A metal high flatness mirror polishing device

By introducing a combination design of electric push rod, vacuum machine and drive components into the metal high flatness mirror polishing device, the problems of poor positioning and fixing effect and low polishing efficiency are solved, the stable positioning and flexible control of the mirror surface are realized, the polishing range is expanded and the polishing efficiency is improved.

CN224334190UActive Publication Date: 2026-06-09ZHEJIANG MEIHANG METAL MFG CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG MEIHANG METAL MFG CO LTD
Filing Date
2025-06-06
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing metal high-flatness mirror polishing devices suffer from problems such as poor positioning and fixing effect, poor control flexibility, limited polishing range, and low polishing efficiency.

Method used

It adopts a combined design including an operating table, electric push rod, vacuum machine, suction port, drive component and grinding structure. The electric push rod is used for positioning and fixing, the vacuum machine is used for suction, and the drive component is used to adjust the position and height of the grinding structure, so as to achieve stable positioning and flexible grinding of the mirror surface.

Benefits of technology

It achieves stable positioning and flexible adjustment of the mirror surface, expands the grinding range, and improves grinding efficiency and operational stability.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of metal high flatness mirror surface grinding devices, belong to metal flatness mirror surface grinding technical field, wherein, including operation platform, the first electric push rod is arranged in operation platform inside, the first electric push rod one end is fixedly connected with limit support, the mounting bracket is fixedly connected with in operation platform inside, the vacuum machine is arranged in mounting bracket inside, the vacuum machine top is provided with suction port, the first support frame is fixedly connected with in operation platform top, the first support frame inside is sleeved with first rotating shaft by bearing A, the first rotating shaft one end is fixedly connected with first threaded rod, its beneficial effect is, this metal high flatness mirror surface grinding device, by first electric push rod work, limit support can be driven to move, mirror surface can be positioned to limit, subsequent clamping operation is facilitated, by setting vacuum machine and suction port, mirror surface can be fixed by suction, guarantee subsequent grinding operation stability.
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Description

Technical Field

[0001] This utility model relates to the field of metal flatness mirror polishing technology, and more specifically, it relates to a metal high flatness mirror polishing device. Background Technology

[0002] Flatness refers to the deviation of the macroscopic unevenness of a substrate from an ideal plane. The tolerance zone is the area between two parallel planes at a distance equal to the tolerance value. Flatness belongs to the form error category of geometrical errors. Flatness error is calculated by comparing the actual surface being measured with an ideal plane; the linear distance between the two is the flatness error value. Therefore, to process a high-flatness metal mirror, a corresponding grinding device is required.

[0003] However, most existing devices suffer from poor positioning and fixing effects, poor control flexibility, limited grinding range, and poor grinding efficiency. Utility Model Content

[0004] (a) Technical problems to be solved

[0005] In view of the shortcomings of the existing technology, the purpose of this utility model is to provide a metal high flatness mirror polishing device, which has the characteristics of good positioning and fixing effect, high adjustment flexibility, wide polishing range and high polishing efficiency.

[0006] (II) Technical Solution

[0007] To achieve the above objectives, this utility model provides a metal high-flatness mirror polishing device, including an operating table. A first electric push rod is disposed on the inner side of the operating table. A limit frame is fixedly connected to one end of the first electric push rod. A mounting frame is fixedly connected to the inner side of the operating table. A vacuum machine is disposed on the inner side of the mounting frame. An adsorption port is disposed on the top of the vacuum machine. A first support frame is fixedly connected to the top of the operating table. A first rotating shaft is sleeved on the inner side of the first support frame via a bearing A. A first threaded rod is fixedly connected to one end of the first rotating shaft. A first driving assembly is disposed between the first threaded rod and the first support frame. A first threaded sleeve is threadedly connected to the surface of the first threaded rod. A second support frame is disposed at the bottom of the first threaded sleeve. A second rotating shaft is sleeved on the inner side of the second support frame via a bearing B. A second threaded rod is fixedly connected to one end of the second rotating shaft. A second driving assembly is disposed between the second threaded rod and the second support frame. A second threaded sleeve is threadedly connected inside the second threaded rod. A second electric push rod is disposed at the bottom of the second threaded sleeve. A polishing structure is disposed at the bottom end of the second electric push rod.

[0008] When using the metal high-flatness mirror polishing device of this technical solution, the operation of the first electric push rod can drive the movement of the limiting frame, which can restrict and position the mirror surface, facilitating subsequent clamping operations. By setting up a vacuum machine and an adsorption port, the mirror surface can be adsorbed and fixed, ensuring the stability of subsequent polishing operations. The operation of the first drive component can drive the rotation of the first threaded rod, thereby driving the movement of the first threaded sleeve, the second support frame, the second electric push rod, and the polishing structure. In conjunction with the operation of the second drive component, the rotation of the second threaded rod can drive the movement of the second threaded sleeve, the second electric push rod, and the polishing structure, allowing for flexible adjustment of the spatial position of the polishing structure. The operation of the second electric push rod can drive the polishing structure to rise and fall, allowing for adjustment and control of the polishing degree. Through the operation of the polishing structure, the mirror surface can be polished.

[0009] Furthermore, the first support frame has a first groove inside, and a first slider is slidably connected in the first groove. The first slider is fixedly connected to the top of the first threaded sleeve.

[0010] Furthermore, a second groove is provided inside the second support frame, and a second slider is slidably connected in the second groove. The second slider is fixedly connected to the top of the second threaded sleeve.

[0011] Furthermore, the first drive assembly includes a first motor frame, which is fixedly connected to one side of the first support frame. A first drive motor is disposed inside the first motor frame, and the output shaft of the first drive motor is disposed at one end of the first threaded rod. A first support sleeve is disposed inside the first support frame, and the output shaft of the first drive motor is sleeved inside the first support sleeve.

[0012] Furthermore, the second drive assembly includes a second motor frame, which is fixedly connected to one side of the second support frame. A second drive motor is disposed inside the second motor frame, and the output shaft of the second drive motor is sleeved on one end of the second threaded rod. A second support sleeve is disposed inside the second support frame, and the output shaft of the second drive motor is sleeved inside the second support sleeve.

[0013] Furthermore, a control panel is provided on the top of the control panel, and a support leg is provided at the bottom of the control panel, with a support base fixedly connected to the bottom of the support leg.

[0014] (III) Beneficial Effects

[0015] In summary, this utility model has the following beneficial effects:

[0016] 1. The first electric push rod can drive the limit frame to move, which can limit and position the mirror surface, making it convenient for subsequent clamping operations. By setting up a vacuum machine and suction port, the mirror surface can be adsorbed and fixed, ensuring the stability of subsequent grinding operations.

[0017] 2. The first drive assembly rotates the first threaded rod, which in turn moves the first threaded sleeve, the second support frame, the second electric push rod, and the grinding structure. The second drive assembly rotates the second threaded rod, which in turn moves the second threaded sleeve, the second electric push rod, and the grinding structure. The spatial position of the grinding structure can be flexibly adjusted. The second electric push rod can raise and lower the grinding structure, allowing for adjustment and control of the grinding degree. The grinding structure can then be used to grind the mirror surface. Attached Figure Description

[0018] To more clearly illustrate the specific embodiments of this utility model or the technical solutions in the prior art, the drawings used in the description of the specific embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only one embodiment of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0019] Figure 1 This is a front view structural diagram of the present utility model;

[0020] Figure 2 This is a frontal cross-sectional view of the present invention.

[0021] Figure 3 This is a side sectional view of the present invention.

[0022] Figure 4 This is a schematic diagram of the structure of the first driving component in this utility model;

[0023] Figure 5 This is a schematic diagram of the structure of the second driving component in this utility model.

[0024] The labels in the attached diagram are:

[0025] 1. Support base; 2. Support leg; 3. Control panel; 4. First support frame; 5. Second support frame; 6. Mounting frame; 7. Vacuum machine; 8. Adsorption port; 9. First electric push rod; 10. Limiting frame; 11. Grinding structure; 12. Second electric push rod; 13. First drive assembly; 131. First motor frame; 132. First drive motor; 133. First support sleeve; 14. First slide groove; 15. First threaded rod; 16. First threaded sleeve; 17. First slider; 18. First rotating shaft; 19. Operating table; 20. Second threaded rod; 21. Second slide groove; 22. Second threaded sleeve; 23. Second drive assembly; 231. Second motor frame; 232. Second drive motor; 233. Second support sleeve; 24. Second slider; 25. Second rotating shaft. Detailed Implementation

[0026] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the technical solutions in the specific embodiments of this utility model are clearly and completely described below to further illustrate this utility model. Obviously, the specific embodiments described are only a part of the embodiments of this utility model, and not all of them.

[0027] Example:

[0028] The following is in conjunction with the appendix Figure 1-5 The present invention will be described in further detail below.

[0029] Please see Figure 1-5This utility model provides a technical solution: a metal high-flatness mirror polishing device, including an operating table 19. A first electric push rod 9 is provided inside the operating table 19. The operation of the first electric push rod 9 can drive the movement of a limiting frame 10, which can restrict and position the mirror surface for convenient subsequent clamping operations. One end of the first electric push rod 9 is fixedly connected to the limiting frame 10. A mounting frame 6 is fixedly connected inside the operating table 19. A vacuum machine 7 is provided inside the mounting frame 6. An adsorption port 8 is provided at the top of the vacuum machine 7. By setting the vacuum machine 7 and the adsorption port 8, the mirror surface can be adsorbed and fixed, ensuring the stability of subsequent polishing operations. A first support frame 4 is fixedly connected to the top of the operating table 19. A first rotating shaft 18 is sleeved inside the first support frame 4 through a bearing A. One end of the first rotating shaft 18 is fixedly connected to a first threaded rod 15. A first driving assembly 13 is provided between the first threaded rod 15 and the first support frame 4. The operation of the first driving assembly 13 can drive the first threaded rod 15 to rotate, thereby driving the first threaded sleeve 16 and the second support frame 17. The support frame 5, the second electric push rod 12, and the grinding structure 11 move, cooperating with the second drive assembly 23 to drive the second threaded rod 20 to rotate, thereby driving the second threaded sleeve 22, the second electric push rod 12, and the grinding structure 11 to move. This allows for flexible adjustment of the spatial position of the grinding structure 11. The surface of the first threaded rod 15 is threadedly connected to the first threaded sleeve 16. The bottom of the first threaded sleeve 16 is provided with the second support frame 5. The inner side of the second support frame 5 is sleeved with the second rotating shaft 25 through the bearing B. One end of the second rotating shaft 25 is fixedly connected to the second threaded rod 20. The second drive assembly 23 is provided between the second threaded rod 20 and the second support frame 5. The second threaded rod 20 is threadedly connected to the second threaded sleeve 22. The bottom of the second threaded sleeve 22 is provided with the second electric push rod 12. By working with the second electric push rod 12, the grinding structure 11 can be raised and lowered, allowing for adjustment and control of the grinding degree. The bottom end of the second electric push rod 12 is provided with the grinding structure 11. By working with the grinding structure 11, the mirror surface can be ground.

[0030] Specifically, the first support frame 4 has a first sliding groove 14 inside, and a first slider 17 is slidably connected in the first sliding groove 14. The first slider 17 is fixedly connected to the top of the first threaded sleeve 16. The second support frame 5 has a second sliding groove 21 inside, and a second slider 24 is slidably connected in the second sliding groove 21. The second slider 24 is fixedly connected to the top of the second threaded sleeve 22.

[0031] By adopting the above technical solution, the first threaded sleeve 16 can be limited and supported by setting the first slide groove 14 and the first slider 17, and the second threaded sleeve 22 can be limited and supported by setting the second slide groove 21 and the second slider 24.

[0032] Specifically, the first drive assembly 13 includes a first motor frame 131, which is fixedly connected to one side of the first support frame 4. A first drive motor 132 is disposed inside the first motor frame 131, and the output shaft of the first drive motor 132 is disposed at one end of the first threaded rod 15. A first support sleeve 133 is disposed inside the first support frame 4, and the output shaft of the first drive motor 132 is sleeved inside the first support sleeve 133. The second drive assembly 23 includes a second motor frame 231, which is fixedly connected to one side of the second support frame 5. A second drive motor 232 is disposed inside the second motor frame 231, and the output shaft of the second drive motor 232 is sleeved at one end of the second threaded rod 20. A second support sleeve 233 is disposed inside the second support frame 5, and the output shaft of the second drive motor 232 is sleeved inside the second support sleeve 233.

[0033] By adopting the above technical solution, the first drive motor 132 can drive the first threaded rod 15 to rotate, which facilitates the control of the first threaded rod 15. By setting the first support sleeve 133, the output shaft of the first drive motor 132 can be sleeved and supported. The second drive motor 232 can drive the second threaded rod 20 to rotate, which facilitates the control of the second threaded rod 20. By setting the second support sleeve 233, the output shaft of the second drive motor 232 can be sleeved and supported.

[0034] Specifically, the top of the control panel 19 is equipped with a control panel 3, the bottom of the control panel 19 is equipped with a support leg 2, and the bottom of the support leg 2 is fixedly connected to a support base 1.

[0035] By adopting the above technical solution and setting up the control panel 3, the electrical components of the device can be controlled, thereby facilitating the control of the device.

[0036] The working principle of this utility model is as follows:

[0037] S1. Before the mirror needs to be polished, the mirror can be placed on the surface of the adsorption port 8. Then, the first electric push rod 9 is controlled by the control panel 3 to move the limit frame 10 to clamp and position the mirror. After the mirror is positioned, the vacuum machine 7 is controlled by the control panel 3 to evacuate the air between the adsorption port 8 and the mirror to adsorb and fix the mirror. After the mirror is fixed, the first electric push rod 9 can be controlled by the control panel 3 to drive the limit frame 10 to recycle and process it.

[0038] S2. When mirror polishing is required, the first drive assembly 13 can be controlled by the control panel 3 to rotate the first threaded rod 15, thereby moving the first threaded sleeve 16, the second support frame 5, the second electric push rod 12, and the polishing structure 11. The second drive assembly 23 can be controlled by the control panel 3 to rotate the second threaded rod 20, thereby moving the second threaded sleeve 22, the second electric push rod 12, and the polishing structure 11. The position of the polishing structure 11 can be adjusted and controlled. At the same time, the control panel 3 controls the second electric push rod 12 to move the polishing structure 11 up and down. By cooperating with the polishing structure 11, different degrees of polishing treatment can be performed on different positions of the mirror surface.

[0039] This specific embodiment is merely an explanation of the present utility model and is not intended to limit the present utility model. After reading this specification, those skilled in the art can make modifications to this embodiment without contributing any inventive step, but as long as they are within the scope of the claims of the present utility model, they are protected by patent law.

Claims

1. A metal high-flatness mirror polishing device, comprising an operating table (19), characterized in that: The operating table (19) is provided with a first electric push rod (9) on its inner side. One end of the first electric push rod (9) is fixedly connected to a limit frame (10). The operating table (19) is fixedly connected to a mounting frame (6). The mounting frame (6) is provided with a vacuum machine (7) on its inner side. The vacuum machine (7) is provided with an adsorption port (8) on its top. The operating table (19) is fixedly connected to a first support frame (4). The first support frame (4) is sleeved with a first rotating shaft (18) through a bearing A on its inner side. One end of the first rotating shaft (18) is fixedly connected to a first threaded rod (15). A first drive assembly (13) is provided between the first threaded rod (15) and the first support frame (4). The first threaded rod (15) is threadedly connected to a first threaded sleeve (16). The bottom of the first threaded sleeve (16) is provided with a second support frame (5). The inner side of the second support frame (5) is sleeved with a second rotating shaft (25) through a bearing B. One end of the second rotating shaft (25) is fixedly connected to a second threaded rod (20). A second drive assembly (23) is provided between the second threaded rod (20) and the second support frame (5). The second threaded rod (20) is threadedly connected to a second threaded sleeve (22). The bottom of the second threaded sleeve (22) is provided with a second electric push rod (12). The bottom end of the second electric push rod (12) is provided with a grinding structure (11).

2. The metal high-flatness mirror polishing device according to claim 1, characterized in that: The first support frame (4) has a first groove (14) inside, and a first slider (17) is slidably connected in the first groove (14). The first slider (17) is fixedly connected to the top of the first threaded sleeve (16).

3. The metal high-flatness mirror polishing device according to claim 1, characterized in that: The second support frame (5) has a second groove (21) inside, and a second slider (24) is slidably connected in the second groove (21). The second slider (24) is fixedly connected to the top of the second threaded sleeve (22).

4. The metal high-flatness mirror polishing device according to claim 1, characterized in that: The first drive assembly (13) includes a first motor frame (131), which is fixedly connected to one side of the first support frame (4). A first drive motor (132) is provided inside the first motor frame (131), and the output shaft of the first drive motor (132) is located at one end of the first threaded rod (15). A first support sleeve (133) is provided inside the first support frame (4), and the output shaft of the first drive motor (132) is sleeved inside the first support sleeve (133).

5. The metal high-flatness mirror polishing device according to claim 1, characterized in that: The second drive assembly (23) includes a second motor frame (231), which is fixedly connected to one side of the second support frame (5). A second drive motor (232) is provided inside the second motor frame (231). The output shaft of the second drive motor (232) is sleeved on one end of the second threaded rod (20). A second support sleeve (233) is provided inside the second support frame (5), and the output shaft of the second drive motor (232) is sleeved inside the second support sleeve (233).

6. The metal high-flatness mirror polishing device according to claim 1, characterized in that: The top of the operating table (19) is provided with a control panel (3), and the bottom of the operating table (19) is provided with a support leg (2), and the bottom of the support leg (2) is fixedly connected with a support base (1).