Automatic winding device for machine core coil

By using an electric turntable and an electric telescopic rod to drive the winding device, combined with a self-locking limit block and a servo motor for precise control, the problems of low efficiency and unstable quality of traditional winding devices are solved, and a highly efficient and stable automated winding process is achieved.

CN224328591UActive Publication Date: 2026-06-05SUZHOU JINTIANCHENG PRECISION TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SUZHOU JINTIANCHENG PRECISION TECHNOLOGY CO LTD
Filing Date
2025-07-21
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Traditional winding equipment is inefficient, has unstable quality, cannot meet the needs of large-scale production, and is inconvenient to operate.

Method used

It uses an electric turntable and an electric telescopic rod to drive the winding column to rotate and move up and down. Combined with a self-locking limit block and a servo motor, it precisely controls the winding position. Multiple winding columns are set and equipped with a wire exit assembly.

Benefits of technology

Automated winding has been achieved, improving efficiency and quality, ensuring uniformity and consistency in the winding process, reducing the risk of wire wear and breakage, and meeting the needs of large-scale production.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to automatic winding technical field discloses the automatic winding device of machine core coil, including the connecting seat, the connecting seat front end is provided with the connecting block, the connecting block top transmission connection has the electric rotary table, the electric rotary table top fixedly connected with electric telescopic handle, electric telescopic handle top fixedly connected with fixed block. The utility model discloses the rotation of screw rod drives the movement of the moving sleeve along the screw rod, and the moving sleeve moves the winding column through the connecting block. The distance of each movement is fixed, and the electric telescopic handle is fixedly connected to the top of the electric rotary table, and moves up and down through the rotation of the electric rotary table. This design makes the winding column move up and down during winding, avoids the winding column always being at the same height, thereby ensuring the uniformity and consistency of the winding process, and the rotation of the rotating shaft drives the rotation of the electric rotary table through the connecting block, and the electric rotary table drives the rotation of the fixed block and the winding column through the electric telescopic handle.
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Description

Technical Field

[0001] This utility model relates to the field of automated winding technology, and in particular to an automated winding device for machine core coils. Background Technology

[0002] Winding the coil of a circuit core is a crucial step in the electronics manufacturing process, widely used in the production of electronic components such as transformers, motors, and inductors. Traditional winding devices typically employ manual or semi-automatic methods. These devices have several shortcomings in practical applications, particularly regarding winding efficiency, winding quality, automation level, and ease of operation.

[0003] Traditional winding machines typically require manual operation, necessitating constant adjustments to the position and speed of the winding post, increasing labor intensity and reducing winding efficiency. Traditional machines usually only have one winding post, preventing simultaneous winding operations and resulting in low production efficiency, making it difficult to meet the demands of large-scale production. Utility Model Content

[0004] To solve the above-mentioned technical problems, this utility model provides an automated winding device for the movement coil.

[0005] This utility model is achieved by the following technical solution: an automated winding device for a machine core coil, including a connecting seat, a connecting block provided at the front end of the connecting seat, an electric turntable connected to the top end of the connecting block, an electric telescopic rod fixedly connected to the top end of the electric turntable, and a fixing block fixedly connected to the top end of the electric telescopic rod.

[0006] Through the above technical solution, the connecting block is fixedly connected to the surface of the movable sleeve and connected to the front thread of the inner wall of the support frame by bolts, ensuring the stability and reliability of the movable sleeve. The electric turntable rotates through the drive of the electric telescopic rod, driving the fixed block and the winding post to rotate, realizing the winding operation. The electric turntable moves up and down through the extension and retraction of the electric telescopic rod, avoiding the winding post being at the same height during winding, ensuring the uniformity and consistency of the winding process. The electric telescopic rod moves up and down through the drive of the electric turntable, ensuring the height change of the winding post during the winding process, avoiding the winding post being at the same height, improving the uniformity and consistency of the winding. The electric telescopic rod provides stable support for the fixed block and the winding post, ensuring the stability of the winding process.

[0007] As a further improvement to the above solution, a support plate is fixedly connected to the front end of the connecting seat. There are two support plates. A self-locking limit block is fixedly connected to the right end of one of the two support plates. A drive motor is fixedly connected to the right end of the self-locking limit block. A threaded rod is provided at the end of the two support plates that are close to each other. The output end of the left end of the drive motor is connected to the right end of the threaded rod through the inside of the self-locking limit block.

[0008] Through the above technical solution, a self-locking limit block is fixedly connected to the right end of one of the support plates. The self-locking function locks the threaded rod, preventing accidental movement of the winding column during winding. The self-locking limit block is internally connected to the threaded rod to ensure precise transmission of the threaded rod. The threaded rod is driven by a transmission motor, which moves the moving sleeve along the threaded rod to adjust the horizontal position of the winding column. The rotation of the threaded rod is precisely controlled by the self-locking limit block and the transmission motor to ensure that the distance of each movement is fixed, thereby improving the uniformity and consistency of winding.

[0009] As a further improvement to the above solution, a movable sleeve is connected to the surface of the threaded rod, and a connecting block is fixedly connected to the surface of the movable sleeve. A threaded groove is opened at the front end of the connecting block, and the connecting block is threadedly connected to the front end of the inner wall of the support frame by bolts.

[0010] Through the above technical solution, the movable sleeve achieves horizontal movement by rotating the threaded rod, thereby adjusting the position of the winding column in the horizontal direction. The movable sleeve is fixedly connected to the connecting block, which is threadedly connected to the front end of the inner wall of the support frame, ensuring the stability and reliability of the movable sleeve, and allowing the support frame to be disassembled and repaired.

[0011] As a further improvement to the above solution, a self-locking limiting block two is fixedly connected to the top of the inner wall of the support frame, and a servo motor is fixedly connected to the bottom of the self-locking limiting block two. A rotating shaft is provided inside the support frame. The output end of the top of the servo motor is connected to the bottom of the rotating shaft through the interior of the self-locking limiting block two. The top of the rotating shaft is fixedly connected to the bottom of the electric turntable through the interior of the connecting block.

[0012] Through the above technical solution, the self-locking limit block two is fixedly connected to the top of the inner wall of the support frame. The self-locking function locks the rotating shaft to prevent the winding column from moving accidentally during the winding process. The self-locking limit block two is internally connected to the rotating shaft to ensure the precise transmission of the rotating shaft. The rotating shaft is driven by a servo motor to drive the electric turntable to rotate, thereby realizing the rotation of the winding column. The top of the rotating shaft is fixedly connected to the bottom of the electric turntable through the internal connection block to ensure the stability of the winding column during the rotation process.

[0013] As a further improvement to the above solution, a fixing block is fixedly connected to the top of the connector, and a wire outlet assembly is fixedly connected to the front end of the fixing block.

[0014] With the above technical solution, the lead-out component is fixedly connected to the front end of the fixed block, ensuring that the wire can smoothly enter the winding post during the winding process, reducing the risk of wire wear and breakage. Guided by the lead-out component, the wire can be evenly wound on the winding post, improving winding efficiency and quality.

[0015] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0016] This utility model automates the winding process by combining an electric turntable and an electric telescopic rod, reducing manual intervention and improving winding efficiency and quality. The fixing block ensures the stability of the winding post during the winding process and prevents the winding post from shifting or shaking during rotation.

[0017] The threaded rod is driven by a transmission motor, which moves the movable sleeve along the threaded rod to achieve precise position adjustment of the winding cylinder. The distance of each movement is fixed, ensuring the uniformity and consistency of the winding process. If an error occurs or a pause is needed during the winding process, the self-locking limit block can lock the threaded rod and the shaft to prevent the winding cylinder from continuing to move, ensuring the safety and reliability of the winding process.

[0018] This invention, by setting multiple movable sleeves, can simultaneously perform winding operations on multiple winding cylinders, significantly improving winding efficiency and meeting the needs of large-scale production. The front end of the fixed block is fixedly connected to a wire exit component, ensuring that the wire can smoothly enter the winding cylinder during the winding process, reducing the risk of wire wear and breakage. Attached Figure Description

[0019] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0020] Figure 2 This is a schematic diagram of the left end structure of this utility model;

[0021] Figure 3 This is a schematic diagram of the bottom structure of this utility model;

[0022] Figure 4 This is a schematic diagram of the rotating shaft structure of this utility model.

[0023] Explanation of key symbols:

[0024] 1. Connecting seat; 2. Support plate; 3. Self-locking limit block one; 4. Drive motor; 5. Threaded rod; 6. Moving sleeve; 7. Connecting block; 8. Support frame; 9. Servo motor; 10. Self-locking limit block two; 11. Rotating shaft; 12. Connecting block; 13. Electric turntable; 14. Electric telescopic rod; 15. Winding post body; 16. Fixing block; 17. Cable exit assembly. Detailed Implementation

[0025] The present invention will be further described below with reference to the accompanying drawings and specific embodiments. It should be noted that, without conflict, the various embodiments or technical features described below can be arbitrarily combined to form new embodiments.

[0026] Example:

[0027] Please combine Figure 1-4The automatic winding device for the core coil in this embodiment includes a connecting seat 1, a connecting block 12 is provided at the front end of the connecting seat 1, an electric turntable 13 is driven to the top of the connecting block 12, an electric telescopic rod 14 is fixedly connected to the top of the electric turntable 13, and a fixing block 16 is fixedly connected to the top of the electric telescopic rod 14.

[0028] A support plate 2 is fixedly connected to the front end of the connecting seat 1. There are two support plates 2. A self-locking limit block 3 is fixedly connected to the right end of one of the support plates 2. A drive motor 4 is fixedly connected to the right end of the self-locking limit block 3.

[0029] Two support plates 2 are provided with threaded rods 5 at their close ends. The output end of the left end of the drive motor 4 is connected to the right end of the threaded rod 5 through the self-locking limit block 3.

[0030] The threaded rod 5 has a moving sleeve 6 connected to its surface. The moving sleeve 6 has a fixed connecting block 12 connected to its surface. The front end of the connecting block 12 has a threaded groove. The connecting block 12 is threadedly connected to the front end of the inner wall of the support frame 8 by bolts.

[0031] A self-locking limit block 2 10 is fixedly connected to the top of the inner wall of the support frame 8, and a servo motor 9 is fixedly connected to the bottom of the self-locking limit block 2 10. A rotating shaft 11 is provided inside the support frame 8.

[0032] The output end of the servo motor 9 is connected to the bottom end of the rotating shaft 11 through the self-locking limit block 10. The top end of the rotating shaft 11 is fixedly connected to the bottom end of the electric turntable 13 through the connecting block 12.

[0033] A fixing block 16 is fixedly connected to the top of the connector 1, and a wire outlet assembly 17 is fixedly connected to the front end of the fixing block 16.

[0034] The implementation principle of the automated winding device for the movement coil in this embodiment is as follows: the rotation of the threaded rod 5 drives the movable sleeve 6 to move along the threaded rod 5, and the movable sleeve 6 drives the winding column to move through the connecting block 12. The distance of each movement is fixed. The electric telescopic rod 14 is fixedly connected to the top of the electric turntable 13, and the rotation of the electric turntable 13 drives the electric telescopic rod 14 to move up and down. This design allows the winding post to move up and down during the winding process, preventing it from remaining at the same height and ensuring uniformity and consistency. The rotation of the shaft 11 drives the electric turntable 13 to rotate via the connecting block 12. The electric turntable 13 then drives the fixed block 16 and the winding post to rotate via the electric telescopic rod 14, thus enabling the winding operation. In case of errors or when a pause is needed during the winding process, the self-locking limit block 1 3 and the self-locking limit block 2 10 can lock the threaded rod 5 and the shaft 11 to prevent the winding post from moving further, ensuring the safety and reliability of the winding process. The wire enters the winding post through the wire exit assembly 17. The design of the wire exit assembly 17 ensures that the wire can smoothly enter the winding post during the winding process, reducing the risk of wire wear and breakage.

[0035] The above embodiments are merely preferred embodiments of this utility model and should not be construed as limiting the scope of protection of this utility model. Any non-substantial changes and substitutions made by those skilled in the art based on this utility model shall fall within the scope of protection claimed by this utility model.

Claims

1. An automated winding device for a machine core coil, characterized in that, Includes a connecting seat (1), the front end of the connecting seat (1) is provided with a connecting block (12), the top end of the connecting block (12) is connected to an electric turntable (13), the top end of the electric turntable (13) is fixedly connected to an electric telescopic rod (14), and the top end of the electric telescopic rod (14) is fixedly connected to a fixing block (16).

2. The automated winding device for the movement coil as described in claim 1, characterized in that: The front end of the connecting seat (1) is fixedly connected to a support plate (2). There are two support plates (2). One of the support plates (2) is fixedly connected to a self-locking limit block (3) at its right end. The right end of the self-locking limit block (3) is fixedly connected to a transmission motor (4).

3. The automated winding device for the movement coil as described in claim 2, characterized in that: The two support plates (2) are provided with threaded rods (5) at their close ends. The output end of the left end of the drive motor (4) is connected to the right end of the threaded rod (5) through the self-locking limit block (3).

4. The automated winding device for the movement coil as described in claim 3, characterized in that: The threaded rod (5) is connected to a movable sleeve (6) via a transmission connection. The movable sleeve (6) is fixedly connected to a connecting block (12). The front end of the connecting block (12) is provided with a threaded groove. The connecting block (12) is threadedly connected to the front end of the inner wall of the support frame (8) via bolts.

5. The automated winding device for the movement coil as described in claim 4, characterized in that: The support frame (8) has a self-locking limit block two (10) fixedly connected to the top of its inner wall, and a servo motor (9) fixedly connected to the bottom of the self-locking limit block two (10). The support frame (8) has a rotating shaft (11) inside.

6. The automated winding device for the movement coil as described in claim 5, characterized in that: The output end of the servo motor (9) is connected to the bottom end of the rotating shaft (11) through the self-locking limit block two (10), and the top end of the rotating shaft (11) is fixedly connected to the bottom end of the electric turntable (13) through the connecting block (12).

7. The automated winding device for the movement coil as described in claim 1, characterized in that: The top of the connector (1) is fixedly connected to a fixing block (16), and the front end of the fixing block (16) is fixedly connected to an outgoing wire assembly (17).