Filter cover plate turning and milling forming device

By using a three-jaw chuck and a servo motor lead screw system in the filter cover milling and turning device, the stable rotation of the filter cover and the multi-dimensional adjustment of the milling and turning tools are achieved, which solves the problem of low processing efficiency in the existing technology, realizes continuous processing of filter covers, and improves production efficiency.

CN224359721UActive Publication Date: 2026-06-16SUZHOU KAILINAI IND CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SUZHOU KAILINAI IND CO LTD
Filing Date
2025-06-20
Publication Date
2026-06-16

AI Technical Summary

Technical Problem

Existing filter cover milling and turning devices are inefficient during the processing, requiring sequential loading, milling and turning, and unloading, and cannot process multiple filter covers simultaneously.

Method used

The filter cover is fixed by a three-jaw chuck with an L-shaped component. The filter cover is rotated stably by a rotary motor, a cross-shaped component and a gear system. The milling cutter is adjusted in multiple dimensions by a servo motor and a lead screw system, allowing loading and unloading during the machining process.

Benefits of technology

This improved the efficiency of milling and turning of filter covers, enabling continuous processing of multiple filter covers without waiting during the machining process, thus increasing production efficiency.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224359721U_ABST
    Figure CN224359721U_ABST
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Abstract

The utility model relates to milling forming device technical field discloses a kind of filter cover plate milling forming devices, including workpiece fixing platform and tool rest, the top of workpiece fixing platform is rotatably installed with pivot, and the top of workpiece fixing platform is fixedly installed with rotating motor, the upper end of pivot is fixedly installed with cross type piece, and pivot is sleeved and fixedly connected with large gear, the output end of rotating motor is fixedly installed with pinion, the pinion is engaged with large gear connection.The utility model can be fixed to filter cover plate by three-jaw chuck of L type piece side, to ensure the stability of milling, and by pivot, rotating motor, pinion and large gear, three-jaw chuck on cross type piece can be driven to rotate to tool rest in turn, while milling forming processing is carried out, without waiting for milling forming processing to end also can carry out the feeding installation and unloading of remaining filter cover plate, increase work efficiency.
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Description

Technical Field

[0001] This utility model relates to the technical field of milling and turning forming devices, specifically a milling and turning forming device for filter cover plates. Background Technology

[0002] A milling and turning device is a machine used for machining mechanical parts. It achieves cutting by the relative movement of the cutting tool and the workpiece. A filter is the most basic microwave electronic device. It is a filter circuit composed of capacitors, inductors and resistors. In the filter production process, in order to ensure the effect of filter packaging, a milling and turning forming device is needed to perform precision milling and turning on the filter cover.

[0003] The published patent document CN222404629U discloses an aluminum product milling and turning device. This patent document first connects a first motor and a second motor to a power source. Then, the aluminum product to be processed is fixed on the processing table. The first and second motors are then started. The first motor drives the milling cutter to rotate rapidly, thus processing the aluminum product. During processing, debris is generated. The second motor then draws the debris into a debris collection box through ventilation holes and air inlets. This debris collection box facilitates the collection of debris generated during aluminum product processing, reducing the workload of workers and preventing the debris from being inhaled and affecting their health. This allows the aluminum product milling and turning device to be used more effectively. However, the aforementioned patent document requires sequential loading, milling, and unloading. It also requires that the milling and turning process be completed before loading other filter covers, resulting in low work efficiency. Utility Model Content

[0004] The purpose of this invention is to provide a milling and turning forming device for filter covers, which solves the problems mentioned in the background art.

[0005] This application provides a milling and turning forming device for a filter cover, including a workpiece fixing table and a tool table. A rotating shaft is rotatably mounted on the top of the workpiece fixing table, and a rotary motor is fixedly mounted on the top of the workpiece fixing table. A cross-shaped component is fixedly mounted on the upper end of the rotating shaft, and a large gear is sleeved and fixedly connected to the rotating shaft. A small gear is fixedly mounted on the output end of the rotary motor, and the small gear meshes with the large gear. L-shaped components are fixedly connected to the four corners of the top of the cross-shaped component, and a three-jaw chuck is fixedly mounted on one side of the L-shaped component. U-shaped components are symmetrically fixedly connected to the front and rear sides of the tool table, and a frame is provided above the tool table. A second frame is slidably connected inside the first frame, and a moving component is slidably connected inside the second frame. A drive motor is fixedly mounted on one side of the moving component, and a milling and turning tool is provided on one side of the output end of the drive motor.

[0006] Optionally, a lead screw and a servo motor are rotatably and fixedly mounted inside and on one side of one of the U-shaped parts, and a sliding shaft is fixedly mounted inside the other U-shaped part. One end of the lead screw is fixedly mounted to the output end of the servo motor. Connecting ears are symmetrically fixedly connected to the front and rear sides of the frame. The lead screw and the sliding shaft pass through the corresponding connecting ears. The connecting ears are threadedly connected to the lead screw and slidably connected to the sliding shaft.

[0007] Optionally, a lead screw two is rotatably mounted inside the frame one, and a servo motor two is fixedly mounted on the front side of the frame one. The front end of the lead screw two is fixedly mounted to the output end of the servo motor two, and the lead screw two passes through the frame two. The frame two and the lead screw two are threadedly connected.

[0008] Optionally, a lead screw three is rotatably mounted inside the frame two, and a servo motor three is fixedly mounted on the top of the frame two. The upper end of the lead screw three is fixedly mounted to the output end of the servo motor three, and the lead screw three passes through the moving part. The moving part is threadedly connected to the lead screw three.

[0009] Optionally, the output end of the drive motor is fixedly mounted with a mounting base, and two threaded shafts are fixedly connected to one side of the mounting base. An internal threaded sleeve is fitted on the threaded shaft. One end of the milling cutter is fixedly connected to a connecting seat, and two threaded shafts are fixedly connected to one side of the connecting seat. The internal threaded sleeve is compatible with both the threaded shaft and the threaded shaft.

[0010] Optionally, an annular component is fixedly connected to the top of the workpiece fixing table, and an annular groove is formed on the top of the annular component. Four support shafts that match the annular groove are fixedly connected to the bottom of the cross-shaped component, and the lower ends of the support shafts are located inside the annular groove.

[0011] Optionally, support legs are fixedly connected to the outer edge of the bottom of the workpiece fixing table and the four corners of the bottom of the tool table.

[0012] Compared with the prior art, the beneficial effects of the technical solution of this application are as follows:

[0013] 1. The technical solution of this application can fix the filter cover plate by means of a three-jaw chuck on one side of the L-shaped part, thereby ensuring the stability of turning and milling. Moreover, through the rotating shaft, rotary motor, pinion and gear, the three-jaw chuck on the cross-shaped part can be rotated to the tool table in sequence. While performing turning and milling forming, the other filter covers can be loaded, installed and unloaded without waiting for the turning and milling forming to be completed, thus increasing work efficiency.

[0014] 2. The technical solution of this application, through the cooperation of the U-shaped part, servo motor one, lead screw one, sliding shaft, connecting ear, frame one, servo motor two, lead screw two, frame two, servo motor three, lead screw three and moving parts, can adjust the horizontal, horizontal longitudinal and vertical positions of the milling cutter, ensuring the accuracy of milling and forming the filter cover plate. Furthermore, through the cooperation of the mounting base, connecting base, threaded shaft one, threaded shaft two and internal threaded sleeve, the installation and disassembly of the milling cutter are convenient, and the replacement of the milling cutter is easy, making it convenient to use. Attached Figure Description

[0015] Other features, objects, and advantages of this invention will become more apparent from the following detailed description of non-limiting embodiments with reference to the accompanying drawings:

[0016] Figure 1 This is a schematic diagram of the structure of the present invention from the front view.

[0017] Figure 2 This utility model Figure 1 Enlarged view of point A in the middle;

[0018] Figure 3 This is a side view of the tool holder of this utility model.

[0019] Figure 4 This utility model Figure 3 Enlarged view of point B in the middle.

[0020] In the diagram: 1. Workpiece fixing table; 2. Tool table; 3. Cross-shaped component; 4. L-shaped component; 5. Three-jaw chuck; 6. U-shaped component; 7. Frame component one; 8. Frame component two; 9. Moving component; 10. Drive motor; 11. Milling cutter; 12. Connecting lug; 13. Ring component; 14. Annular groove; 15. Support shaft; 16. Support leg; 17. Rotating shaft; 18. Rotary motor; 19. Large gear; 20. Small gear; 21. Lead screw one; 22. Servo motor one; 23. Sliding shaft; 24. Lead screw two; 25. Servo motor two; 26. Lead screw three; 27. Servo motor three; 28. Mounting base; 29. ​​Threaded shaft one; 30. Internal threaded sleeve; 31. Connecting base; 32. Threaded shaft two. Detailed Implementation

[0021] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this application.

[0022] Please see Figure 1-2This utility model provides a milling and turning forming device for filter cover plates, including a workpiece fixing table 1 and a tool table 2. A rotating shaft 17 is rotatably mounted on the top of the workpiece fixing table 1, and a rotary motor 18 is fixedly mounted on the top of the workpiece fixing table 1. A cross-shaped part 3 is fixedly mounted on the upper end of the rotating shaft 17, and a large gear 19 is sleeved on and fixedly connected to the rotating shaft 17. A small gear 20 is fixedly mounted on the output end of the rotary motor 18, and the small gear 20 meshes with the large gear 19. L-shaped parts 4 are fixedly connected to the four corners of the top of the cross-shaped part 3. A three-jaw chuck 5 is fixedly mounted on one side of the L-shaped part 4. U-shaped parts 6 are symmetrically fixedly connected to the front and rear sides of the tool table 2, and a frame 7 is provided above the tool table 2. A frame 8 is slidably connected inside the frame 7. A moving part 9 is slidably connected inside the frame 8. A drive motor 10 is fixedly mounted on one side of the moving part 9, and a milling cutter 11 is provided on one side of the output end of the drive motor 10.

[0023] In this technical solution, the filter cover plate can be fixed by the three-jaw chuck 5 on one side of the L-shaped part 4, thereby ensuring the stability of the milling and turning. The rotary motor 18 drives the pinion 20 to rotate, and the pinion 20 and the large gear 19 drive the rotating shaft 17 to rotate at a reduced speed. This allows the three-jaw chuck 5 on the cross-shaped part 3 to rotate sequentially to the tool table 2. While performing the milling and turning forming process, the remaining filter cover plates can be loaded, installed, and unloaded without waiting for the milling and turning forming process to be completed, thus increasing work efficiency.

[0024] In some technical solutions, such as Figure 1 and Figure 3 As shown, a lead screw 21 and a servo motor 22 are rotatably and fixedly installed inside and on one side of a U-shaped part 6, respectively. A sliding shaft 23 is fixedly installed inside the other U-shaped part 6. One end of the lead screw 21 is fixedly installed to the output end of the servo motor 22. Connecting ears 12 are symmetrically fixedly connected to the front and rear sides of the frame part 7. The lead screw 21 and the sliding shaft 23 pass through the corresponding connecting ears 12. The connecting ears 12 are threadedly connected to the lead screw 21, and the connecting ears 12 are slidably connected to the sliding shaft 23.

[0025] In use, the servo motor 22 drives the lead screw 21 to rotate, and the lead screw 21, slide shaft 23 and connecting lug 12 can drive the frame 7 to move, thereby adjusting the horizontal position of the milling cutter 11.

[0026] In some technical solutions, such as Figure 1 and Figure 3 As shown, a lead screw 24 is rotatably mounted inside the frame 7, and a servo motor 25 is fixedly mounted on the front side of the frame 7. The front end of the lead screw 24 is fixedly mounted to the output end of the servo motor 25, and the lead screw 24 passes through the frame 8. The frame 8 and the lead screw 24 are threadedly connected.

[0027] In use, the servo motor 25 drives the lead screw 24 to rotate, and the lead screw 24 drives the frame 8 to move along the inside of the frame 7, thereby driving the milling cutter 11 to adjust its horizontal and vertical position.

[0028] In some technical solutions, such as Figure 1 and Figure 3 As shown, a lead screw 26 is rotatably mounted inside the frame 2 8, and a servo motor 27 is fixedly mounted on the top of the frame 2 8. The upper end of the lead screw 26 is fixedly mounted to the output end of the servo motor 27, and the lead screw 26 passes through the moving part 9, and the moving part 9 is threadedly connected to the lead screw 26.

[0029] In use, the servo motor 327 drives the lead screw 326 to rotate, and the lead screw 326 drives the moving part 9 to move along the inside of the frame part 28, thereby moving the milling cutter 11 to adjust its vertical position.

[0030] In some technical solutions, such as Figure 3-4 As shown, a mounting base 28 is fixedly installed at the output end of the drive motor 10. Two threaded shafts 29 are fixedly connected to one side of the mounting base 28. An internal threaded sleeve 30 is fitted on the threaded shaft 29. A connecting seat 31 is fixedly connected to one end of the milling cutter 11. Two threaded shafts 32 are fixedly connected to one side of the connecting seat 31. The internal threaded sleeve 30 is compatible with both the threaded shaft 29 and the threaded shaft 32.

[0031] In use, by aligning the threaded shaft 22 with the corresponding threaded shaft 129, and then rotating the internal threaded sleeve 30 on the threaded shaft 129, a part of the internal threaded sleeve 30 is rotated onto the threaded shaft 22, thus completing the installation of the milling cutter 11. This makes it convenient to replace the milling cutter 11 and is relatively easy to use.

[0032] In some technical solutions, such as Figure 1 As shown, an annular component 13 is fixedly connected to the top of the workpiece fixing table 1. An annular groove 14 is opened on the top of the annular component 13. Four support shafts 15 that match the annular groove 14 are fixedly connected to the bottom of the cross-shaped component 3. The lower end of the support shaft 15 is inside the annular groove 14.

[0033] During use, the stability of the cross-shaped part 3 during rotation is ensured by the limiting support effect of the support shaft 15 and the annular groove 14.

[0034] In some technical solutions, such as Figure 1 As shown, support legs 16 are fixedly connected to the outer edge of the bottom of the workpiece fixing table 1 and the four corners of the bottom of the tool table 2.

[0035] During use, the stability of the milling and turning forming device is ensured by the support legs 16 at the bottom of the workpiece fixing table 1 and the tool table 2.

[0036] Working principle: During use, the three-jaw chuck 5 on one side of the L-shaped part 4 can fix the filter cover plate, thereby ensuring the stability of the milling and turning process. Servo motor 1 22 drives the lead screw 1 21 to rotate. The lead screw 1 21, the sliding shaft 23, and the connecting lug 12 can drive the frame 1 7 to move, thereby adjusting the horizontal position of the milling and turning tool 11. Servo motor 25 drives the lead screw 24 to rotate. The lead screw 24 drives the frame 2 8 to move along the inside of the frame 1 7, thereby adjusting the horizontal and vertical position of the milling and turning tool 11. Servo motor 3 27 drives... The lead screw 26 rotates, which drives the moving part 9 to move along the inside of the frame 2 8, thereby adjusting the vertical position of the milling cutter 11 to ensure the accuracy of the milling and turning process of the filter cover. The rotary motor 18 drives the pinion 20 to rotate, and the pinion 20 and the large gear 19 drive the rotating shaft 17 to rotate at a reduced speed. This allows the three-jaw chuck 5 on the cross-shaped part 3 to rotate sequentially to the tool table 2. While the milling and turning process is being performed, the loading, installation and unloading of the remaining filter covers can be carried out without waiting for the milling and turning process to be completed.

[0037] The above description is merely a preferred embodiment of this application and is not intended to limit this application. Although this application has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this application should be included within the protection scope of this application.

Claims

1. A filter cover plate turning and milling forming device, comprising a workpiece fixing table (1) and a cutter table (2), characterized in that: A rotating shaft (17) is rotatably mounted on the top of the workpiece fixing table (1), and a rotary motor (18) is fixedly mounted on the top of the workpiece fixing table (1). A cross-shaped component (3) is fixedly mounted on the upper end of the rotating shaft (17), and a large gear (19) is sleeved on and fixedly connected to the rotating shaft (17). A small gear (20) is fixedly mounted on the output end of the rotary motor (18), and the small gear (20) meshes with the large gear (19). L-shaped components are fixedly connected to the four corners of the top of the cross-shaped component (3). (4) A three-jaw chuck (5) is fixedly installed on one side of the L-shaped part (4). A U-shaped part (6) is symmetrically fixedly connected to the front and rear sides of the tool table (2). A frame part one (7) is provided above the tool table (2). A frame part two (8) is slidably connected inside the frame part one (7). A moving part (9) is slidably connected inside the frame part two (8). A drive motor (10) is fixedly installed on one side of the moving part (9). A milling cutter (11) is provided on one side of the output end of the drive motor (10).

2. The filter cover plate turning and milling forming device according to claim 1, characterized in that, A lead screw (21) and a servo motor (22) are rotatably and fixedly installed inside and on one side of one of the U-shaped parts (6), and a sliding shaft (23) is fixedly installed inside the other U-shaped part (6). One end of the lead screw (21) is fixedly installed to the output end of the servo motor (22). Connecting ears (12) are symmetrically fixedly connected to the front and rear sides of the frame (7). The lead screw (21) and the sliding shaft (23) pass through the corresponding connecting ears (12). The connecting ears (12) are threadedly connected to the lead screw (21), and the connecting ears (12) are slidably connected to the sliding shaft (23).

3. The filter cover plate turning and milling forming device according to claim 1, characterized in that, A lead screw 2 (24) is rotatably mounted inside the frame 1 (7), and a servo motor 2 (25) is fixedly mounted on the front side of the frame 1 (7). The front end of the lead screw 2 (24) is fixedly mounted to the output end of the servo motor 2 (25), and the lead screw 2 (24) passes through the frame 2 (8). The frame 2 (8) is threadedly connected to the lead screw 2 (24).

4. The filter cover plate turning and milling forming apparatus according to claim 1, wherein, The inner part of the frame 2 (8) is rotatably mounted with a lead screw 3 (26), and the top of the frame 2 (8) is fixedly mounted with a servo motor 3 (27). The upper end of the lead screw 3 (26) is fixedly mounted with the output end of the servo motor 3 (27), and the lead screw 3 (26) passes through the moving part (9). The moving part (9) is threadedly connected to the lead screw 3 (26).

5. The filter cover plate turning and milling forming apparatus according to claim 1, wherein, The output end of the drive motor (10) is fixedly mounted with a mounting base (28). Two threaded shafts (29) are fixedly connected to one side of the mounting base (28). An internal threaded sleeve (30) is fitted on the threaded shaft (29). One end of the milling cutter (11) is fixedly connected with a connecting seat (31). Two threaded shafts (32) are fixedly connected to one side of the connecting seat (31). The internal threaded sleeve (30) is compatible with both the threaded shaft (29) and the threaded shaft (32).

6. The filter cover plate turning and milling forming apparatus according to claim 1, wherein, The top of the workpiece fixing table (1) is fixedly connected with a ring-shaped part (13), the top of the ring-shaped part (13) is provided with a ring-shaped groove (14), the bottom of the cross-shaped part (3) is fixedly connected with four supporting shafts (15) matched with the ring-shaped groove (14), and the lower ends of the supporting shafts (15) are located inside the ring-shaped groove (14).

7. The filter cover plate turning and milling forming apparatus according to claim 1, wherein, The outer edge of the bottom of the workpiece fixing table (1) and the four corners of the bottom of the cutter table (2) are fixedly connected with supporting legs (16).