High conductivity electroplating hanger

By designing a V-shaped hook and a steering component on the electroplating rack, the problem of small contact area between the hook and the product is solved, improving conductivity and electroplating efficiency, and adapting to the installation needs of various products.

CN224337786UActive Publication Date: 2026-06-09ZHEJIANG SHUNXING ELECTROPLATING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG SHUNXING ELECTROPLATING CO LTD
Filing Date
2025-04-02
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

The existing electroplating racks have a small contact area between the hooks and the product, resulting in poor conductivity and affecting the electroplating effect.

Method used

A V-shaped hook and steering assembly were designed to increase the contact area between the hook and the product, and to control the rotation of the hook through the cooperation of rack and pinion, so that the hook can be adapted to the installation of different products.

Benefits of technology

The conductivity of the electroplating rack has been improved, making it suitable for the installation needs of different products, saving space and improving electroplating efficiency.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224337786U_ABST
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Abstract

The utility model provides a kind of high electric conductivity electroplating hanger, including girder and the crossbeam of setting girder, crossbeam is provided with several hooks, and the top of hook is provided with connector, and connector is rotatably arranged on crossbeam, and the tail of hook is provided with V-shaped hook body, and steering assembly for driving hook rotation is further provided in crossbeam, by setting V-shaped hook body, increase the contact area of hook and product, so as to increase the electric conductivity of hanger, the rotation of hook is controlled by steering assembly, so that hook adapts to different products.
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Description

Technical Field

[0001] This utility model relates to electroplating equipment, and in particular, to an electroplating rack with high conductivity. Background Technology

[0002] Currently, Chinese patent CN108018596A discloses an electroplating rack with a water baffle, which includes a rack and several hooks at the bottom of the rack, the hooks being frame-shaped.

[0003] The aforementioned patent still has shortcomings. When using frame-type hooks to install products, the contact area between the product and the hook is small, resulting in poor conductivity and a certain impact on the electroplating effect. Utility Model Content

[0004] In view of this, the purpose of this utility model is to provide a high conductivity electroplating rack, which has the advantage of good conductivity.

[0005] To solve the above-mentioned technical problems, the technical solution of this utility model is: a high conductivity electroplating rack, including a main beam and a crossbeam set on the main beam, a plurality of hooks are set on the crossbeam, a connector is set on the top of the hook, the connector is rotatably set on the crossbeam, a V-shaped hook body is set at the tail of the hook, and a steering component for driving the hook to rotate is also set inside the crossbeam.

[0006] By employing the aforementioned technical means, and by setting a V-shaped hook body, the contact area between the hook and the product is increased, thereby increasing the conductivity of the hanger. The rotation of the hook is controlled by a steering component, thus allowing the hook to adapt to different products.

[0007] Preferably, the steering assembly includes a rack, the connector is provided with gear teeth, the rack meshes with the gear teeth, and the side end of the rack is also provided with a sliding member for driving the rack to move.

[0008] Through the aforementioned technical means, by cooperating with the rack and pinion, and by driving the rack to move through the sliding component, all the sliding hooks on the crossbeam can be controlled to rotate simultaneously.

[0009] Preferably, the crossbeam has a mounting hole, and a guide frame is also provided in the mounting hole, with the rack slidably mounted on the guide frame.

[0010] By employing the aforementioned technical means and through the cooperation between the guide frame and the rack, the movement accuracy of the rack is increased, preventing the rack from falling off the gear.

[0011] Preferably, the mounting hole is further provided with threads, the sliding member includes a pusher stud, the pusher stud is threadedly engaged with the mounting hole, the tail of the pusher stud abuts against the rack and pushes the rack to move, and the tail of the rack is also provided with a reset member.

[0012] By using the above-mentioned technical means, the rack can be driven to move when the pusher stud is rotated, through the threaded engagement between the pusher stud and the mounting hole.

[0013] Preferably, the reset component includes a reset spring, one end of which abuts against the bottom of the mounting hole, and the other end abuts against the rack.

[0014] By using the above-mentioned technical means, and by placing the return spring at the bottom of the rack, when the ejector stud is unscrewed, the return spring will push against the rack and move outward, thereby achieving the effect of resetting.

[0015] Preferably, the hook head and the V-shaped hook body are fixed by screws, and a connecting ring is also sleeved on the V-shaped hook body. The connecting ring is fixed to the crossbeam by threads, and a fixing abutment is also provided at the bottom of the hook head, which abuts against the connecting ring.

[0016] By using the above-mentioned technical means, and by setting a connecting ring, the connecting ring is fixed to the crossbeam, so that the hook can be rotated while being fixed on the crossbeam.

[0017] Preferably, the main beam is also provided with several connecting holes, and countersunk holes are provided on both sides of the connecting holes, so that the crossbeam can be installed on both sides of the connecting holes.

[0018] By using the aforementioned technical means, and by setting connecting holes and countersunk holes, both ends of the bracket can be fixedly installed, thus facilitating the fixing of the crossbeam to both sides of the main beam. At the same time, it is convenient to adjust the position of the crossbeam, making the bracket suitable for more types of products. Attached Figure Description

[0019] Figure 1 This is a schematic diagram of the structure of an embodiment;

[0020] Figure 2 This is a sectional view of the beam;

[0021] Figure 3 for Figure 2 Schematic diagram of Part A;

[0022] Figure 4 This is a sectional view of the main beam.

[0023] Reference numerals: 1. Main beam; 2. Crossbeam; 3. Hook; 4. Connector; 5. V-shaped hook; 6. Steering assembly; 7. Rack; 8. Gear; 9. Sliding component; 10. Pusher stud; 11. Mounting hole; 12. Sealing rubber; 13. Reset component; 14. Reset spring; 15. Guide frame; 16. Collar ring; 17. Fixed abutment; 18. Connecting hole; 19. Countersunk hole. Detailed Implementation

[0024] The specific embodiments of this utility model will be further described in detail below with reference to the accompanying drawings, so that the technical solution of this utility model can be more easily understood and mastered.

[0025] A high conductivity electroplating rack includes a main beam 1 and a crossbeam 2 mounted on the main beam 1. Several hooks 3 are mounted on the crossbeam 2, with connectors 4 at the top of each hook 3. The connectors 4 are rotatably mounted on the crossbeam 2. A V-shaped hook 5 is provided at the tail of each hook 3. By providing the V-shaped hook 5, the contact area between the hook 3 and the product is increased, thereby increasing the conductivity of the rack. A steering component 6 is also provided inside the crossbeam 2 to drive the hooks 3 to rotate. During the electroplating process, multiple electroplating racks need to be placed in the plating bath. Therefore, the installation position of the product affects the arrangement of the electroplating racks. By controlling the rotation of the hooks 3 through the steering component 6, the hooks 3 can be adapted to different products. When a product is hung on the electroplating rack, the rotation of the hooks 3 can ensure the rationality of the product's hanging position, thereby saving more space.

[0026] The steering assembly 6 includes a rack 7, and the connector 4 is provided with gear teeth. The rack 7 is engaged with each gear tooth. The side end of the rack 7 is also provided with a sliding member 9 to drive the rack 7 to move. The rack 7 is driven to move by the sliding member 9, thereby controlling all the sliding hooks on the crossbeam 2 to rotate simultaneously.

[0027] The crossbeam 2 has a mounting hole 11, and the front end of the mounting hole 11 is also threaded. The sliding component 9 includes a pusher stud 10, which is threadedly engaged with the mounting hole 11. By engaging the pusher stud 10 with the mounting hole 11, the rack 7 can be driven to move when the pusher stud 10 is rotated. The tail of the pusher stud 10 is provided with a sealing rubber 12, which abuts against the rack 7 and pushes the rack 7 to move. The mounting hole 11 is countersunk, and the rear end of the countersunk part is in contact with the sealing rubber 12 and does not provide a sealing condition to the inside of the mounting hole 11. The tail of the rack 7 is also provided with a reset component 13.

[0028] The reset component 13 includes a reset spring 14. One end of the reset spring 14 abuts against the bottom of the mounting hole 11, and the other end abuts against the rack 7. When the ejector stud is unscrewed, the reset spring 14 will push the rack 7 outward, thereby achieving the reset effect. A guide frame 15 is also provided in the mounting hole 11. The rack 7 is slidably mounted on the guide frame 15. Through the cooperation between the guide frame 15 and the rack 7, the movement accuracy of the rack 7 is increased, and the rack 7 is prevented from falling off the gear 8.

[0029] A connecting ring 16 is also fitted onto the V-shaped hook body 5. The hook 3 head is fixed to the V-shaped hook body 5 with screws, which facilitates the installation of the connecting ring 16. The connecting ring 16 is fixed to the crossbeam 2 with threads, so that the hook 3 can be rotated while being fixed on the crossbeam 2. A fixing abutment 17 is also provided at the bottom of the hook 3 head. The fixing abutment 17 abuts against the connecting ring 16. The outside of the fixing abutment 17 is wrapped with rubber to ensure the sealing effect inside the mounting hole 11. Together with the sealing rubber 12, it can prevent electroplating liquid from entering the mounting hole 11.

[0030] Several connecting holes 18 are also provided through the main beam 1. Countersunk holes 19 are provided on both sides of the connecting holes 18. The crossbeam 2 can be installed on both sides of the connecting holes 18. By providing connecting holes 18 and countersunk holes 19, both ends of the crossbeam 2 can be fixedly installed, which makes it convenient to fix the crossbeam 2 on both sides of the main beam 1. At the same time, it is convenient to adjust the position of the crossbeam 2, so that the bracket can be used for more types of products.

[0031] Of course, the above are just typical examples of this utility model. In addition, this utility model may have many other specific implementation methods. All technical solutions formed by equivalent substitution or equivalent transformation fall within the scope of protection claimed by this utility model.

Claims

1. A high conductivity electroplating hanger, comprising a main beam (1) and a crossbeam (2) disposed on the main beam (1), wherein the crossbeam (2) is provided with a plurality of hooks (3), characterized in that: The hook (3) is provided with a connector (4) at the top, the connector (4) is rotatably mounted on the crossbeam (2), the hook (3) is provided with a V-shaped hook body (5) at the tail, and a steering component (6) for driving the hook (3) to rotate is also provided inside the crossbeam (2).

2. The high conductivity electroplating rack according to claim 1, characterized in that: The steering assembly (6) includes a rack (7), the connector (4) is provided with gear teeth, the rack (7) meshes with the gear teeth, and the side end of the rack (7) is also provided with a sliding member (9) for driving the rack (7) to move.

3. The high conductivity electroplating rack according to claim 2, characterized in that: The crossbeam (2) has an installation hole (11) and a guide frame (15) is provided in the installation hole (11). The rack (7) is slidably mounted on the guide frame (15).

4. The high conductivity electroplating rack according to claim 3, characterized in that: The mounting hole (11) is also provided with a thread, and the sliding member (9) includes a pusher stud (10). The pusher stud (10) is threadedly engaged with the mounting hole (11). The tail of the pusher stud (10) abuts against the rack (7) and pushes the rack (7) to move. The tail of the rack (7) is also provided with a reset member (13).

5. A high conductivity electroplating rack according to claim 4, characterized in that: The reset component (13) includes a reset spring (14), one end of which abuts against the bottom end of the mounting hole (11), and the other side abuts against the rack (7).

6. The high conductivity electroplating rack according to claim 1, characterized in that: The hook (3) head is fixed to the V-shaped hook body (5) by screws. The V-shaped hook body (5) is also fitted with a sleeve ring (16). The sleeve ring (16) is fixed to the crossbeam (2) by threads. The bottom of the hook (3) head is also provided with a fixing abutment (17), which abuts against the sleeve ring (16).

7. The high conductivity electroplating rack according to claim 1, characterized in that: The main beam (1) is also provided with several connecting holes (18), and countersunk holes (19) are provided on both sides of the connecting holes (18). The crossbeam (2) can be installed on both sides of the connecting holes (18).