A VCM coil wire arranging device

By designing a wire management device suitable for two specifications of VCM coils, the problem of wire management in existing technologies has been solved, resulting in a significant improvement in production efficiency.

CN224467252UActive Publication Date: 2026-07-07SUZHOU SECOTE PRECISION ELECTRONICS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SUZHOU SECOTE PRECISION ELECTRONICS CO LTD
Filing Date
2025-07-22
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing technology cannot handle the wiring of the second type of VCM coil, resulting in low production efficiency.

Method used

A VCM coil management device is designed, comprising first and second management components, which are used to handle VCM coils with inlet and outlet wires arranged side by side and back to back, respectively. Through the cooperation of first and second rotating devices, management clamping components and push plates, the management of two types of coils can be achieved.

Benefits of technology

It enables wire management for two specifications of VCM coils, improving production efficiency. It has a compact structure, a reasonable mounting base design, accurate core positioning, and a precise drive device, thus improving overall production efficiency.

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Abstract

The utility model discloses a VCM coil arrangement device, including first wire arrangement component and second wire arrangement component, first wire arrangement component is used for arranging wire to first VCM coil, and first wire arrangement component includes first wire arrangement push board and second wire arrangement push board, and first wire arrangement push board and second wire arrangement push board are oppositely set up, and second wire arrangement component is used for arranging wire to second VCM coil, and second wire arrangement component includes 2 third wire arrangement push boards, and 2 third wire arrangement push boards are parallel interval arrangement. The device of the utility model can arrange wire to two kinds of specifications VCM coil, and improve production efficiency.
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Description

Technical Field

[0001] This utility model relates to the field of automated production equipment technology, and in particular to a VCM coil wire management device. Background Technology

[0002] With the continuous upgrading of electronic products, the requirements for product yield and production efficiency are becoming increasingly stringent, especially in the mobile phone industry. The VCM coil is a key component of mobile phone cameras. The VCM coil includes a board with input and output wires mounted on it. VCM coils generally come in two specifications: one with input and output wires arranged side-by-side, and the other with input and output wires arranged opposite each other. Existing technologies, such as the Chinese invention patent CN117373816A which discloses a "fully automatic VCM winding and film-applying integrated machine for wire management," are applicable to the first type of VCM coil, where the VCM coil is located between two wire management pins, enabling wire management. However, this technology cannot perform wire management for the second type of VCM coil. Therefore, a new technical solution is urgently needed to address these technical problems. Summary of the Invention

[0003] In view of the above shortcomings, the purpose of this utility model is to provide a VCM coil winding device that can wind up two specifications of VCM coils, thereby improving production efficiency.

[0004] To achieve the above-mentioned technical objectives and meet the above-mentioned technical requirements, the technical solution adopted by this utility model is as follows:

[0005] A VCM coil cable management device, characterized in that it comprises:

[0006] A first cable management assembly for managing the cables of a first VCM coil includes a first rotating device having a first inner rotating output end and a first outer rotating output end, a first support column disposed on the first rotating device, a mounting base disposed on the upper end of the first support column, a first cable management fixture disposed on the upper side of the mounting base, a first cable management drive device having a first sliding end disposed on the mounting base, a first connecting frame disposed on one side of the first sliding end, a first cable management push plate disposed on the first connecting frame, a second cable management drive device having a second sliding end disposed on the mounting base, a second connecting frame disposed on the second sliding end, a second cable management push plate disposed on the second connecting frame, a first cable management clamping assembly disposed on the first inner rotating output end, and a second cable management clamping assembly disposed on the first outer rotating output end. The first cable management push plate and the second cable management push plate are disposed opposite to each other, and a first cable management portion and a second cable management portion are respectively disposed on the upper side of the first cable management push plate and the second cable management push plate.

[0007] The second cable management assembly, used for cable management of the second VCM coil, includes a second rotating device having a second inner rotating output end and a second outer rotating output end, a second support column disposed on the second rotating device, a second cable management fixture disposed on the upper end of the second support column, two support plates symmetrically disposed on the upper side of the second rotating device, a third cable management clamping assembly disposed on the second inner rotating output end, and a fourth cable management clamping assembly disposed on the second outer rotating output end. Each support plate is provided with a third cable management drive device having a third sliding end. The third sliding end is provided with a connecting side plate. The connecting side plate is provided with a third cable management push plate. The two third cable management push plates are arranged in parallel and spaced apart. A third cable management part is provided on the upper side of the third cable management push plate.

[0008] As a preferred technical solution, the mounting base includes a vertically arranged mounting plate, a horizontally arranged mounting base block on one side of the mounting plate, and a detachable mounting pad on the side of the mounting plate opposite to the mounting base block. The upper and lower sides of the mounting base block are respectively connected to the first cable management fixture and the first support column.

[0009] As a preferred technical solution, the side of the first cable management drive device away from the first sliding end is connected to the side of the mounting plate with the mounting base, and the side of the second cable management drive device away from the second sliding end is connected to the mounting pad.

[0010] As a preferred technical solution, the first connecting frame includes a connecting pad, a first connecting plate detachably disposed on one side of the connecting pad, a first sliding end detachably connected to the connecting pad, and a first cable management push plate detachably connected to the upper side of the first connecting plate.

[0011] As a preferred technical solution, the second connecting frame includes an L-shaped second connecting plate, a third connecting plate disposed at one end of the second connecting plate, a second sliding end connected to the second connecting plate, and a second cable management push plate detachably connected to the upper side of the third connecting plate.

[0012] As a preferred technical solution, a positioning plate is fixedly provided on the upper side of the third connecting plate, and the second cable management push plate abuts against the positioning plate.

[0013] As a preferred technical solution, the third cable management push plate includes a cable management connection part and a cable management push part disposed on the side of the cable management connection part away from the third cable management drive device. The third cable management part is disposed on the upper side of the cable management push part, and the cable management connection part is detachably connected to the connection side plate.

[0014] As a preferred technical solution, the first cable management fixture is provided with a first insert core, and the second cable management fixture is provided with a second insert core.

[0015] As a preferred technical solution, the first cable clamping assembly and the third cable clamping assembly have the same structure, and the second cable clamping assembly and the fourth cable clamping assembly have the same structure. The first cable clamping assembly includes a first cable clamping support plate, a lifting cylinder disposed on the first cable clamping support plate, a connecting bracket detachably disposed on one side of the output end of the lifting cylinder, a first cable clamping cylinder disposed on the connecting bracket, and a cable clamping claw disposed on the first cable clamping cylinder. The second cable clamping assembly includes a second cable clamping support plate, a second cable clamping cylinder detachably disposed on one side of the second cable clamping support plate, and a second cable clamping claw disposed on the second cable clamping cylinder.

[0016] As a preferred technical solution, the first to fourth cable management drive devices are electric slides.

[0017] Compared with traditional technical solutions, the beneficial effects of this utility model are:

[0018] 1) The first and second wire management push plates in the first wire management assembly are arranged opposite each other, which can manage the wires of the first VCM coil. The two third wire management push plates in the second wire management assembly are arranged in parallel and spaced apart, which can manage the wires of the second VCM coil. This allows for the management of wires of two specifications of VCM coils, thus improving production efficiency.

[0019] 2) The mounting base can simultaneously install the first cable management fixture, the first cable management drive device, and the second cable management drive device, resulting in a compact installation structure;

[0020] 3) The L-shaped second connecting plate has a reasonable structure, can avoid nearby components, and has a compact structure;

[0021] 4) The positioning plate facilitates the positioning and installation of the second cable management push plate;

[0022] 5) The first and second inserts facilitate the mounting of the first and second VCM coils;

[0023] 6) The first to fourth cable management drive devices of the VCM coil cable management device can be electric slides, motor screws or slide rails, etc., to achieve precise positioning. Attached Figure Description

[0024] Figure 1 A structural diagram of a device provided in one embodiment of this utility model;

[0025] Figure 2 A structural diagram of a first cable management assembly provided in one embodiment of the present invention;

[0026] Figure 3 A structural diagram of a second cable management assembly provided in one embodiment of the present invention;

[0027] Figure 4 This is a structural diagram of a mounting base provided in one embodiment of the present invention;

[0028] Figure 5 A schematic diagram of the wire arrangement of a first VCM coil provided in one embodiment of the present invention;

[0029] Figure 6 This is a schematic diagram of the wire arrangement of the second VCM coil provided in one embodiment of the present invention.

[0030] exist Figures 1-6 In this configuration, the components are: 1. First rotating device; 101. First inner rotating output end; 102. First outer rotating output end; 2. First support column; 3. Mounting base; 301. Mounting plate; 302. Mounting base block; 303. Mounting pad; 4. First cable management fixture; 401. First insert; 5. First cable management drive device; 501. Second sliding end; 6. First connecting frame; 601. Connecting pad; 602. First connecting plate; 7. First cable management push plate; 701. First cable management section; 8. Second cable management drive device; 9. Second connecting frame; 901. Second connecting plate; 902. Third connecting plate; 9031. Positioning plate; 10. Second cable management push plate; 1001. Second cable management section; 11. First cable management clamping assembly; 1101. First cable management clamping support plate; 1102. Lifting cylinder; 1103. 1104. Connecting bracket; 1105. First cable clamping cylinder; 1106. First cable clamp; 12. Second cable clamping assembly; 1201. Second cable clamping support plate; 1202. Second cable clamping cylinder; 1203. Second cable clamp; 13. Second rotating device; 1301. Second inner rotating output end; 1302. Second outer rotating output end; 14. Second support column; 15. Second cable jig; 1501. Second insert; 16. Third cable clamping assembly; 17. Fourth cable clamping assembly; 18. Third cable driving device; 19. Connecting side plate; 20. Third cable push plate; 2001. Third cable section; 2002. Cable connection section; 2003. Cable push section; 21. First VCM coil; 22. Second VCM coil; 23. Support plate; 24. Working platform. Detailed Implementation

[0031] The present invention will now be further described with reference to the accompanying drawings.

[0032] In the accompanying drawings of this utility model, the same or similar reference numerals correspond to the same or similar components. In the description of this utility model, it should be understood that if terms such as "top," "bottom," "left," "right," "front," "rear," "inner," and "outer" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, they are only for the convenience of describing this utility model, and do not indicate or imply that the device or component referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, the terms used to describe positional relationships in the drawings are only for illustrative purposes and should not be construed as limiting this patent. For those skilled in the art, the specific meaning of the above terms can be understood according to the specific circumstances.

[0033] Please see Figures 1-6 This utility model provides a VCM coil cable management device in one embodiment, including a first cable management assembly and a second cable management assembly. The first cable management assembly is used to manage the cable of a first VCM coil 21, and includes a first rotating device 1 having a first inner rotating output end 101 and a first outer rotating output end 102, a first support column 2 disposed on the first rotating device 1, a mounting base 3 disposed on the upper end of the first support column 2, a first cable management fixture 4 disposed on the upper side of the mounting base 3, a first cable management drive device 5 disposed on the mounting base 3 with a first sliding end, a first connecting frame 6 disposed on one side of the first sliding end, a first cable management push plate 7 disposed on the first connecting frame 6, and a second sliding end 501 disposed on the mounting base 3. The system comprises a second cable management drive device 8, a second connecting frame 9 disposed on the second sliding end 501, a second cable management push plate 10 disposed on the second connecting frame 9, a first cable management clamping assembly 11 disposed on the first inner rotating output end 101, and a second cable management clamping assembly 12 disposed on the first outer rotating output end 102. The first cable management push plate 7 and the second cable management push plate 10 are disposed opposite to each other. The first cable management push plate 7 and the second cable management push plate 10 are respectively provided with a first cable management part 701 and a second cable management part 1001 on their upper sides. The first cable management drive device 5 drives the first connecting frame 6 to move, thereby driving the first cable management push plate 7 to move. The second cable management drive device 8 drives the second connecting frame 9 to move, thereby driving the second cable management push plate 10 to move.

[0034] The second cable management assembly is used to manage the cables of the second VCM coil 22. It includes a second rotating device 13 with a second inner rotating output end 1301 and a second outer rotating output end 1302; a second support column 14 disposed on the second rotating device 13; a second cable management fixture 15 disposed on the upper end of the second support column 14; two symmetrically detachable support plates 23 disposed on the upper side of the second rotating device 13; a third cable management clamping assembly 16 disposed on the second inner rotating output end 1301; and a second cable management fixture 15 disposed on the second outer rotating output end 1302. The fourth cable clamping assembly 17 at the output end 1302, each of the support plates 23 is provided with a third cable driving device 18 having a third sliding end, the third sliding end is provided with a connecting side plate 19, the connecting side plate 19 is provided with a third cable pushing plate 20, the two third cable pushing plates 20 are arranged in parallel and spaced apart, that is, the two third cable pushing plates 20 are arranged side by side, the upper side of the third cable pushing plate 20 is provided with a third cable arranging part 2001, and the second cable driving device 8 drives the third cable pushing plate 20 to move.

[0035] like Figures 1-6 As shown, the inlet and outlet wires of the first VCM coil 21 are arranged side by side, the first wire guiding plate 7 and the second wire guiding plate 10 are arranged opposite each other, and the inlet and outlet wires of the first VCM coil 21 are located between the first wire guiding plate 7 and the second wire guiding plate 10. The first wire guiding clamping assembly 11 and the second wire guiding clamping assembly 12 clamp the wire ends of the first VCM coil 21 respectively. The first wire guiding drive device 5 and the second wire guiding drive device 8 drive the first wire guiding plate 7 and the second wire guiding plate 10 to move to the wire guiding position of the first VCM coil 21 respectively. The first rotating device 1 and the second rotating device 13 drive the first wire guiding clamping assembly 11 and the second wire guiding clamping assembly 12 to rotate to perform wire guiding.

[0036] like Figures 1-6 As shown, the inlet and outlet wires of the second VCM coil 22 are arranged opposite to each other, two third wire guiding push plates 20 are arranged in parallel, two third wire guiding clamping components 16 clamp the corresponding wire ends respectively, the third wire guiding drive device 18 drives the third wire guiding push plate 20 to move to the wire guiding position of the second VCM coil 22, and the second rotating device 13 drives the two third wire guiding clamping components 16 to rotate to perform wire guiding. This can perform wire guiding for two specifications of VCM coils, improving production efficiency.

[0037] like Figures 1-6As shown, the mounting base 3 includes a vertically arranged mounting plate 301, a horizontally arranged mounting base 302 on one side of the mounting plate 301, and a detachable mounting pad 303 on the side of the mounting plate 301 opposite to the mounting base 302. The upper and lower sides of the mounting base 302 are respectively connected to the first cable management fixture 4 and the first support column 2, which can manage the cables of two specifications of VCM coils and improve production efficiency. Specifically, the side of the first cable management drive device 5 opposite to the first sliding end is connected to the side of the mounting plate 301 with the mounting base 302, and the side of the second cable management drive device 8 opposite to the second sliding end 501 is connected to the mounting pad 303.

[0038] like Figures 1-6 As shown, the first connecting frame 6 includes a connecting pad 601 and a first connecting plate 602 detachably disposed on one side of the connecting pad 601. The first sliding end is detachably connected to the connecting pad 601. The first cable management push plate 7 is detachably connected to the upper side of the first connecting plate 602. The first connecting plate 602 is inverted L-shaped, providing installation space for the first cable management push plate 7 without increasing the overall thickness.

[0039] like Figures 1-6 As shown, the second connecting frame 9 includes an L-shaped second connecting plate 901 and a third connecting plate 902 disposed at one end of the second connecting plate 901. The second sliding end 501 is connected to the second connecting plate 901. The second cable management push plate 10 is detachably connected to the upper side of the third connecting plate 902. The first rotating device 1 and the second rotating device 13 are both mounted on a working platform 23. There are other components on the working platform 23 that are close to the first cable management assembly. In order not to interfere with other components, the second cable management drive device 8 cannot be symmetrically arranged with the first cable management drive device 5. Furthermore, the second connecting plate 901 is set in an L-shape to avoid nearby components and cooperates with the third connecting plate 902 to ensure the accurate movement path of the second push plate.

[0040] like Figures 1-6 As shown, a positioning plate 9031 is fixedly provided on the upper side of the third connecting plate 902. The positioning plate 9031 is connected to the third connecting plate 902 as a whole. The second cable management push plate 10 abuts against the positioning plate 9031. The positioning plate 9031 facilitates the positioning and installation of the second cable management push plate 10.

[0041] like Figures 1-6 As shown, the third cable management push plate 20 includes a cable management connection part 2002 and a cable management push part 2003 disposed on the side of the cable management connection part 2002 away from the third cable management drive device 18. The third cable management part 2001 is disposed on the upper side of the cable management push part 2003. The cable management connection part 2002 is detachably connected to the connecting side plate 19. The structure is simple and reasonable.

[0042] like Figures 1-6 As shown, the first cable management fixture 4 is equipped with a first insert core 401, and the second cable management fixture 15 is equipped with a second insert core 1501. The bottom surface of the first VCM coil 21 is provided with a first groove (not shown), and the bottom surface of the second VCM coil 22 is provided with a second groove. The insert core is embedded in the first groove, and the second insert core 1501 is embedded in the second groove, thereby positioning and installing the first VCM coil 21 and the second VCM coil 22. At the same time, the first cable management fixture 4 and the second cable management fixture 15 are respectively provided with air holes, which can attract the first VCM coil 21 and the second VCM coil 22.

[0043] like Figures 1-6 As shown, the first cable clamping assembly 11 and the third cable clamping assembly 16 have the same structure, and the second cable clamping assembly 12 and the fourth cable clamping assembly 17 have the same structure. The first cable clamping assembly 11 includes a first cable clamping support plate 1101, a lifting cylinder 1102 disposed on the first cable clamping support plate 1101, a connecting bracket 1103 detachably disposed on one side of the output end of the lifting cylinder 1102, a first cable clamping cylinder 1104 disposed on the connecting bracket 1103, and a first cable clamping cylinder 1104 disposed on the first cable clamping cylinder 1105. The cable clamping jaws of 104 are driven by a first cable clamping cylinder 1104 to clamp the inlet and outlet cables. A lifting cylinder 1102 drives the first cable clamping cylinder 1104 to lift. The second cable clamping assembly 12 includes a second cable clamping support plate 1201, a second cable clamping cylinder 1202 detachably disposed on one side of the second cable clamping support plate 1201, and a second cable clamping jaw 1203 disposed on the second cable clamping cylinder 1202. The second cable clamping cylinder 1202 drives the second cable clamping jaw 1203 to clamp the inlet and outlet cables.

[0044] like Figures 1-6 As shown, the first to fourth cable management drive devices are electric slides, which move stably and accurately and respond quickly. They can also be replaced by motor-driven lead screws, cylinders, etc.

[0045] like Figures 1-6 As shown, the first wire management section 701 and the second wire management section 1001 are triangular in shape, and the third wire management section 2001 is cylindrical in shape, which meets the wire management requirements of the VCM coil.

[0046] Any numerical values ​​cited herein include all values ​​ranging from a lower limit to an upper limit, increasing by one unit, with at least two units between any lower and any higher value. For example, if the quantity of a component or the value of a process variable (e.g., temperature, pressure, time, etc.) is described as being from 1 to 90, preferably from 20 to 80, more preferably from 30 to 70, the purpose is to illustrate that values ​​such as 15 to 85, 22 to 68, 43 to 51, 30 to 32 are also explicitly listed in this specification. For values ​​less than 1, a unit is appropriately considered to be 0.0001, 0.001, 0.01, 0.1, etc. These are merely examples intended for explicit expression, and it can be assumed that all possible combinations of values ​​listed between the minimum and maximum values ​​are explicitly described in this specification in a similar manner.

[0047] Unless otherwise stated, all ranges include the endpoints and all numbers between them. The terms "approximately" or "about" used with ranges apply to both endpoints of the range. Thus, "approximately 20 to 30" is intended to cover "approximately 20 to approximately 30," including at least the specified endpoints.

[0048] All articles and references disclosed herein, including patent applications and publications, are incorporated herein by reference for various purposes. The term “substantially constitutes…” used to describe a combination should include the identified elements, components, parts, or steps, as well as other elements, components, parts, or steps that do not substantially affect the essential novelty of the combination. The use of the terms “comprising” or “including” to describe combinations of elements, components, parts, or steps herein also contemplates embodiments substantially constituted by such elements, components, parts, or steps. The use of the term “may” herein is intended to indicate that any described attribute included by “may” is optional.

[0049] Multiple elements, components, parts, or steps can be provided by a single integrated element, component, part, or step. Alternatively, a single integrated element, component, part, or step can be divided into multiple separate elements, components, parts, or steps. The use of "a" or "an" to describe an element, component, part, or step does not imply the exclusion of other elements, components, parts, or steps.

[0050] It should be understood that the above description is for illustrative purposes and not for limitation. Many embodiments and applications beyond the provided examples will be apparent to those skilled in the art upon reading the above description. Therefore, the scope of this teaching should not be determined by reference to the above description, but rather by reference to the appended claims and the full scope of their equivalents. For purposes of completeness, all articles and references, including patent applications and publications, are incorporated herein by reference. The omission of any aspect of the subject matter disclosed herein in the preceding claims is not intended as a waiver of that subject matter, nor should it be construed as an indication that the inventors have not considered that subject matter as part of the disclosed utility model subject matter.

Claims

1. A VCM coil cable management device, characterized in that, include: A first cable management assembly for managing the cables of a first VCM coil includes a first rotating device having a first inner rotating output end and a first outer rotating output end, a first support column disposed on the first rotating device, a mounting base disposed on the upper end of the first support column, a first cable management fixture disposed on the upper side of the mounting base, a first cable management drive device having a first sliding end disposed on the mounting base, a first connecting frame disposed on one side of the first sliding end, a first cable management push plate disposed on the first connecting frame, a second cable management drive device having a second sliding end disposed on the mounting base, a second connecting frame disposed on the second sliding end, a second cable management push plate disposed on the second connecting frame, a first cable management clamping assembly disposed on the first inner rotating output end, and a second cable management clamping assembly disposed on the first outer rotating output end. The first cable management push plate and the second cable management push plate are disposed opposite to each other, and a first cable management portion and a second cable management portion are respectively disposed on the upper side of the first cable management push plate and the second cable management push plate. The second cable management assembly, used for cable management of the second VCM coil, includes a second rotating device having a second inner rotating output end and a second outer rotating output end, a second support column disposed on the second rotating device, a second cable management fixture disposed on the upper end of the second support column, two support plates symmetrically disposed on the upper side of the second rotating device, a third cable management clamping assembly disposed on the second inner rotating output end, and a fourth cable management clamping assembly disposed on the second outer rotating output end. Each support plate is provided with a third cable management drive device having a third sliding end. The third sliding end is provided with a connecting side plate. The connecting side plate is provided with a third cable management push plate. The two third cable management push plates are arranged in parallel and spaced apart. A third cable management part is provided on the upper side of the third cable management push plate.

2. The VCM coil management device according to claim 1, characterized in that, The mounting base includes a vertically arranged mounting plate, a horizontally arranged mounting base block on one side of the mounting plate, and a detachable mounting pad on the side of the mounting plate opposite to the mounting base block. The upper and lower sides of the mounting base block are respectively connected to the first cable management fixture and the first support column.

3. The VCM coil management device according to claim 2, characterized in that, The first cable management drive device is connected to the side of the mounting plate with the mounting base on the side opposite to the first sliding end, and the second cable management drive device is connected to the mounting pad on the side opposite to the second sliding end.

4. The VCM coil cable management device according to claim 1, characterized in that, The first connecting frame includes a connecting pad, a first connecting plate detachably disposed on one side of the connecting pad, a first sliding end detachably connected to the connecting pad, and a first cable management push plate detachably connected to the upper side of the first connecting plate.

5. The VCM coil management device according to claim 4, characterized in that, The second connecting frame includes an L-shaped second connecting plate and a third connecting plate disposed at one end of the second connecting plate. The second sliding end is connected to the second connecting plate, and the second cable management push plate is detachably connected to the upper side of the third connecting plate.

6. The VCM coil cable management device according to claim 5, characterized in that, A positioning plate is fixedly installed on the upper side of the third connecting plate, and the second cable management push plate abuts against the positioning plate.

7. The VCM coil management device according to claim 1, characterized in that, The third cable management push plate includes a cable management connection part and a cable management push part disposed on the side of the cable management connection part away from the third cable management drive device. The third cable management part is disposed on the upper side of the cable management push part, and the cable management connection part is detachably connected to the connection side plate.

8. The VCM coil cable management device according to claim 1, characterized in that, The first cable management fixture has a first insert core inserted, and the second cable management fixture has a second insert core inserted.

9. The VCM coil cable management device according to claim 1, characterized in that, The first to fourth cable clamping assemblies have the same structure. The first cable clamping assembly includes a cable clamping support plate, a cable clamping cylinder detachably disposed on one side of the cable clamping support plate, and cable clamping claws disposed on the cable clamping cylinder.

10. The VCM coil management device according to claim 1, characterized in that, The first to fourth cable management drive devices are electric slides.