc (7) is connected to the fixed disk (6) under the action of the splicing structure. When the anti-scratch powder coating in the grinding disk (4) is mixed and ground, the rotary motor (5) drives the grinding disc (7) to move in a circular state. The splicing structure includes a splicing groove (14) disposed below the fixed plate (6) and a splicing block (15) disposed on the grinding plate (7); The splicing groove (14) and the splicing block (15) are spliced ​​together and fixed by strong magnets, thereby realizing the installation and fixation between the fixing plate (6) and the splicing block (15).

2. The anti-scratch powder uncoated high strength hybrid grinding device (2) according to claim 1, characterized in that: The lifting assembly includes a lifting seat (8) and a lifting plate (9) disposed at the rear end of the device base (1); The lifting plate (9) is installed inside the lifting seat (8), and an electric telescopic rod is installed inside the lifting seat (8). The output of the electric telescopic rod is connected to the lifting plate (9) around the perimeter, thereby driving the lifting plate (9) to lift. A connecting plate (11) is installed above the lifting plate (9), and the rotary motor (5) is fixed on the connecting plate (11), thereby realizing the installation of the grinding device (2).

3. The anti-scratch powder uncoated high strength hybrid grinding device (2) as claimed in claim 1, wherein: The limiting structure includes a limiting block (12) disposed around the grinding disc (4) and a limiting groove (13) disposed at the mounting position (3); The limiting block (12) is inserted into the limiting groove (13) to realize the installation between the grinding disc (4) and the device base (1) and prevent the grinding disc (4) from sliding during grinding and affecting the grinding quality.

4. The anti-scratch powder uncoated high strength hybrid grinding device (2) as claimed in claim 1, wherein: It also includes a control panel, which is connected to control the rotary motor (5) and the electric lifting rod to operate.