A deburring device with a fixed structure for stainless steel plate production

By combining suction cups and electric air pumps, along with electric bidirectional lead screws and rotary motors, the problem of wobbling and manual adjustment of stainless steel plates during deburring is solved. This achieves stable fixing of stainless steel plates and automated deburring, improving production efficiency and product quality.

CN224425112UActive Publication Date: 2026-06-30XINGHUA GUANGFU METAL PROD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XINGHUA GUANGFU METAL PROD
Filing Date
2025-05-21
Publication Date
2026-06-30

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Abstract

This utility model discloses a deburring device with a fixed structure for stainless steel plate production, including a processing table and a limiting plate. The upper end of the processing table has a sliding groove and a pair of support frames. A first moving component is located within the sliding groove. A grinding disc and a moving mechanism are respectively mounted on the pair of support frames. A moving frame is mounted on the moving mechanism. A base is located at the upper end of the first moving component, and a rotating motor is mounted on the base. The output end of the rotating motor faces vertically and has a rotating disc. A second moving component is located at the upper end of the rotating disc. A pair of guide rails are located at the upper end of the second moving component, and several sliders are movably mounted on the upper end of the pair of guide rails. This utility model can fix stainless steel plates during deburring operations, preventing the stainless steel plates from shaking and causing uneven deburring. Furthermore, this device can fix stainless steel plates of different sizes, making it widely applicable.
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Description

Technical Field

[0001] This utility model relates to the field of stainless steel plate deburring technology, specifically a deburring device with a fixed structure for stainless steel plate production. Background Technology

[0002] Stainless steel sheet is a general term encompassing both stainless steel sheet and acid-resistant steel sheet. It has been used for over 90 years since its introduction at the beginning of this century. It has a smooth surface, high plasticity, toughness, and mechanical strength, and is resistant to corrosion from acids, alkalis, gases, solutions, and other media. Chinese Patent No. CN202421380755.4 discloses a deburring device for processing stainless steel sheets, relating to the field of stainless steel sheet processing technology. This deburring device includes a frame, a rotating assembly, and auxiliary components. A connecting frame is fixedly mounted on the frame. The rotating assembly, located on the frame, includes a groove, a magnetic chuck, a placement frame, a motor, and a hydraulic rod. The magnetic chuck is located inside the groove, and the motor is fixedly mounted inside the placement frame. The output shaft of the motor passes through the frame and is fixedly mounted to the bottom of the magnetic chuck. The free end of the hydraulic rod is fixedly mounted to one side of the placement frame. By using the groove, magnetic chuck, placement frame, motor and hydraulic rod in combination, the rotating assembly can ensure that each surface of the workpiece is evenly exposed during the deburring process, which can guarantee the uniformity and consistency of the deburring effect, avoid the problem of some parts not being completely deburred, and make the whole deburring process more continuous and efficient.

[0003] Based on the above, the inventors have discovered the following problems: the above-mentioned device can deburr the sides and surface of stainless steel plates, but it ignores the fact that the stainless steel plate will shake during deburring, resulting in uneven deburring. In addition, the device cannot automatically deburr the sides of the stainless steel plate in different directions, and the operator still needs to manually change the position, which is quite troublesome. Utility Model Content

[0004] To achieve the above objectives, this utility model provides the following technical solution: a deburring device with a fixed structure for stainless steel plate production, comprising a processing table and a limiting plate. The upper end of the processing table is provided with a sliding groove and a pair of support frames. A first moving component is provided in the sliding groove. A grinding disc and a moving mechanism are respectively provided on the pair of support frames. A moving frame is provided on the moving mechanism. A grinding block is connected to the moving frame. A base is provided on the upper end of the first moving component. A rotating motor is provided on the base. The output end of the rotating motor faces vertically and is provided with a rotating disc. A second moving component is provided on the upper end of the rotating disc. A pair of guide rails are provided on the upper end of the second moving component. Several sliders are movably provided on the upper end of the pair of guide rails. The sliders are connected to a moving shaft. Several limiting holes are provided on the limiting plate. The limiting holes are arranged radially on the limiting plate. A suction cup is provided through the limiting holes of the moving shaft.

[0005] Furthermore, an air guide pipe is connected through the side of the suction cup, and several of the air guide pipes are connected through the connecting box. The connecting box is connected through a pipe, and the pipe is connected to an electric air pump, which is located at the upper end of the rotating disk.

[0006] Furthermore, the moving component includes an electric one-way lead screw and a pair of guide rails. The electric one-way lead screw is located in a slide groove, and the pair of guide rails are respectively located on both sides of the slide groove. A connecting block is provided at the lower end of the chassis. The connecting block is threadedly connected to the electric one-way lead screw, and the lower ends of the chassis are respectively movably connected to the pair of guide rails.

[0007] Furthermore, the second moving component includes an electric bidirectional lead screw and a second guide rail. The upper end of the rotating disk is provided with an electric bidirectional lead screw and a pair of second guide rails, and the pair of second guide rails are provided on both sides of the electric bidirectional lead screw. The lower ends of the pair of third guide rails are respectively threaded to the threaded intervals in different directions of the electric bidirectional lead screw, and the lower end of the third guide rail is provided with a pair of second sliders, and the second sliders are movably connected to the second guide rails.

[0008] Furthermore, the moving mechanism is horizontally positioned at the upper end of the support frame, and the moving mechanism is movably connected to the moving frame.

[0009] Furthermore, the number of slider three is the same as that of the moving shaft, the limiting hole, and the air guide tube, and their positions correspond.

[0010] Furthermore, the air guide tube is an elastic telescopic tube.

[0011] Compared with the prior art, the beneficial effects of this utility model are: the deburring equipment with a fixed structure for stainless steel plate production is reasonable and has the following advantages:

[0012] (1) Through the design of suction cup, air guide tube, connecting box, pipeline and electric air pump, starting the electric air pump can make the suction cup have the effect of adsorption. After placing the stainless steel plate on the suction cup, starting the electric air pump can make the suction cup adsorb and fix the stainless steel plate, thereby achieving the stable fixation of the stainless steel plate without damaging the surface quality of the plate. Especially in the process of fine processing or handling, it can effectively ensure the integrity of the stainless steel plate and avoid the scratches, indentations or deformation that may be caused by traditional fixing methods, thereby improving production efficiency and product quality.

[0013] (2) By starting the electric bidirectional lead screw, with the cooperation of slider three, limit hole, and guide rail three, the moving shaft can move within the limit hole, and the distribution of the limit hole on the limit plate is shown in the figure. Thus, several suction cups can fix stainless steel plates of different widths and lengths, making the device applicable to a certain range. Moreover, the operator does not need to manually adjust it, and can quickly and accurately complete the fixing and processing of workpieces of different sizes, greatly saving manual operation time and improving production efficiency and automation level. Among them, with the cooperation of the rotating motor, starting the rotating motor can drive the stainless steel plate to rotate, and can automatically deburr the sides of the stainless steel plate in different directions without manual position changes, reducing labor consumption. Attached Figure Description

[0014] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0015] Figure 2 This is an enlarged schematic diagram of part of the structure of this utility model;

[0016] Figure 3 This is an exploded view of part of the structure of this utility model;

[0017] Figure 4 This is an enlarged structural schematic diagram of the second mobile component of this utility model;

[0018] Figure 5 This is a cross-sectional view of the limiting disc structure of this utility model.

[0019] In the diagram: 1. Processing table; 2. Support frame; 3. Grinding disc; 4. Moving mechanism; 5. Grinding block; 6. Base; 7. Slide groove; 8. Electric one-way lead screw; 9. Guide rail one; 10. Connecting block; 11. Rotating disc; 12. Limiting disc; 13. Suction cup; 14. Electric two-way lead screw; 15. Guide rail two; 16. Slider two; 17. Guide rail three; 18. Slider three; 19. Moving shaft; 20. Connecting box; 21. Rotating motor; 22. Air duct; 23. Limiting hole; 24. Electric air pump; 25. Pipeline. Detailed Implementation

[0020] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0021] Please see Figure 1-5 The present invention provides a technical solution as follows:

[0022] Example:

[0023] In this embodiment, a deburring device with a fixed structure for stainless steel plate production includes a processing table 1 and a limiting plate 12. The processing table 1 has a sliding groove 7 and a pair of support frames 2 at its upper end. A first moving component is provided in the sliding groove 7. A grinding disc 3 and a moving mechanism 4 are respectively provided on the pair of support frames 2. A moving frame is provided on the moving mechanism 4. A grinding block 5 is connected to the moving frame. A base plate 6 is provided at the upper end of the first moving component. A rotating motor 21 is provided on the base plate 6. The output end of the rotating motor 21 is vertically facing each other and is provided with a rotating disc 11. A second moving component is provided at the upper end of the rotating disc 11. A pair of guide rails 17 are provided at the upper end of the second moving component. A plurality of sliders 18 are movably provided at the upper end of the pair of guide rails 17. The sliders 18 are connected to a moving shaft 19. A plurality of limiting holes 23 are provided on the limiting plate 12. The plurality of limiting holes 23 are arranged radially on the limiting plate 12. A suction cup 13 is provided through the limiting holes 23 on the moving shaft 19.

[0024] By activating the electric bidirectional lead screw 14, a pair of guide rails 17 are moved. With the design of the slider 18 and the limiting hole 23, the moving shaft 19 can move within the limiting hole 23. The distribution of the limiting holes 23 on the limiting plate 12 is as follows: Figure 3 As shown, this allows several suction cups 13 to fix stainless steel plates of different widths and lengths, giving the device a certain range of applications.

[0025] The suction cup 13 is connected to an air guide pipe 22 through the side. Several air guide pipes 22 are connected to a connecting box 20 through the connection box 20. The connecting box 20 is connected to a pipe 25 through the connection box 20. The pipe 25 is connected to an electric air pump 24. The electric air pump 24 is located at the upper end of the rotating disk 11.

[0026] Through the design of suction cup 13, air guide tube 22, connecting box 20, pipe 25 and electric air pump 24, starting the electric air pump 24 can enable suction cup 13 to have an adsorption effect. When the stainless steel plate to be processed is placed on suction cup 13, starting the electric air pump 24 can make suction cup 13 adsorb and fix the stainless steel plate, and suction cup 13 will not scratch the surface of stainless steel plate, thus ensuring the quality of the stainless steel plate surface. The connecting box 20 has a connecting function.

[0027] The moving component includes an electric one-way screw 8 and a pair of guide rails 9. The electric one-way screw 8 is located in the slide groove 7, and the pair of guide rails 9 are respectively located on both sides of the slide groove 7. The lower end of the chassis 6 is provided with a connecting block 10, which is threadedly connected to the electric one-way screw 8. The lower ends of the chassis 6 are respectively movably connected to the pair of guide rails 9.

[0028] By activating the electric one-way lead screw 8, the chassis 6 can be moved horizontally along the guide rail 9 in cooperation with the connecting block 10. This allows the stainless steel plate fixed on the chassis 6 to be moved sequentially to the positions of the grinding disc 3 and the grinding block 5, thus enabling deburring of the upper and side surfaces of the stainless steel plate. Furthermore, with the cooperation of the rotating motor 21, activating the rotating motor 21 can drive the rotating disc 11 to rotate, thereby rotating the stainless steel plate. This allows for automatic deburring of the sides of the stainless steel plate in different directions without the need for manual repositioning, reducing labor costs.

[0029] The second moving component includes an electric bidirectional lead screw 14 and a second guide rail 15. The upper end of the rotating disk 11 is provided with an electric bidirectional lead screw 14 and a pair of second guide rails 15, and the pair of second guide rails 15 are provided on both sides of the electric bidirectional lead screw 14. The lower ends of the pair of third guide rails 17 are respectively threaded to the threaded intervals of the electric bidirectional lead screw 14 in different directions, and the lower end of the third guide rails 17 is provided with a pair of second sliders 16, and the second sliders 16 are movably connected to the second guide rails 15.

[0030] By designing the second movable component, the electric bidirectional lead screw 14 can be activated to drive a pair of guide rails 17 to move closer or further apart on the second guide rail 15. With the cooperation of the slider 18, the movable shaft 19 and the suction cup 13, it can adapt to stainless steel plates of different lengths, thereby fixing stainless steel plates of different lengths.

[0031] The moving mechanism 4 is horizontally mounted on the upper end of the support frame 2, and the moving mechanism 4 is movably connected to the moving frame.

[0032] The aforementioned moving mechanism 4 is existing technology and will not be described in detail here. The moving mechanism 4 is used to move the grinding block 5 horizontally. When the stainless steel plate at the upper end of the suction cup 13 moves to the position of the grinding block 5, the moving mechanism 4 drives the grinding block 5 to move horizontally, thereby enabling the deburring operation on the side of the stainless steel plate.

[0033] Among them, the number of slider 3 18 is the same as that of moving shaft 19, limiting hole 23, and air guide tube 22, and their positions correspond;

[0034] The connection relationship between the slider 18, the moving shaft 19, the limiting hole 23, and the air guide tube 22 is as follows: Figure 4 As shown.

[0035] The air guide tube 22 is an elastic telescopic tube;

[0036] By designing the air guide tube 22 as an elastic telescopic tube, when the suction cup 13 moves with the moving shaft 19 within the limiting hole 23, the air guide tube 22 will not affect the movement of the moving shaft 19, thus ensuring that the suction cup 13 always has the effect of adsorption and fixation, and guaranteeing the fixation effect of the stainless steel plate.

[0037] Working principle:

[0038] When using this device, first, according to the size of the stainless steel plate, start the electric bidirectional lead screw 14 to drive a pair of guide rails 17 to move on guide rail 2 15. Under the design of the limiting plate 12, the slider 18 moves on the upper end of the guide rail 17, and the moving shaft 19 moves in the limiting hole 23, driving the suction cup 13 to move in the same direction. When the suction cups 13 move to the appropriate position, place the stainless steel plate on the upper end of the suction cups 13, and then start the electric vacuum pump 24 to make the suction cups 13 adsorb and fix the stainless steel plate, thereby achieving the adsorption and fixing effect of stainless steel plates of different sizes. Then, start the electric unidirectional lead screw 8 to drive the stainless steel plate to move sequentially to the position of the grinding disc 3 and the grinding block 5, so that the stainless steel plate can be deburred. When the stainless steel plate moves to the position of the grinding block 5, the rotating motor 21 can be started to drive the stainless steel plate to rotate, so that the sides of the stainless steel plate in different directions can be deburred.

[0039] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, it is intended that all variations falling within the meaning and scope of equivalents of the claims be included within this invention. No reference numerals in the claims should be construed as limiting the scope of the claims.

Claims

1. A deburring apparatus with a fixed structure for stainless steel plate production, comprising a machining table (1) and a limiting disc (12), characterized in that: The upper end of the processing table (1) is provided with a slide groove (7) and a pair of support frames (2). A moving component is provided in the slide groove (7). A grinding disc (3) and a moving mechanism (4) are respectively provided on the pair of support frames (2). A moving frame is provided on the moving mechanism (4). A grinding block (5) is connected to the moving frame. A base plate (6) is provided on the upper end of the moving component. A rotating motor (21) is provided on the base plate (6). The output end of the rotating motor (21) is vertically facing each other and is provided with a rotating disc (11). The rotating disk (11) is provided with a moving component two at its upper end. The moving component two is provided with a pair of guide rails three (17) at its upper end. Several sliders three (18) are movably provided at the upper end of the pair of guide rails three (17). The sliders three (18) are connected to a moving shaft (19). Several limiting holes (23) are provided on the limiting disk (12). The several limiting holes (23) are arranged radially on the limiting disk (12). The moving shaft (19) is provided with a suction cup (13) through the limiting hole (23).

2. The deburring apparatus having a fixing structure for stainless steel plate production according to claim 1, characterized in that: The suction cup (13) is connected to an air guide pipe (22) through the side. Several of the air guide pipes (22) are connected to the connecting box (20). The connecting box (20) is connected to a pipe (25). The pipe (25) is connected to an electric air pump (24). The electric air pump (24) is located at the upper end of the rotating disk (11).

3. The deburring apparatus having a fixing structure for stainless steel plate production according to claim 2, characterized in that: The moving component includes an electric one-way screw (8) and a pair of guide rails (9). The electric one-way screw (8) is located in the slide groove (7), and the pair of guide rails (9) are respectively located on both sides of the slide groove (7). The lower end of the chassis (6) is provided with a connecting block (10), which is threadedly connected to the electric one-way screw (8). The lower ends of the chassis (6) are respectively movably connected to the pair of guide rails (9).

4. The deburring apparatus having a fixing structure for stainless steel plate production according to claim 2, characterized in that: The second moving component includes an electric bidirectional lead screw (14) and a second guide rail (15). The upper end of the rotating disk (11) is provided with an electric bidirectional lead screw (14) and a pair of second guide rails (15), and the pair of second guide rails (15) are provided on both sides of the electric bidirectional lead screw (14). The lower ends of the pair of third guide rails (17) are respectively threaded to the threaded intervals of the electric bidirectional lead screw (14) in different directions, and the lower end of the third guide rail (17) is provided with a pair of second sliders (16), and the second sliders (16) are movably connected to the second guide rails (15).

5. The deburring apparatus having a fixing structure for stainless steel plate production according to claim 1, characterized in that: The moving mechanism (4) is horizontally positioned on the upper end of the support frame (2), and the moving mechanism (4) is movably connected to the moving frame.

6. A deburring device with a fixed structure for stainless steel plate production according to claim 4, characterized in that: The number of slider three (18) is the same as that of moving shaft (19), limiting hole (23), and air guide tube (22), and their positions correspond.

7. A deburring device with a fixed structure for stainless steel plate production according to claim 6, characterized in that: The air guide tube (22) is an elastic telescopic tube.