Diamond grinding wheel with biomimetic texture surface
By designing a biomimetic texture structure and a cleaning module on the diamond grinding wheel, the problems of reduced grinding function and safety hazards caused by the accumulation of waste chips are solved, achieving a highly efficient, clean, and safe grinding process.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIANGSU SANRUI ABRASIVES TECH CO LTD
- Filing Date
- 2025-07-22
- Publication Date
- 2026-06-23
AI Technical Summary
During use, conventional diamond grinding wheels accumulate debris on their surface over time, affecting their grinding and cutting functions. Cleaning them also presents safety hazards and is time-consuming and laborious.
The diamond grinding wheel features a biomimetic textured surface, employing a sharkskin-like microgroove structure and a cleaning module. It utilizes a cleaning roller brush for simultaneous cleaning during high-speed rotation, and incorporates a protective cover assembly to reduce safety hazards and debris accumulation.
It enhances chip removal capabilities, prevents clogging, improves grinding efficiency, reduces safety hazards, simplifies maintenance, and increases usage efficiency.
Smart Images

Figure CN224390794U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of diamond grinding wheel technology, specifically a diamond grinding wheel with a biomimetic textured surface. Background Technology
[0002] Diamond grinding wheels are circular bonded abrasives made with diamond as the abrasive material. Their core characteristics include high hardness, high wear resistance, and high-efficiency machining capabilities.
[0003] During use, conventional diamond grinding wheels will gradually accumulate a certain amount of debris on their surface over time, which will affect their grinding and cutting function. Manual cleaning can pose certain safety hazards and is time-consuming and laborious. Utility Model Content
[0004] The purpose of this invention is to provide a diamond grinding wheel with a biomimetic textured surface to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a diamond grinding wheel with a biomimetic textured surface, comprising a grinding wheel module and a cleaning module. Protective cover assemblies are symmetrically installed on the outer sides of the grinding wheel module, and fixing bolts are installed between the two sets of protective cover assemblies. An adjusting frame is horizontally connected to the middle of the protective cover assembly on the side away from the grinding wheel module. The cleaning module is installed at the end of the adjusting frame away from the protective cover assembly. The cleaning module includes a cleaning roller brush, a bearing seat component, and a fixing seat. Bearing seat components are connected to both ends of the cleaning roller brush, and a fixing seat is provided on the side of the bearing seat component away from the cleaning roller brush.
[0006] Furthermore, the grinding wheel module includes a grinding wheel body, a biomimetic texture structure, and a connecting disc. The side surface of the grinding wheel body is provided with a biomimetic texture structure, and a connecting disc is provided in the middle of both the left and right sides of the grinding wheel body. The biomimetic texture structure adopts a sharkskin-like microgroove structure design.
[0007] Furthermore, the protective cover assembly includes a cover body, a docking post, a connecting shaft seat, and a transmission disc. The docking post is provided on the side of the cover body, and the connecting shaft seat is installed in the middle of the outer side of the cover body near the adjustment frame. The transmission disc is installed in the middle of the side of the cover body near the grinding wheel module.
[0008] Furthermore, the connecting piles are arranged in a ring around the cover, and the cover and connecting piles are set up as an integral structure.
[0009] Furthermore, one side surface of the transmission disc and one side surface of the connecting disc match each other, and the connecting shaft seat and the transmission disc are connected to each other and are on the same horizontal central axis. The fixing bolt is installed with a horizontal thread inside the docking pile.
[0010] Furthermore, the adjustment frame includes a telescopic rod, a first support base, a second support base, a first docking seat, and a second docking seat. The first support base and the second support base are respectively installed at both ends of the telescopic rod, and the first support base is connected to the first docking seat on the side near the protective cover assembly, and the second support base is provided with the second docking seat on the side near the cleaning module.
[0011] Furthermore, the second mating seat and the fixed seat are connected by a movable structure, and the first mating seat and the connecting shaft seat are connected by a movable structure. Moreover, the section of the first mating seat away from the connecting shaft seat is equipped with a coupling structure.
[0012] Furthermore, the bearing housing component and the fixed seat are fixedly connected, the second support seat and the second mating seat are connected to each other by bearing housings, and the first support seat and the first mating seat are connected to each other by bearing housings.
[0013] This invention provides a diamond grinding wheel with a biomimetic textured surface, which has the following beneficial effects:
[0014] 1. This utility model designs the biomimetic texture structure on the side of the grinding wheel body as sharkskin-like microgrooves. This structure enhances the chip removal capability of the biomimetic texture structure surface, preventing clogging. Simultaneously, the cleaning module, with its cleaning roller brush attached to the surface of the biomimetic texture structure, allows for synchronous surface cleaning as the grinding wheel module rotates at high speed. This design maximizes the processing effect of the biomimetic texture structure surface during grinding wheel module rotation, preventing the accumulation of waste chips from grinding materials that could affect the grinding effect. Furthermore, the cleaning module reduces the need for independent maintenance of the grinding wheel module, facilitating real-time grinding operations and improving efficiency.
[0015] 2. This utility model, by providing a protective cover assembly and utilizing a symmetrically arranged cover structure, can appropriately shield the grinding wheel module, thereby reducing potential safety hazards during its operation. The two sets of notches on the surface facilitate structural contact between the grinding wheel module and the cleaning module, and also allow waste to be discharged from the inside of the protective cover assembly. In addition, the cleaning module and the protective cover assembly can be structurally combined using the adjustment frame structure. The telescopic rod structure allows for appropriate adjustment of the distance between the grinding wheel module and the cleaning module, thus facilitating structural setup. Furthermore, the modular design of the grinding wheel module, protective cover assembly, adjustment frame, and cleaning module allows for relatively convenient assembly and disassembly, thereby ensuring the ease of maintenance of the device structure. Attached Figure Description
[0016] Figure 1 This is a schematic diagram of the axial side view of the main body of a diamond grinding wheel with a biomimetic textured surface according to the present invention.
[0017] Figure 2 This is a schematic diagram of the grinding wheel module structure of a diamond grinding wheel with a biomimetic textured surface according to the present invention;
[0018] Figure 3 This is a three-dimensional structural diagram of a protective cover assembly for a diamond grinding wheel with a biomimetic textured surface according to the present invention.
[0019] Figure 4 This is a three-dimensional structural diagram of the adjustment frame for a diamond grinding wheel with a biomimetic textured surface according to the present invention.
[0020] Figure 5 This is a three-dimensional structural diagram of a cleaning module for a diamond grinding wheel with a biomimetic textured surface, according to the present invention.
[0021] In the diagram: 1. Grinding wheel module; 101. Grinding wheel body; 102. Bionic texture structure; 103. Connecting disc; 2. Protective cover assembly; 201. Cover body; 202. Connecting post; 203. Connecting shaft seat; 204. Transmission disc; 3. Fixing bolt; 4. Adjusting frame; 401. Telescopic rod; 402. First support seat; 403. Second support seat; 404. First docking seat; 405. Second docking seat; 5. Cleaning module; 501. Cleaning roller brush; 502. Bearing seat component; 503. Fixing seat. Detailed Implementation
[0022] The embodiments of this utility model will be described in further detail below with reference to the accompanying drawings and examples. The following examples are for illustrative purposes only and should not be construed as limiting the scope of this utility model.
[0023] like Figures 1 to 5As shown, a biomimetic textured diamond grinding wheel includes a grinding wheel module 1 and a cleaning module 5. Protective cover assemblies 2 are symmetrically mounted on the outer sides of the grinding wheel module 1, and fixing bolts 3 are installed between the two sets of protective cover assemblies 2. An adjusting frame 4 is horizontally connected to the middle of the protective cover assembly 2 on the side away from the grinding wheel module 1. The cleaning module 5 is installed at the end of the adjusting frame 4 away from the protective cover assembly 2. The cleaning module 5 includes a cleaning roller brush 501, a bearing seat component 502, and a fixing seat 503. The two ends of the cleaning roller brush 501 are connected to the bearing seat component 502, and the fixing seat 503 is provided on the side of the bearing seat component 502 away from the cleaning roller brush 501. The grinding wheel module 1 includes a grinding wheel body 101, a biomimetic texture structure 102, and a connecting disc 103. The side surface of the grinding wheel body 101 is provided with the biomimetic texture structure 102, and the connecting disc 103 is provided in the middle of both the left and right sides of the grinding wheel body 101. The biomimetic texture structure 102 adopts a sharkskin-like microgroove structure design. This structure can enhance the chip removal ability of the surface of the biomimetic texture structure 102 and avoid clogging. At the same time, through the structure of the cleaning module 5, the cleaning roller brush 501 is attached to the surface of the biomimetic texture structure 102, so that the surface cleaning treatment can be achieved synchronously with the high-speed rotation of the grinding wheel module 1.
[0024] like Figures 1 to 5As shown, the protective cover assembly 2 includes a cover body 201, docking posts 202, connecting shaft seats 203, and a transmission disc 204. The docking posts 202 are located on the side of the cover body 201, and the connecting shaft seats 203 are installed in the middle of the outer side of the cover body 201 near the adjusting frame 4. The transmission disc 204 is installed in the middle of the side of the cover body 201 near the grinding wheel module 1. The docking posts 202 are arranged in a ring around the cover body 201, and the cover body 201 and the docking posts 202 are integrated into a single structure. The transmission disc 204... One side surface matches the other side surface of the connecting plate 103, and the connecting shaft seat 203 and the transmission plate 204 are connected to each other and are on the same horizontal central axis. The fixing bolt 3 is horizontally threaded and installed inside the docking pile 202. The adjusting frame 4 includes a telescopic rod 401, a first support seat 402, a second support seat 403, a first docking seat 404, and a second docking seat 405. The first support seat 402 and the second support seat 403 are respectively installed at both ends of the telescopic rod 401, and the first support seat 402 is close to the protection. A first docking seat 404 is connected to one side of the cover assembly 2, and a second docking seat 405 is provided on the side of the second support seat 403 near the cleaning module 5. The second docking seat 405 and the fixed seat 503 are connected by a movable structure, and the first docking seat 404 and the connecting shaft seat 203 are connected by a movable structure. Moreover, the section of the first docking seat 404 away from the connecting shaft seat 203 is provided by a coupling structure. The bearing seat component 502 and the fixed seat 503 are fixedly connected. The second support seat 403 and the second docking seat 405 are connected to each other by bearing seats. The first support seat 402 and the first docking seat 404 are connected to each other by bearing seats. By using the symmetrically arranged cover body 201 structure, the grinding wheel module 1 can be appropriately covered, thereby reducing the safety hazards that may occur when the grinding wheel module 1 is operating. The two sets of notches on the surface facilitate the structural contact between the grinding wheel module 1 and the cleaning module 5, and also facilitate the discharge of waste from the inside of the protective cover assembly 2.
[0025] In summary, as Figures 1 to 5 As shown, when using the diamond grinding wheel with the biomimetic textured surface, the entire device is first connected to the power output end of the external drive motor by using a coupling structure on the side of the first docking seat 404 away from the connecting shaft seat 203. Under the operation of the external drive motor, the grinding wheel module 1 located inside the protective cover assembly 2 will rotate at high speed under the structural transmission of the connecting shaft seat 203, the transmission disk 204, and the connecting disk 103. At the same time, the biomimetic textured structure 102 designed with sharkskin-like microgrooves can ensure good structural cutting force.
[0026] Then, with the telescopic rod 401 structure between the first support 402 and the second support 403 telescopically adjusted, the distance between the grinding wheel module 1 and the cleaning module 5 connected by the first docking seat 404 and the second docking seat 405 at one end can be appropriately adjusted, ensuring that the cleaning roller brush 501 can fit against the biomimetic texture structure 102 surface on the side of the grinding wheel body 101, playing a real-time cleaning role, so as to ensure the overall grinding effect of the grinding wheel module 1. The left and right sets of covers 201 can achieve a stable structural combination by using the combination of docking piles 202 and fixing bolts 3.
[0027] The embodiments of this utility model are given for illustrative and descriptive purposes only, and are not intended to be exhaustive or to limit the utility model to the forms disclosed. Many modifications and variations will be apparent to those skilled in the art. The embodiments were chosen and described in order to better illustrate the principles and practical applications of this utility model, and to enable those skilled in the art to understand this utility model and design various embodiments with various modifications suitable for a particular purpose.
Claims
1. A diamond grinding wheel with a biomimetic textured surface, comprising a grinding wheel module (1) and a cleaning module (5), characterized in that: The outer side of the grinding wheel module (1) is symmetrically equipped with protective cover assemblies (2), and a fixing bolt (3) is installed between the two sets of protective cover assemblies (2). An adjustment frame (4) is horizontally connected to the middle of the side of the protective cover assembly (2) away from the grinding wheel module (1). The cleaning module (5) is installed at the end of the adjustment frame (4) away from the protective cover assembly (2). The cleaning module (5) includes a cleaning roller brush (501), a bearing seat component (502), and a fixing seat (503). The two ends of the cleaning roller brush (501) are connected to the bearing seat component (502), and a fixing seat (503) is provided on the side of the bearing seat component (502) away from the cleaning roller brush (501).
2. The diamond grinding wheel with a biomimetic textured surface according to claim 1, characterized in that, The grinding wheel module (1) includes a grinding wheel body (101), a biomimetic texture structure (102), and a connecting plate (103). The side surface of the grinding wheel body (101) is provided with a biomimetic texture structure (102), and a connecting plate (103) is provided in the middle of both the left and right sides of the grinding wheel body (101). The biomimetic texture structure (102) adopts a sharkskin-like microgroove structure design.
3. The diamond grinding wheel with a biomimetic textured surface according to claim 2, characterized in that, The protective cover assembly (2) includes a cover body (201), a docking post (202), a connecting shaft seat (203), and a transmission disc (204). The side of the cover body (201) is provided with the docking post (202), and the connecting shaft seat (203) is installed in the middle of the outer side of the cover body (201) near the adjusting frame (4). The transmission disc (204) is installed in the middle of the side of the cover body (201) near the grinding wheel module (1).
4. The diamond grinding wheel with a biomimetic textured surface according to claim 3, characterized in that, The connecting piles (202) are arranged in a ring around the cover (201), and the cover (201) and the connecting piles (202) are set as an integral structure.
5. The diamond grinding wheel with a biomimetic textured surface according to claim 3, characterized in that, One side surface of the transmission disc (204) and one side surface of the connecting disc (103) match each other, and the connecting shaft seat (203) and the transmission disc (204) are connected to each other and are on the same horizontal central axis. The fixing bolt (3) is horizontally threaded and installed inside the docking pile (202).
6. The diamond grinding wheel with a biomimetic textured surface according to claim 1, characterized in that, The adjustment frame (4) includes a telescopic rod (401), a first support base (402), a second support base (403), a first docking seat (404), and a second docking seat (405). The first support base (402) and the second support base (403) are respectively installed at both ends of the telescopic rod (401). The first support base (402) is connected to the first docking seat (404) on the side near the protective cover assembly (2), and the second support base (403) is provided with the second docking seat (405) on the side near the cleaning module (5).
7. The diamond grinding wheel with a biomimetic textured surface according to claim 6, characterized in that, The second docking seat (405) and the fixed seat (503) are connected by a movable structure, and the first docking seat (404) and the connecting shaft seat (203) are connected by a movable structure. Furthermore, the section of the first docking seat (404) away from the connecting shaft seat (203) is equipped with a coupling structure.
8. The diamond grinding wheel with a biomimetic textured surface according to claim 7, characterized in that, The bearing seat component (502) and the fixed seat (503) are fixedly connected. The second support seat (403) and the second mating seat (405) are connected to each other by bearing seats. The first support seat (402) and the first mating seat (404) are connected to each other by bearing seats.