A kind of anti-deviation guiding positioning device for copper plate trimming equipment
By introducing an anti-deviation guide positioning device into the copper plate cutting equipment, and using guide rollers and fixed pressure plates driven by servo motors and electric push rods, the copper plate can be accurately positioned and fixed, solving the deviation problem in the copper plate cutting process and improving cutting accuracy and product quality.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUIXI ZHENGXIN COPPER CO LTD
- Filing Date
- 2025-07-15
- Publication Date
- 2026-06-09
Smart Images

Figure CN224333590U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of copper plate cutting and processing technology, specifically to an anti-deviation guide positioning device for copper plate edge cutting equipment. Background Technology
[0002] During the rolling or casting process, copper plates may have irregularities, burrs, or dimensional deviations at the edges. Trimming the edges can ensure that the plates reach the standard width and straightness, meeting the precision requirements of subsequent processing or assembly. For example, PCB substrates, electronic components, and heat sinks have strict requirements for the edge quality of copper plates. Trimming the edges can prevent poor edge quality from affecting subsequent stamping, etching, welding, and other processes.
[0003] Traditional copper plate edge cutting equipment mostly lacks an anti-deviation guiding mechanism. When workers perform fixed edge cutting operations on copper plates, it is difficult to ensure that the edge cutting direction is precisely parallel to the cutting direction, which causes the cutting path to deviate during the edge cutting process, thus affecting the cutting accuracy and product quality. Its practicality is relatively limited. Therefore, those skilled in the art have proposed an anti-deviation guiding positioning device for copper plate edge cutting equipment. Utility Model Content
[0004] (a) Technical problems to be solved
[0005] To address the shortcomings of existing technologies, this utility model provides an anti-deviation guide positioning device for copper plate edge cutting equipment. It has the advantages of being able to fix the copper plate to be cut to prevent deviation, ensuring that the cutting path is precisely parallel to the cutting direction, guaranteeing the cutting accuracy of the copper plate, reducing the defect rate, and being more practical, thereby solving the problems in the background technology mentioned above.
[0006] (II) Technical Solution
[0007] To achieve the aforementioned advantages of preventing offset fixing of the copper plate to be cut, ensuring precise parallelism between the cutting path and the cutting direction, guaranteeing copper plate cutting accuracy, reducing defect rate, and enhancing practicality, the specific technical solution adopted by this utility model is as follows: An anti-offset guiding and positioning device for copper plate cutting equipment includes a worktable. A mounting frame is welded to the top surface of the worktable, and a support frame is welded to the bottom surface of the worktable. A corresponding plate is welded to the inner wall of the support frame. Guide grooves are correspondingly opened on the top surface of the corresponding plate and the top surface of the inner cavity of the mounting frame. A bidirectional lead screw is installed in one side of the guide groove, and one end of the bidirectional lead screw is connected to the output end of a servo motor. Several movable grooves are opened on the worktable, and anti-offset guide rollers are installed in the movable grooves. The anti-offset guide rollers are fixedly installed on a rotating shaft. Shaft seat plates are symmetrically installed at both ends of the rotating shaft. A guide slider is welded to the center of the side wall of the shaft seat plate, and a lead screw sleeve is welded inside the guide slider. The lead screw sleeve cooperates with the bidirectional lead screw.
[0008] The preferred method is to use a bidirectional lead screw in conjunction with a servo motor drive, along with a guide slider and lead screw sleeve structure, to achieve synchronous and precise movement of the anti-offset guide rollers on both sides, ensuring that the copper plate is centered and avoiding edge offset.
[0009] Furthermore, the workbench is provided with a cutting groove, a fixing plate is welded and fixed to one side of the top surface of the workbench, and a second electric push rod is bolted and installed on one side of the fixing plate. A positioning plate is bolted and installed at the output end of the second electric push rod. A second guide slide rod is symmetrically welded to one side of the positioning plate, and a second guide sleeve is symmetrically welded to the fixing plate. A second guide slide rod is sleeved inside the second guide sleeve.
[0010] The preferred cutting groove provides a reference cutting line, and combined with the positioning plate driven by the second electric push rod, the cutting edge width of the copper plate can be precisely adjusted to ensure consistent cutting dimensions.
[0011] Furthermore, mounting plates are symmetrically welded on both sides of the mounting frame, and a first electric push rod is bolted to the mounting plate. A fixing pressure plate is bolted to the output end of the first electric push rod. An anti-slip rubber pad is bonded to the bottom surface of the fixing pressure plate. A first guide slide rod is symmetrically welded to the top surface of the fixing pressure plate. A first guide sleeve is symmetrically welded to the mounting plate, and the first guide slide rod is slidably sleeved inside the first guide sleeve.
[0012] The preferred fixing plate can effectively press and fix the copper plate to be cut, improving its stability during cutting.
[0013] Furthermore, a control panel is fixedly installed on the side wall of the mounting bracket, and the control panel is electrically connected to the servo motor, the first electric push rod, and the second electric push rod.
[0014] Furthermore, the cutting groove and the movable groove are parallel to each other.
[0015] Furthermore, the mounting bracket has an inverted U-shaped cross-section.
[0016] Furthermore, the guide slider is slidably embedded in the guide groove.
[0017] (III) Beneficial Effects
[0018] Compared with the prior art, this utility model provides an anti-deviation guide positioning device for copper plate edge cutting equipment, which has the following beneficial effects:
[0019] (1) This utility model is equipped with a worktable, an anti-deviation guide roller and a fixed pressure plate. The bidirectional lead screw is driven by a servo motor to drive the anti-deviation guide roller to move synchronously. It can quickly limit the adjustment of both sides of the copper plate to ensure that the edge to be cut is parallel to the cutting groove, effectively prevent deviation during processing, improve cutting accuracy and reduce the defect rate.
[0020] (2) The present invention adopts an electric push rod driven positioning plate and fixed pressure plate, which can accurately adjust the cutting edge width and press the copper plate. Combined with anti-slip rubber pad and guide slide rod structure, it reduces cutting vibration, ensures the stability of the cutting edge process, and further improves product quality. Attached Figure Description
[0021] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the embodiments 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.
[0022] Figure 1 This is a schematic diagram of the structure of an anti-deviation guide positioning device for a copper plate trimming equipment according to an embodiment of the present utility model;
[0023] Figure 2 This is a front view of an anti-deviation guide positioning device for a copper plate trimming equipment according to an embodiment of the present utility model;
[0024] Figure 3 According to the embodiments of this utility model Figure 2 AA section view;
[0025] Figure 4 According to the embodiments of this utility model Figure 3 Enlarged view of point B;
[0026] Figure 5 This is a perspective view of the anti-deviation guide roller according to an embodiment of the present utility model.
[0027] In the picture:
[0028] 1. Workbench; 2. Fixed pressure plate; 3. First electric push rod; 4. First guide slide rod; 5. Anti-deviation guide roller; 6. Movable groove; 7. Mounting frame; 8. Trimming groove; 9. Fixed plate; 10. Second guide slide rod; 11. Second electric push rod; 12. Second guide sleeve; 13. Positioning plate; 14. Rotating shaft; 15. Mounting plate; 16. First guide sleeve; 17. Servo motor; 18. Support frame; 19. Anti-slip rubber pad; 20. Control panel; 21. Corresponding plate; 22. Guide groove; 23. Bidirectional lead screw; 24. Guide slider; 25. Shaft seat plate; 26. Lead screw sleeve. Detailed Implementation
[0029] To further illustrate the various embodiments, the present invention provides accompanying drawings, which are part of the disclosure of the present invention. These drawings are mainly used to illustrate the embodiments and can be used in conjunction with the relevant descriptions in the specification to explain the operating principles of the embodiments. With reference to these contents, those skilled in the art should be able to understand other possible implementation methods and the advantages of the present invention. The components in the figures are not drawn to scale, and similar component symbols are usually used to represent similar components.
[0030] According to an embodiment of the present invention, an anti-deviation guide positioning device for copper plate edge cutting equipment is provided.
[0031] The present invention will now be further described in conjunction with the accompanying drawings and specific embodiments, such as... Figure 1-5 As shown, an anti-deviation guide positioning device for a copper plate cutting equipment according to an embodiment of the present invention includes a worktable 1, a mounting frame 7 welded to the top surface of the worktable 1, a support frame 18 welded to the bottom surface of the worktable 1, and a corresponding plate 21 welded to the inner wall of the support frame 18. A guide groove 22 is correspondingly opened on the top surface of the corresponding plate 21 and the top surface of the inner cavity of the mounting frame 7. A bidirectional lead screw 23 is installed in one side of the guide groove 22, and one end of the bidirectional lead screw 23 is connected to the output end of a servo motor 17. A plurality of movable grooves 6 are opened on the worktable 1, and an anti-deviation guide roller 5 is provided in the movable groove 6. The anti-deviation guide roller 5 is fixedly installed on a rotating shaft 14. Shaft seat plates 25 are symmetrically installed at both ends of the rotating shaft 14. A guide slider 24 is welded to the center of the side wall of the shaft seat plate 25, and a lead screw sleeve 26 is welded in the guide slider 24. The lead screw sleeve 26 cooperates with the bidirectional lead screw 23.
[0032] It serves to prevent the copper plate from shifting and fix it in place, ensuring that the subsequent cutting path is precisely parallel to the cutting direction, thus guaranteeing the cutting accuracy of the copper plate, reducing the defect rate, and making it more practical.
[0033] Please refer to Figure 1 and Figure 2 The workbench 1 has a cutting groove 8. A fixing plate 9 is welded and fixed to one side of the top surface of the workbench 1. A second electric push rod 11 is bolted and installed on one side of the fixing plate 9. A positioning plate 13 is bolted and installed at the output end of the second electric push rod 11. A second guide slide rod 10 is symmetrically welded to one side of the positioning plate 13. A second guide sleeve 12 is symmetrically welded to the fixing plate 9. The second guide slide rod 10 is sleeved inside the second guide sleeve 12.
[0034] This allows the sidewall of the positioning plate 13 to be pressed tightly against the edge of the copper plate to be cut. By adjusting the position of the positioning plate 13 according to the width of the copper plate to be cut, the width of the cut edge can be effectively determined, making it more practical.
[0035] Please refer to Figure 1 and Figure 2Mounting bracket 7 has mounting plates 15 symmetrically welded on both sides, and a first electric push rod 3 is bolted to the mounting plate 15. A fixing pressure plate 2 is bolted to the output end of the first electric push rod 3. An anti-slip rubber pad 19 is glued to the bottom surface of the fixing pressure plate 2. A first guide slide rod 4 is symmetrically welded to the top surface of the fixing pressure plate 2. A first guide sleeve 16 is symmetrically welded to the mounting plate 15, and the first guide slide rod 4 is slidably sleeved inside the first guide sleeve 16.
[0036] This effectively fixes the copper plate to be cut, improving stability during the cutting process, reducing the impact of cutting vibration on cutting accuracy, further enhancing product quality, and making it more practical.
[0037] Please refer to Figure 2 A control panel 20 is fixedly installed on the side wall of the mounting bracket 7, and the control panel 20 is electrically connected to the servo motor 17, the first electric push rod 3, and the second electric push rod 11.
[0038] The control circuit of control panel 20 can be implemented by simple programming by those skilled in the art, and is common knowledge in the field. Since it is only used and not modified, the control method and circuit connection will not be described in detail.
[0039] Please refer to Figure 1 The cutting groove 8 and the movable groove 6 are parallel to each other.
[0040] Please refer to Figure 3 The cross-sectional shape of mounting bracket 7 is an inverted U-shape.
[0041] Please refer to Figure 4 The guide slider 24 is slidably embedded in the guide groove 22.
[0042] Working Principle: This utility model is equipped with a worktable 1, anti-deviation guide rollers 5, and fixed pressure plates 2. A mounting frame 7 is welded to the top surface of the worktable 1, and a support frame 18 is welded to the bottom surface of the worktable 1. A corresponding plate 21 is welded to the inner wall of the support frame 18. Guide grooves 22 are correspondingly formed on the top surface of the corresponding plate 21 and the top surface of the inner cavity of the mounting frame 7. A bidirectional lead screw 23 is installed in one side of the guide groove 22, and one end of the bidirectional lead screw 23 is connected to the output end of a servo motor 17. Several movable grooves 6 are formed on the worktable 1, and anti-deviation guide rollers 5 are installed in the movable grooves 6. The anti-deviation guide rollers 5 are fixedly installed on a rotating shaft 14. Shaft seat plates 25 are symmetrically installed at both ends of the rotating shaft 14. A [missing information - likely a design element] is welded to the center of the side wall of the shaft seat plate 25. The guide slider 24 has a lead screw sleeve 26 welded inside it, which cooperates with the bidirectional lead screw 23. Therefore, during use, the user can place the copper plate to be processed on the worktable 1, and then start the servo motor 17 via the control panel 20 to drive the bidirectional lead screw 23 to rotate. This, in turn, drives the two sets of shaft seats 25 and the anti-deviation guide rollers 5 to move relative to each other via the guide slider 24, thus limiting and fixing both sides of the copper plate. This ensures that the side of the copper plate to be cut is parallel to the cutting groove 8, thereby preventing deviation and fixing the copper plate to be cut. This ensures that the subsequent cutting path is precisely parallel to the cutting direction, guaranteeing the cutting accuracy of the copper plate, reducing the defect rate, and enhancing practicality. Furthermore, this utility model includes a worktable 1 and a positioning plate 13. The worktable 1 has a... The cutting groove 8 has a fixed plate 9 welded to one side of the top surface of the workbench 1. A second electric push rod 11 is bolted to one side of the fixed plate 9, and a positioning plate 13 is bolted to the output end of the second electric push rod 11. A second guide slide rod 10 is symmetrically welded to one side of the positioning plate 13. A second guide sleeve 12 is symmetrically welded to the fixed plate 9, and the second guide slide rod 10 is sleeved inside the second guide sleeve 12. As described above, after the orientation of the copper plate is fixed to prevent deviation, the worker can start the second electric push rod 11 through the control panel 20 to push the positioning plate 13 to move, so that the side wall of the positioning plate 13 is pressed against the edge of the copper plate to be cut. The position of the positioning plate 13 can be adjusted according to the cutting edge width of the copper plate, which can effectively determine the cutting edge width and improve practicality. For enhanced performance, mounting bracket 7 has mounting plates 15 symmetrically welded on both sides, and a first electric push rod 3 is bolted to the mounting plate 15. A fixing pressure plate 2 is bolted to the output end of the first electric push rod 3. An anti-slip rubber pad 19 is bonded to the bottom surface of the fixing pressure plate 2, and a first guide slide rod 4 is symmetrically welded to the top surface of the fixing pressure plate 2. A first guide sleeve 16 is symmetrically welded to the mounting plate 15, and the first guide slide rod 4 is slidably fitted inside the first guide sleeve 16. As described above, after the anti-deviation limiting of the copper plate to be cut is completed and the cutting position is positioned, the user can activate the first electric push rod 3 through the control panel 20. The first electric push rod 3 will then push the fixing pressure plate 2 downwards until the fixing pressure plate 2 abuts against the top surface of the copper plate.To fix the copper plate to be cut, the cutting equipment, in conjunction with the cutting groove 8, can then perform the cutting operation on the copper plate. This improves the stability of the copper plate cutting process, reduces the impact of cutting vibration on cutting accuracy, further improves product quality, and enhances practicality.
[0043] In this utility model, unless otherwise explicitly specified and limited, the terms "installation", "setting", "connection", "fixing", "screw connection", etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal connection of two components or the interaction between two components. Unless otherwise explicitly limited, those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.
[0044] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. A guide and positioning device for preventing deviation in a copper plate trimming machine, comprising a worktable (1), characterized in that, The workbench (1) has a mounting bracket (7) welded on its top surface and a support bracket (18) welded on its bottom surface. The support bracket (18) has a corresponding plate (21) welded on its inner wall. The top surface of the corresponding plate (21) and the top surface of the inner cavity of the mounting bracket (7) are provided with guide grooves (22). A double-acting screw (23) is installed in one side of the guide groove (22). One end of the double-acting screw (23) is connected to the output end of a servo motor (17). The workbench (1) has several movable slots (6). The movable slots (6) are provided with anti-deviation guide rollers (5). The anti-deviation guide rollers (5) are fixedly installed on the rotating shaft (14). The rotating shaft (14) has symmetrically installed shaft seats (25) at both ends. A guide slider (24) is welded to the center of the side wall of the shaft seat (25). A screw sleeve (26) is welded inside the guide slider (24). The screw sleeve (26) cooperates with the double-acting screw (23).
2. The anti-deviation guide positioning device for copper plate edge cutting equipment according to claim 1, characterized in that, The workbench (1) is provided with a cutting groove (8). A fixing plate (9) is welded and fixed on one side of the top surface of the workbench (1). A second electric push rod (11) is bolted and installed on one side of the fixing plate (9). A positioning plate (13) is bolted and installed on the output end of the second electric push rod (11). A second guide slide rod (10) is symmetrically welded on one side of the positioning plate (13). A second guide sleeve (12) is symmetrically welded on the fixing plate (9). A second guide slide rod (10) is sleeved inside the second guide sleeve (12).
3. The anti-deviation guide positioning device for copper plate edge cutting equipment according to claim 1, characterized in that, The mounting bracket (7) has mounting plates (15) symmetrically welded on both sides, and a first electric push rod (3) is bolted on the mounting plate (15). A fixed pressure plate (2) is bolted on the output end of the first electric push rod (3). An anti-slip rubber pad (19) is glued to the bottom surface of the fixed pressure plate (2). A first guide slide rod (4) is symmetrically welded on the top surface of the fixed pressure plate (2). A first guide sleeve (16) is symmetrically welded on the mounting plate (15), and the first guide slide rod (4) is slidably sleeved inside the first guide sleeve (16).
4. The anti-deviation guide positioning device for copper plate edge cutting equipment according to claim 1, characterized in that, The mounting bracket (7) has a control panel (20) fixedly mounted on its side wall, and the control panel (20) is electrically connected to the servo motor (17), the first electric push rod (3), and the second electric push rod (11).
5. The anti-deviation guide positioning device for copper plate edge cutting equipment according to claim 2, characterized in that, The cutting groove (8) and the movable groove (6) are parallel to each other.
6. The anti-deviation guide positioning device for copper plate edge cutting equipment according to claim 1, characterized in that, The mounting bracket (7) has an inverted U-shaped cross-section.
7. The anti-deviation guide positioning device for copper plate edge cutting equipment according to claim 1, characterized in that, The guide slider (24) is slidably embedded in the guide groove (22).