A hanger self-rotation power device

By designing a self-rotating power device for the hanger, and utilizing a motor-driven guiding and rotating unit, the problem of uneven spraying caused by unstable manual rotation was solved, thus achieving stable self-rotation of the hanger and improving spraying quality.

CN224486406UActive Publication Date: 2026-07-14ZHEJIANG FENGCHI MECHANICAL

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG FENGCHI MECHANICAL
Filing Date
2025-07-30
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

In the current wheel painting process, the unstable manual rotation leads to uneven spraying, high labor intensity, and cannot meet the processing requirements.

Method used

Design a self-rotating power device for a hanger, comprising a guiding unit and a rotating unit, driven by a motor, which achieves automatic rotation and forward movement of the hanger through the cooperation of upper and lower sprockets and guide rail seats.

Benefits of technology

It achieves stable rotation of the hanger, improves the coating quality, reduces manual labor intensity, and meets the processing requirements of the coating process.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224486406U_ABST
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Abstract

This utility model provides a self-rotating power device for a hanger, belonging to the field of mechanical equipment technology. It solves the problem of high labor intensity in existing hanger spraying processes. This hanger self-rotating power device includes a frame body, on which a control component is connected and used for guiding and controlling the rotation of the hanger. The control component includes a guiding unit and a rotating unit. The guiding unit includes two upper sprockets movably connected to the frame body, a chain I cooperating with the two upper sprockets to form an upper pulley structure, a guide rail seat I connected to the frame body and cooperating with the chain I, and a guide rail with bearing grooves. The rotating unit includes two lower sprockets movably connected to the frame body, a chain II cooperating with the two lower sprockets to form a lower pulley structure, and a guide rail seat II connected to the frame body and cooperating with the chain II. This utility model has the advantage of high intelligent operation.
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Description

Technical Field

[0001] This utility model belongs to the field of mechanical equipment technology and relates to a self-rotating power device for a hanging device. Background Technology

[0002] In the existing wheel spraying suspension chain in the spray booth, the wheel is placed on the hanger manually and then sprayed by manually rotating the wheel. However, the rotation speed is not fixed, which can easily lead to poor quality and uneven spraying. At the same time, the manual labor intensity is high, which cannot meet the processing requirements. Therefore, a hanger self-rotation power device is needed to solve this problem in conjunction with the corresponding hanger. Summary of the Invention

[0003] The purpose of this invention is to address the aforementioned problems in the existing technology by providing a self-rotating power device that solves these problems.

[0004] The objective of this utility model can be achieved through the following technical solution: A self-rotating power device for a hanging fixture, comprising a frame body, characterized in that the frame body is provided with a control component connected to and used for guiding the hanging fixture and controlling its rotation. The control component includes a guiding unit and a rotating unit, both of which are driven by a motor. The motor is mounted on and connected to the frame body. The guiding unit includes two upper sprockets movably connected to the frame body, a chain I cooperating with the two upper sprockets to form an upper pulley structure, a guide rail seat I connected to the frame body and cooperating with the chain I, and a guide rail with a bearing groove. The rotating unit includes two lower sprockets movably connected to the frame body, a chain II cooperating with the two lower sprockets to form a lower pulley structure, and a guide rail seat II connected to the frame body and cooperating with the chain II.

[0005] In the aforementioned self-rotating power device for a hanger, the frame body is provided with an installation plate that is connected to it and facilitates the installation of control components. The installation plate is connected to the frame body through several brackets. The end face of the installation plate between the guide rail seat and the guide rail is provided with a strip groove to facilitate the movement of the hanger. The strip groove divides the installation plate into a left plate for the installation of the upper pulley structure and the lower pulley structure, and a right plate for the installation of the guide rail.

[0006] In the aforementioned self-rotating power device for a hanging device, the upper pulley structure is located above the lower pulley structure, the first guide rail seat is located directly above and connected to the second guide rail seat, and the left plate of the mounting plate is provided with two lifting plates connected to it and for mounting corresponding upper sprockets, so that the upper sprockets are located above the lower sprockets. The lifting plates are also connected to the left plate through brackets, and the right plate is located above the left plate, so that the guide rail in the right plate and the first guide rail seat in the left plate are on the same horizontal plane.

[0007] Compared with existing technologies, this hanger's self-rotation power device, through the setting of a guide unit and a rotation unit, enables the hanger to move automatically along the axis while rotating. Attached Figure Description

[0008] Figure 1 This is a three-dimensional structural diagram of the self-rotation power device of this hanger.

[0009] In the diagram, 1. Main frame; 2. Upper sprocket; 3. Guide rail seat one; 4. Guide rail; 5. Lower sprocket; 6. Chain two; 7. Guide rail seat two; 8. Left plate; 9. Right plate; 10. Lifting plate. Detailed Implementation

[0010] The following are specific embodiments of the present invention, which are described in conjunction with the accompanying drawings. However, the present invention is not limited to these embodiments.

[0011] like Figure 1As shown, the self-rotating power device of this hanger includes a frame body 1. A control component connected to and used for guiding and controlling the rotation of the hanger is mounted on the frame body 1. The control component includes a guiding unit and a rotating unit, both driven by a motor mounted on and connected to the frame body 1. The guiding unit includes two upper sprockets 2 movably connected to the frame body 1, a chain 1 cooperating with the two upper sprockets 2 to form an upper pulley structure, a guide rail seat 3 connected to the frame body 1 and cooperating with the chain 1, and a bearing groove. The guide rail 4 is located on one side of the guide rail seat 3 and is arranged parallel to it. The rotating unit includes two lower sprockets 5 movably connected to the frame body 1, a chain 6 that cooperates with the two lower sprockets 5 to form a lower pulley structure, and a guide rail seat 7 connected to the frame body 1 and cooperating with the chain 6. The frame body 1 is provided with a mounting plate that is connected to it and facilitates the installation of the control components. The mounting plate is connected to the frame body 1 through several brackets. The motor is located between the mounting plate and the frame body 1. The mounting plate is located on the end face between the guide rail seat 3 and the guide rail 4. The mounting plate is divided into a left plate 8 for mounting the upper and lower pulley structures and a right plate 9 for mounting the guide rail 4. The upper pulley structure is located above the lower pulley structure. The guide rail seat 1 3 is located directly above and connected to the guide rail seat 2 7. The left plate 8 has two lifting plates 10 connected to it and for mounting the corresponding upper sprocket 2, positioning the upper sprocket 2 above the lower sprocket 5. The lifting plates 10 are also connected to the left plate 8 via brackets. The right plate 9 is located above the left plate 8 and positions the upper sprocket 2 above the lower sprocket 5. The guide rail 4 and the guide rail seat 3 in the left plate 8 are on the same horizontal plane. When painting is required, the hanger is hung on the hook on the suspension chain. The worker puts the corresponding model of wheel and transition connecting plate into the hanger. The hanger starts to move. After moving to the paint booth, the guide bearing on the hanger contacts the guide rail 4 on the frame body 1. At the same time, the chain rack in the hanger is engaged with the upper pulley structure. The upper and lower power are synchronized to make the hanger move forward. After moving forward a short distance, the rotating sprocket in the hanger is engaged with the lower pulley structure, realizing the rotation of the turntable in the hanger, so that the hanger can rotate stably on the suspension chain.

[0012] The specific embodiments described herein are merely illustrative examples illustrating the spirit of this utility model. Those skilled in the art to which this utility model pertains may make various modifications or additions to the described specific embodiments or use similar methods to substitute them, without departing from the spirit of this utility model or exceeding the scope defined by the appended claims.

[0013] Although this document uses terms such as "etc." extensively, the possibility of using other terms is not excluded. These terms are used merely for the convenience of describing and explaining the essence of this invention; interpreting them as any additional limitation would contradict the spirit of this invention.

Claims

1. A self-rotating power device for a hanging device, comprising a frame body (1), characterized in that, The frame body (1) is provided with a control component connected to and used for guiding the hanger and controlling the rotation of the hanger. The control component includes a guide unit and a rotation unit, and both the guide unit and the rotation unit are driven by a motor. The motor is located on the frame body (1) and connected to it. The guide unit includes two upper sprockets (2) movably connected to the frame body (1), a chain I that cooperates with the two upper sprockets (2) to form an upper pulley structure, a guide rail seat I (3) connected to the frame body (1) and cooperating with the chain I, and a guide rail (4) with a bearing groove. The rotation unit includes two lower sprockets (5) movably connected to the frame body (1), a chain II (6) that cooperates with the two lower sprockets (5) to form a lower pulley structure, and a guide rail seat II (7) connected to the frame body (1) and cooperating with the chain II (6).

2. The self-rotating power device for a hanging device according to claim 1, characterized in that, The frame body (1) is provided with an installation plate that is connected to it and facilitates the installation of control components. The installation plate is connected to the frame body (1) through several brackets. The end face of the installation plate between the guide rail seat (3) and the guide rail (4) is provided with a strip groove that facilitates the movement of the hanger. The installation plate is divided into a left plate (8) for the installation of the upper pulley structure and the lower pulley structure and a right plate (9) for the installation of the guide rail (4) through the strip groove.

3. The self-rotating power device for a hanging device according to claim 2, characterized in that, The upper pulley structure is located above the lower pulley structure. The first guide rail seat (3) is located directly above the second guide rail seat (7) and connected to it. The left plate (8) of the mounting plate is provided with two lifting plates (10) that are connected to it and are used to install the corresponding upper sprocket (2) and make the upper sprocket (2) located above the lower sprocket (5). The lifting plate (10) is also connected to the left plate (8) through a bracket. The right plate (9) is located above the left plate (8) and makes the guide rail (4) in the right plate (9) and the guide rail seat (3) in the left plate (8) on the same horizontal plane.