JPH0468515A - Aging method of alumina electrolytic capacitor - Google Patents

Abstract

PURPOSE:To enable stable aging by fixing a capacitor body having a pair of lead terminals connected to a capacitor element with the lead terminals up, by bringing a pair of electrode members into contact with a pair of lead terminals from above in the state and by supplying power to a pair of lead terminals through a pair of electrode members. CONSTITUTION:A pair of lead terminals 13 connected to a capacitor element are provided to a sealing part side of a capacitor body 11, and an explosion prevention valve is provided to a top part of an alumina case 12. When aging is performed for the alumina electrolytic capacitor, the capacitor body 11 is fixed by a jig 14 with a pair of lead terminals 13 thereof up, a pair of metallic electrode members 15 are brought into contact with an end part of a pair of lead terminals 13 from above, and power is supplied to a pair of lead terminals 13 through a pair of electrode members 15. Accordingly, stable contact between a pair of metallic electrode members and a pair of lead terminals can be always acquired, thereby enabling stable aging.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a method for aging aluminum electrolytic capacitors.

Conventional technology Conventional aluminum electrolytic capacitors, as shown in Figure 3,
A dielectric film is formed on roughened aluminum i, and a capacitor element (not shown) constructed by winding this aluminum foil together with a separator is impregnated with a driving electrolyte.
A capacitor body 2 is constructed by enclosing this capacitor element in an aluminum case 1, and a pair of glues connected to the capacitor element are attached to this capacitor body 2.
Aging was performed by providing a pair of lead terminals 3 and supplying power to the pair of lead terminals 3.

In this case, as shown in Fig. 3, the aging method is to connect a pair of lead terminals 3 of the capacitor body 2 from above to a metal plug 4 that uses spring pressure to sandwich the pair of lead terminals 3 from both sides. Insert the metal plug 4
The capacitor element is aged by bringing the pair of lead terminals 3 into contact with the capacitor element and supplying power to the pair of lead terminals 3 through the metal plug 4.

Problems to be Solved by the Invention However, the conventional aging method described above has the following problems.

The first is that if a short circuit or puncture occurs during aging, an explosion-proof valve (not shown) installed on the top of the aluminum case 1 is activated, and the explosion-proof valve operates to prevent the capacitor element from being impregnated. The driving electrolyte leaks out from the explosion-proof valve part, and this driving electrolyte falls along the side of the capacitor body 2 and oxidizes the surface of the metal plug 4. However, there was a problem in that poor contact occurred between the metal plug 4 and the pair of lead terminals 3, resulting in poor aging.

Second, in recent years, the length of the claw terminal in claw-shaped glue terminal type aluminum electrolytic capacitors has been changed to the current length of 6.
This is a short terminal type aluminum electrolytic capacitor that is about 4IIE11, which is shorter than 3M, so that there is no need to cut the claw-shaped lead terminal after inserting it into the printed circuit board. has been developed, but in the case of this aluminum electrolytic capacitor,
When the above-mentioned conventional aging method is used for aging, since the length of the pair of lead terminals is short, the pair of lead terminals are inserted from above and the metal plug 4 is brought into contact with the pair of lead terminals. Even if the metal plug 4 cannot properly sandwich the pair of lead terminals,
As a result, the capacitor body 2 was pushed out,
There was a problem in that the contact between the metal plug 4 and the pair of lead terminals could not be maintained in a stable state.

The present invention solves these problems, and even if a short circuit or puncture occurs during aging, aging defects will not occur, and aluminum electrolytic capacitors with short terminal type lead terminals will not be affected. The purpose of this invention is to provide an aging method for aluminum electrolytic capacitors that enables stable aging.

In order to achieve the above object, the method for aging an aluminum electrolytic capacitor of the present invention comprises a capacitor body having a pair of lead terminals connected to a capacitor element, The pair of lead terminals is fixed so as to be positioned above, and in this state, a pair of metal electrode members is brought into contact with the pair of lead terminals from above, and the pair of lead terminals is connected to the pair of lead terminals through the pair of electrode members. The capacitor element is aged by supplying power.

Effect: According to the aging method described above, the capacitor body is provided with a pair of lead terminals connected to a capacitor element, and the capacitor body is fixed so that the pair of lead terminals are positioned above, so that no problem occurs. 1. Even if a short circuit/bank occurs during aging and the explosion-proof valve installed on the top of the capacitor body operates, and the driving electrolyte impregnated in the capacitor element leaks out from the explosion-proof valve part, Because the pair of lead terminals are located above, the driving electrolyte does not adhere to the
Since the pair of metal electrode members are not affected in any way, it is possible to reliably prevent the occurrence of poor contact.

In addition, the pair of metal electrode members and the pair of lead terminals are contacted from above by contacting the pair of metal electrode members with the pair of lead terminals, so the cutless compatible short terminal type aluminum Even in electrolytic capacitors, the contact between the two is completely unaffected by the length of the terminal (a stable contact condition can always be obtained, and as a result,
This allows for stable aging.

Embodiments Hereinafter, embodiments of the present invention will be described based on the accompanying drawings. FIG. 1 shows an embodiment of the aging method for an aluminum electrolytic capacitor according to the present invention. Reference numeral 11 indicates a capacitor body, and this capacitor body 11 is made by forming a dielectric film on a roughened aluminum foil. A capacitor element (not shown) formed by winding aluminum foil together with a separator is impregnated with a driving electrolyte, and the capacitor element is enclosed in a bottomed cylindrical aluminum case 12. A pair of lead terminals 13 connected to the capacitor element are provided on the sealing side of the capacitor body 11, and an explosion-proof valve (not shown) is provided on the top surface of the aluminum case 12. When aging this aluminum electrolytic capacitor, the capacitor body 11 is fixed with a jig 14 so that the pair of lead terminals 13 are positioned above, and in this state, a pair of metal electrode members is inserted from above. 15 is brought into contact with the tips of the pair of lead terminals 13, and power is supplied to the pair of lead terminals 13 via the pair of electrode members 15, thereby aging the capacitor element.

Figure 2 shows another embodiment of the aging method for aluminum electrolytic capacitors of the present invention.To explain only the differences from the embodiment of the present invention shown in Figure 1, this embodiment is shown from above. Aging of the capacitor element is achieved by bringing the pair of metal electrode members 15 into contact with the rivet portions 16 at the base of the pair of lead terminals 13 and by supplying power to the pair of lead terminals 13 via the pair of electrode members 15. It was designed to do this.

Next, in order to investigate the effect on the aging device if a short circuit or puncture occurs during aging, overvoltage was forcibly applied to the aluminum electrolytic capacitors and aging was performed under the condition that the explosion-proof valves of all aluminum electrolytic capacitors were activated. went.

(Example 1) As a sample of an aluminum electrolytic capacitor, a 2-pin claw-shaped lead terminal type aluminum electrolytic capacitor (200WV 470μF) used for input of a switching power supply
200 were used.

And aging is 10m per piece and 3A current.
The voltage was applied up to 60V. In this case, 100 out of 200 aluminum electrolytic capacitors were aged by the conventional aging method shown in FIG. The remaining 100 pieces were aged using the aging method according to an embodiment of the present invention shown in FIG.

The above test results were as shown in Table 1.

(Left below) Table 1 (Note) (1) Terminal short circuit... The drive electrolyte that spewed out shorted the pair of lead terminals, causing a short circuit and smoke.

(2) Plug deterioration: The drive electrolyte that has spewed out oxidizes the surface of the metal plug, causing deterioration. Parts need to be replaced.

(3) No problem...Can be reused. No effect on metal plugs.

As is clear from Table 1 above, if the aging method of the present invention is used, even if a short circuit/puncture should occur during aging, the aging device will not be affected at all and can be reused as is. It is something.

(Example 2) As a sample of an aluminum electrolytic capacitor, one type is a conventional JIS69 type long terminal type (terminal length is 6.3 +
We made 200 prototype 2-pin claw-shaped lead terminal type aluminum electrolytic capacitors (200WV, 470μF) that were approximately 200WV and 470μF. The other type is a 2-pin claw-shaped lead terminal type aluminum electrolytic capacitor (200WV470
200 μF) were prototyped.

And aging is about long terminal type aluminum electrolytic capacitors and short terminal type aluminum electrolytic capacitors.
The conventional aging method and the aging method of the present invention were used, respectively, and the number of pieces that could be aged was counted. In this case, in cases where aging could not be performed, the metal plug, which uses spring pressure to sandwich the pair of lead terminals from both sides, would eject the lead terminals, making it difficult to supply power to the pair of lead terminals (in cases where aging could not be performed). It is.

The above test results were as shown in Table 2.

Table 2 As is clear from Table 2 above, according to the aging method of the present invention, even in cutless short terminal type aluminum electrolytic capacitors, the pair of metal electrode members 15
Since it is possible to reliably contact the tips of the pair of lead terminals 13, stable aging can be performed.

Effects of the Invention As is clear from the description of the above embodiments, the aging method of the present invention includes a capacitor body having a pair of lead terminals connected to a capacitor element, and the capacitor body is connected to the capacitor body by the pair of lead terminals. Since it is fixed at the upper position, there is a possibility that it may be short-circuited during aging.
Even if a puncture occurs and the explosion-proof valve installed on the top of the capacitor body is activated, and the drive electrolyte impregnated in the capacitor element leaks out from the explosion-proof valve, the pair of lead terminals will not move upward. Due to this position, the driving electrolyte does not adhere to the metal electrode members, and as a result, the pair of metal electrode members are not affected in any way, making it possible to reliably prevent the occurrence of poor contact. .

In addition, the contact between the pair of metal electrode members and the pair of lead terminals is such that the pair of metal electrode members are brought into contact with the pair of lead terminals from above. Even in electrolytic capacitors, the contact between the two is completely unaffected by the length of the terminals, and a stable contact condition is always obtained.As a result,
This allows for stable aging.

[Brief explanation of the drawing]

Fig. 1 is a schematic diagram showing an aging method for an aluminum electrolytic capacitor in one embodiment of the present invention, Fig. 2 is a schematic diagram showing another embodiment of the present invention, and Fig. 3 is a schematic diagram showing a method for aging an aluminum electrolytic capacitor in a conventional method. FIG. 2 is a schematic diagram illustrating the method. 11... Capacitor body, 13... A pair of lead terminals, 15... A pair of electrode members. Name of agent: Patent attorney Shigetaka Awano 1 person Conte〉Shu 13 - Tsuki Noriichi 4 + 1 - Na 4 t-extract part No A Figure 3

Claims (1)

[Claims] A capacitor body is provided with a pair of lead terminals connected to a capacitor element, and the capacitor body is fixed so that the pair of lead terminals are positioned above, and in this state, a pair of metal electrode members are inserted from above. A method for aging an aluminum electrolytic capacitor, characterized by aging a capacitor element by bringing it into contact with a pair of lead terminals and supplying power to the pair of lead terminals through the pair of electrode members.