Electroplating apparatus for electronic component manufacturing
By introducing a cover plate and a drying mechanism into the electroplating equipment, the problem of electroplating solution splashing is solved, achieving anti-splashing and drying effects for the electroplating solution, and improving the safety and ease of operation of the equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 晟实(天津)科技发展有限公司
- Filing Date
- 2025-07-14
- Publication Date
- 2026-06-09
AI Technical Summary
It is not easy to prevent the electroplating solution from splashing out of the electroplating tank using existing technologies.
An electroplating device was designed, which includes a cover plate, a drive mechanism, and a drying mechanism. The cover plate moves to cover the top of the electroplating tank through the cooperation of an electric telescopic rod and a sliding sleeve. The drying mechanism removes the electroplating solution through a flip plate and a fan, achieving the functions of splash prevention and drying.
It effectively prevents electroplating solution from splashing, facilitates the handling of electronic components, and can remove the electroplating solution after electroplating, thus improving the safety and ease of use of the equipment.
Smart Images

Figure CN224337772U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of electroplating equipment, specifically relating to an electroplating equipment for manufacturing electronic components. Background Technology
[0002] Electronic components are the building blocks of electronic parts and small machines and instruments, and they are usually composed of several parts.
[0003] The authorized publication number "CN222205520U" describes "an electroplating equipment for manufacturing electronic components, comprising: an electroplating tank, wherein a first anode and a second anode are respectively provided on both sides of the inner cavity of the electroplating tank; a cleaning assembly, wherein the number of the cleaning assembly is two sets, and the two sets of cleaning assemblies are respectively arranged on both sides of the inner cavity of the electroplating tank, wherein the cleaning assembly includes a cleaning brush, and a cleaning brush is movably sleeved on the outer side of both the first anode and the second anode."
[0004] The aforementioned patent facilitates the removal of residue adhering to the outside of the first anode, enabling continuous use of the first and second anodes. However, the aforementioned patent does not easily prevent the electroplating solution from splashing out of the electroplating tank. Utility Model Content
[0005] The purpose of this utility model is to provide an electroplating equipment for manufacturing electronic components, which aims to solve the problem in the prior art of preventing electroplating solution from splashing out of the electroplating tank.
[0006] To achieve the above objectives, this utility model provides the following technical solution:
[0007] An electroplating apparatus for manufacturing electronic components, comprising:
[0008] Electroplating box;
[0009] The drive mechanism is located on the electroplating tank;
[0010] There are two cover plates, which are symmetrically arranged on the drive mechanism.
[0011] The drying mechanism consists of two sets, which are symmetrically arranged on the drive mechanism. They are used to dry the electroplated electronic components.
[0012] As a preferred embodiment of this utility model, the driving mechanism includes:
[0013] The support component is located on the electroplating box;
[0014] The drive component is provided in two sets, and the two sets of drive components are symmetrically arranged on the support component.
[0015] As a preferred embodiment of this utility model, the support component includes upright plates, side plates, and sliding rods. Four side plates are provided, and the four side plates are respectively fixedly connected to both sides of the electroplating box, and the four side plates are symmetrically arranged. Two sliding rods are provided, and each sliding rod is fixedly connected between every two side plates. Two upright plates are provided, and each upright plate is fixedly connected to every two side plates.
[0016] As a preferred embodiment of this utility model, each set of driving components includes an electric telescopic rod and a sliding sleeve. Two sliding sleeves are provided, and both sliding sleeves are slidably sleeved on the sliding rod and are symmetrically arranged. Two electric telescopic rods are provided, and each electric telescopic rod is fixedly connected to each side plate. The extended end of each electric telescopic rod movably passes through the side plate and is fixedly connected to each sliding sleeve.
[0017] As a preferred embodiment of this utility model, each group of the air-drying mechanisms includes:
[0018] The air-generating components are flipped and mounted on two upright plates;
[0019] The transmission components are provided in two sets, which are symmetrically arranged on the cover plate and the two upright plates.
[0020] As a preferred embodiment of this utility model, each set of the rotating wind-generating components includes a rotating plate, a fan, and a rotating shaft. The rotating shaft is rotatably connected between two upright plates, the rotating plate is fixedly connected to the rotating shaft, and the rotating plate is rotatably positioned between the two upright plates. Two fans are provided, both of which are mounted on the rotating plate and are symmetrically arranged.
[0021] As a preferred embodiment of this utility model, each group of transmission components includes a push block, a gear, a rack, a T-shaped slider, and a T-shaped groove. The T-shaped groove is formed on the upright plate, the T-shaped slider is slidably connected in the T-shaped groove, the rack is fixedly connected to the T-shaped slider, the gear is fixedly connected to the circumferential surface of the rotating shaft, and the gear and rack mesh with each other. The push block is fixedly connected to the top of the cover plate, and the push block cooperates with the rack.
[0022] Compared with the prior art, the beneficial effects of this utility model are:
[0023] 1. In this solution, the two cover plates can cover the top of the electroplating tank, thereby effectively preventing the electroplating solution from splashing out of the electroplating tank. The extended end of the electric telescopic rod drives the sliding sleeve to slide on the sliding rod. The movement of the sliding sleeve drives the cover plates to move, so that the top of the electroplating tank can be exposed after the two cover plates move, allowing electronic components to be placed and removed.
[0024] 2. In this solution, the rotating shaft drives the flip plate to flip, and the flip plate drives the two fans to flip, so that the air generated by the two fans can be directed at the electronic components after electroplating, thereby removing the electroplating solution from the surface of the electronic components.
[0025] 3. In this solution, the cover plate moves while driving the push block to move. The push block's movement will press against the rack and simultaneously push the rack to move. The rack's movement will drive the gear to rotate, and the gear's rotation will drive the shaft to rotate. Attached Figure Description
[0026] The accompanying drawings are provided to further illustrate the present invention and form part of the specification. They are used together with the embodiments of the present invention to explain the present invention, but do not constitute a limitation thereof. In the drawings:
[0027] Figure 1 This is a three-dimensional structural diagram of the present invention;
[0028] Figure 2 This utility model Figure 1 Enlarged view of point A in the middle;
[0029] Figure 3 This is a structural schematic diagram of the side plate of this utility model;
[0030] Figure 4 This utility model Figure 3 Enlarged view of point B in the middle;
[0031] Figure 5 This is a schematic diagram of the structure of the upright plate of this utility model.
[0032] In the diagram: 1. Electroplating box; 2. Vertical plate; 3. Electric telescopic rod; 4. Flip plate; 5. Fan; 6. Cover plate; 7. Rotating shaft; 8. Push block; 9. Gear; 10. Rack; 11. T-shaped slider; 12. Side plate; 14. Slide rod; 15. Slide sleeve; 16. T-shaped slide groove. Detailed Implementation
[0033] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0034] Please see Figures 1-5 The technical solution provided in this embodiment is as follows:
[0035] An electroplating device for manufacturing electronic components comprises an electroplating tank 1, a drive mechanism, a cover plate 6, and a drying mechanism. Two cover plates 6 are provided, and the two cover plates 6 are symmetrically arranged on the drive mechanism.
[0036] In a specific embodiment of this utility model, the electroplating box 1 is used to electroplat electronic components. Each cover plate 6 is fixedly connected to each pair of sliding sleeves 15. The cover plate 6 has through holes to facilitate the placement of the lifting frame during the electroplating of electronic components. The two cover plates 6 can cover the top of the electroplating box 1, thereby effectively preventing the electroplating liquid from splashing out of the electroplating box 1.
[0037] Specifically, the support component is installed on the electroplating box 1. The support component includes an upright plate 2, side plates 12 and sliding rods 14. There are four side plates 12, which are fixedly connected to the two sides of the electroplating box 1 respectively, and the four side plates 12 are arranged symmetrically. There are two sliding rods 14, each of which is fixedly connected between two side plates 12. There are two upright plates 2, each of which is fixedly connected to two side plates 12.
[0038] In a specific embodiment of this utility model, the two side plates 12 are configured to connect the slide rod 14, the slide rod 14 is configured to connect the slide sleeve 15, and the slide sleeve 15 is configured to connect the cover plate 6, so that the movement of the slide sleeve 15 can drive the cover plate 6 to move.
[0039] Specifically, there are two sets of drive components, which are symmetrically arranged on the bracket component. Each set of drive components includes an electric telescopic rod 3 and a sliding sleeve 15. There are two sliding sleeves 15, which are slidably sleeved on the sliding rod 14 and are symmetrically arranged. There are two electric telescopic rods 3, each of which is fixedly connected to each side plate 12. The extended end of each electric telescopic rod 3 moves through the side plate 12 and is fixedly connected to each sliding sleeve 15.
[0040] In a specific embodiment of this utility model, the extended end of the electric telescopic rod 3 drives the sliding sleeve 15 to slide on the sliding rod 14. The movement of the sliding sleeve 15 drives the cover plate 6 to move, so that the top of the electroplating box 1 can be exposed after the two cover plates 6 move, so that electronic components can be picked up and put in.
[0041] Specifically, the rotating fan components are mounted on two upright plates 2. Each rotating fan component includes a rotating plate 4, a fan 5, and a rotating shaft 7. The rotating shaft 7 is rotatably connected between the two upright plates 2. The rotating plate 4 is fixedly connected to the rotating shaft 7 and is rotatably mounted between the two upright plates 2. There are two fans 5, both of which are mounted on the rotating plate 4 and are symmetrically arranged.
[0042] In a specific embodiment of this utility model, the rotating shaft 7 rotates to drive the flip plate 4 to flip, and the rotating plate 4 rotates to drive the two fans 5 to flip, so that the wind generated by the two fans 5 can be directed at the electronic components after electroplating, thereby removing the electroplating solution from the surface of the electronic components.
[0043] Specifically, there are two sets of transmission components, which are symmetrically arranged on the cover plate 6 and the two upright plates 2. Each set of transmission components includes a push block 8, a gear 9, a rack 10, a T-shaped slider 11, and a T-shaped groove 16. The T-shaped groove 16 is opened on the upright plate 2. The T-shaped slider 11 is slidably connected in the T-shaped groove 16. The rack 10 is fixedly connected to the T-shaped slider 11. The gear 9 is fixedly connected to the circumferential surface of the rotating shaft 7, and the gear 9 and the rack 10 mesh with each other. The push block 8 is fixedly connected to the top of the cover plate 6, and the push block 8 cooperates with the rack 10.
[0044] In a specific embodiment of this utility model, the cover plate 6 moves while driving the push block 8 to move. The movement of the push block 8 will push the rack 10 to move, and the movement of the rack 10 will drive the gear 9 to rotate. The rotation of the gear 9 will drive the rotating shaft 7 to rotate.
[0045] The working principle or process of the electroplating equipment for manufacturing electronic components provided by this utility model is as follows: the electric telescopic rod 3 retracts and drives the sliding sleeve 15 to move, so that the sliding sleeve 15 slides on the sliding rod 14. The movement of the sliding sleeve 15 drives the cover plate 6 to move, so that the top of the electroplating box 1 is exposed. At the same time as the cover plate 6 moves, it drives the push block 8 to move. After the push block 8 moves, it will press against the rack 10. The continued movement of the push block 8 can push the rack 10 to move. The movement of the rack 10 drives the T-shaped slider 11 to slide in the T-shaped slide groove 16. The movement of the rack 10 drives the gear 9 to rotate. The rotation of the gear 9 drives the rotating shaft 7 to rotate. The rotation of the rotating shaft 7 drives the flip plate 4 to flip. The flip plate 4 flips and drives the two fans 5 to flip.
[0046] Finally, it should be noted that the above are merely preferred embodiments of this utility model and are not intended to limit the utility model. Although the utility model 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 utility model should be included within the protection scope of this utility model.
Claims
1. An electroplating equipment for manufacturing electronic components, characterized in that, include: Electroplating box (1); The drive mechanism is located on the electroplating box (1); There are two cover plates (6), which are symmetrically arranged on the drive mechanism; The drying mechanism consists of two sets, which are symmetrically arranged on the drive mechanism. They are used to dry the electroplated electronic components.
2. The electroplating equipment for manufacturing electronic components according to claim 1, characterized in that, The drive mechanism includes: The support component is mounted on the electroplating box (1); The drive component is provided in two sets, and the two sets of drive components are symmetrically arranged on the support component.
3. The electroplating equipment for manufacturing electronic components according to claim 2, characterized in that: The support components include upright plates (2), side plates (12) and sliding rods (14). There are four side plates (12), which are fixedly connected to the two sides of the electroplating box (1) respectively, and the four side plates (12) are symmetrically arranged. There are two sliding rods (14), each of which is fixedly connected between two side plates (12). There are two upright plates (2), each of which is fixedly connected to two side plates (12).
4. The electroplating equipment for manufacturing electronic components according to claim 3, characterized in that: Each set of driving components includes an electric telescopic rod (3) and a sliding sleeve (15). There are two sliding sleeves (15), both of which are slidably sleeved on the sliding rod (14) and are symmetrically arranged. There are two electric telescopic rods (3), each of which is fixedly connected to each side plate (12), and the extended end of each electric telescopic rod (3) moves through the side plate (12) and is fixedly connected to each sliding sleeve (15).
5. The electroplating equipment for manufacturing electronic components according to claim 4, characterized in that, Each of the aforementioned air-drying mechanisms includes: The rotating air-generating component is located on two upright plates (2); The transmission components are provided in two sets, which are symmetrically arranged on the cover plate (6) and the two upright plates (2).
6. The electroplating equipment for manufacturing electronic components according to claim 5, characterized in that: Each set of the rotating wind-generating components includes a rotating plate (4), a fan (5) and a rotating shaft (7). The rotating shaft (7) is rotatably connected between two upright plates (2). The rotating plate (4) is fixedly connected to the rotating shaft (7) and is rotatably positioned between the two upright plates (2). There are two fans (5), both of which are installed on the rotating plate (4) and are symmetrically arranged.
7. The electroplating equipment for manufacturing electronic components according to claim 6, characterized in that: Each set of transmission components includes a push block (8), a gear (9), a rack (10), a T-shaped slider (11), and a T-shaped groove (16). The T-shaped groove (16) is opened on the upright plate (2). The T-shaped slider (11) is slidably connected in the T-shaped groove (16). The rack (10) is fixedly connected to the T-shaped slider (11). The gear (9) is fixedly connected to the circumferential surface of the rotating shaft (7), and the gear (9) and the rack (10) mesh with each other. The push block (8) is fixedly connected to the top of the cover plate (6), and the push block (8) cooperates with the rack (10).