JPH0561360B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field] The present invention relates to a power supply device for a swinging barrel used during electroplating.

[Background technology]

The swinging barrel used in electroplating is well known, but as shown in Figure 5, the conventional power supply device positions the power supply shaft A with a V-shaped conductive metal and has a power supply bearing device B that supplies power. It consisted of: At the contact point a, a, that is, the power feeding point, between the power feeding shaft A and the V-shaped conductive metal power feeding bearing device B, the conductive metal and the power feeding shaft are corroded by gas, etc., and the conductivity deteriorates, and eventually the current stops flowing. It was hot too.

[Purpose of the invention]

An object of the present invention is to provide a power supply device that improves the above-mentioned drawbacks, and provides a power supply device that is less likely to become non-conductive.

[Disclosure of the invention]

The present invention will be described in detail below based on one embodiment.

In the figure, 1 is a barrel body, and a hollow part 4 has small holes 2, 2... on the side and an opening 3 on the top.
Plated parts 5, 5... are put into the plated parts 5, 5, and so on.

6 is a shaft, 7 is a swing lever, 8 is a power supply shaft, 9 is a power supply plate electrically connected to this power supply shaft, and 10 is a contact lead electrically connected to this power supply board, with a contact at the tip. 1 connecting 24
1, 12, and 13 are gears, and 14 is a support portion. 1
Reference numeral 5 denotes a power supply bearing device, which is composed of a frame 16 having a V-shaped support portion 15A in the center and a power supply spring plate 17 made of a conductive spring material. 18 is a conductive plate that connects the power supply spring plate 17 and the power source. 1
9 and 20 are screws.

As shown in FIGS. 3 and 4, the power supply spring plate 17 is made so that the dimension l ₀ of the widest part of the free end is narrower than the shaft diameter d ₀ of the power supply shaft 8 when the power supply shaft 8 is not attached. (l ₀ < d ₀ ).

Further, a gap 21 is provided between the V-shaped support portion 15A of the flume 16 and the power supply spring plate 17. FIGS. 6 and 7 show another embodiment, in which an unevenness 22 is provided at the outermost part of the free end of the power supply plate spring 17, and R parts 23, 23 for receiving the power supply shaft 8 are formed. .

Therefore, when the swinging barrel used for electroplating is attached to the plating tank, the power supply shaft 8 is connected to the power supply bearing device 1.
You can take it at 5.

At this time, since the diameter d ₀ of the power supply shaft 8 is larger than the widest part l ₀ of the free end of the power supply spring plate 17 (d ₀ >l ₀ ), the fourth
As shown in the figure, when the feed shaft 8 is received in contact with the lower side of the V-shaped support portion 15A of the flume, the free end of the feed spring plate 17 is bent in contact with the V-shaped support portion 15A of the flume 16. When the swinging barrel is moved to another process (lifted upward and transferred to another tank), the power supply shaft 8 and the power supply spring plate 17 are rubbed against each other, and the corroded parts at the contact points are scraped off. . Furthermore, since the power supply spring plate 17 has elasticity, the power supply shaft 8 may move from side to side, which also scrapes the corroded portion at the contact point.

FIGS. 6 and 7 show other embodiments of the power supply spring plate 17, and in the case of FIG. 6, the surface of the power supply shaft 8 is scraped by the unevenness 22.

In addition, in the embodiments shown in FIGS. 3, 6, and 7, the feed shaft 8 is placed on the lower surface of the V-shaped support portion 15A of the frame 16 so that the feed shaft 8 does not easily come off the feed spring plate 17. Force is at work.

〔Effect of the invention〕

As described above, according to the present invention, a contact connected via a contact lead is disposed in a hollow barrel body 1 having small holes 2, 2 on the side surfaces and an opening 3 on the top surface, and In a power supply device for a plating apparatus that supplies power to parts to be plated, the lower side 16A and the central part are spaced apart by a dimension ₁ larger than the diameter d ₀ of the power supply shaft 8, forming a substantially V-shape and rising on both sides. Power supply spring plate 1 on the top surface
A frame 16 equipped with a V-shaped support part 15A having 7 mounting parts 16B, and two power supply spring plates 17 having one end fixed to the mounting parts 16B, 16B of the frame 16 are connected to the V-shape while maintaining the interval 21. The support parts 15A, 15A are brought close to the center of the frame, the free ends 17A, 17A are bent downward so that they can come into contact with the power supply shaft 8, and the V-shaped support parts 15A, 15A are raised at the center. The contact lead is connected to the contact lead by a power feeding bearing device comprising a conductive power feeding spring plate 17 which is approached from both sides at an interval narrower than the diameter d ₀ of the power feeding shaft 8 and at least one of which is connected to a power source. Since the power supply device of the plating apparatus is designed to support an electrically connected power supply shaft, the power supply shaft 8 and the power supply spring plate 17 are in pressure contact with each other due to the elastic force of the power supply spring plate 17, and the power supply point is Since it is movable, accidents caused by poor conduction are greatly reduced compared to conventional power supply devices.

[Brief explanation of the drawing]

FIG. 5 is a partial diagram showing a conventional example of the present invention;
FIGS. 1 to 4 are views showing one embodiment of the present invention, in which FIGS. 1 to 2 are partial perspective views, and FIGS. 3 to 4 are partial sectional views of the power supply bearing portion. 6th
7 to 7 are partial cross-sectional views showing other embodiments. 1...Barrel body, 2...Small hole, 3...Top opening, 4...Hollow part, 5...Parts, 8...Power supply shaft,
15... Power feeding bearing device, 15A... V-shaped support part, 16... Frame, 17... Power feeding spring plate.

Claims (1)

[Claims] 1. A hollow barrel body with a small hole on the side and an opening on the top surface is provided with a contact connected via a contact lead, and power is supplied from the contact to the part to be plated. In the power supply device of the plating apparatus, the power supply spring plate 17 is mounted on the lower side 16A and the center part with an interval of dimension ₁ larger than the diameter _d0 of the power supply shaft 8, forming a substantially V-shape, rising on both sides. A frame 16 equipped with a V-shaped support portion 15A having a portion 16B, and two power supply spring plates 17 having one end fixed to the mounting portions 16B, 16B of the frame 16 at a distance of 21
while maintaining the V-shaped support portions 15A, 15A, and approach the center of the frame 16 along the V-shaped support portions 15A, bend the free ends 17A, 17A downward so that they can come into contact with the power supply shaft 8, and Part 15
At the center rising part of A, 15A, the power supply shaft 8
a power supply spring plate 17 which is electrically conductive and which is approached from both sides at an interval narrower than the diameter d ₀ of the contact lead, and at least one of which is connected to a power supply; A power supply device for a plating device, characterized by supporting a shaft. Power supply device.