JPH03225912A - Aluminum electrolytic capacitor - Google Patents

Abstract

PURPOSE:To permit an electrolytic capacitor and a seating to be coupled with good tightness and prevent a crack from occurring around a lead insertion hole by forming a protrusion to be engaged with a sealing member around the lead insertion hole made in the seating. CONSTITUTION:A pair of lead insertion holes 11a, 11b are made in a seating 10 to be applied to an aluminum electrolytic capacitor while protrusions to be engaged with a rubber seal 5 of the electrolytic capacitor 1 are formed respectively around the lead insertion holes 11a, 11b. At the time of assembling, leads 4a, 4b are first inserted into the slit-like lead insertion holes 11a, 11b each showing a rectangle or an ellipse. Then the respective tips of the leads 4a, 4b are bent in an approximate L-shape along the rear of the seating 10 in opposite directions to each other. Thus each tooth 12a of the protrusion 12 is engaged with a rubber seal 5 so that the seating 10 can be tightly attached to the electrolytic capacitor 1. On the other hand, since each periphery of the lead insertion holes 11a, 11b is reinforced by the protrusion 12, a crack hardly occurs in the vicinity.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an aluminum electrolytic capacitor, and more specifically, to a chip-shaped aluminum electrolytic capacitor having an electrically insulating base.

[Conventional technology]

FIG. 4 shows a conventional example in which a lead unidirectional aluminum electrolytic capacitor 1 is mounted on a pedestal 2 to form a chip-type capacitor. That is, this electrolytic capacitor 1 has a bottomed cylindrical metal case 3, in which a capacitor element (not shown) is housed. A pair of leads 4a extend from the opening of the metal case 3 from the capacitor element.
, 4b are pulled out in the same direction, and their openings are sealed with a rubber sealing body 5, for example.

Note that the leads 4a and 4b are originally made of solder or tin-plated steel wire, but the ends of each lead are crushed by a press or the like so as to form a flat plate.

The pedestal 2 is made of an electrically insulating synthetic resin plate, and lead insertion holes 6a and 6b are formed approximately in the center thereof. In this conventional example, as shown in FIG.
Lead guide grooves 7a and 7b are formed on the back side of the lead insertion holes 6a and 6b.

Leads 4a are inserted into the lead insertion holes 6a and 6b.

4b and bending the tips thereof in opposite directions along the guide grooves 7a and 7b, the pedestal 2
is attached to the sealing part side of the metal case 3.

[Problem to be solved by the invention]

As described above, the electrolytic capacitor 1 is made into a chip type that can be surface-mounted on a circuit board, but in the conventional example described above, the electrolytic capacitor 1 can be mounted only by the holding force obtained by bending the ends of the leads 4a and 4b. 3. The sensor 1 is fixed to the pedestal 2. Therefore, the adhesion between the electrolytic capacitor 1 and the pedestal 2 is poor, and looseness often occurs.

Further, since the leads 4a and 4b are flat, the leads 4a are inserted into the lead insertion holes 6a and 6b in consideration of ease of insertion into the lead insertion holes 6a and 6b.

The long side of 4b is a round hole with a degree of roughness of about 1.4 to 1.8.

For this reason, Leet 4. When bending the leads 4a and 4b, the leads 4a and 4b were sometimes displaced in the direction of rotation about the axis of the metal case 3, as shown by imaginary lines in FIG. Furthermore, it has been pointed out that cracks tend to form around the lead insertion holes 6a and 6b as a problem during molding.

[Means to solve the problem]

This invention was made to solve the above problems,
The second feature of its structure is that a capacitor element having a pair of leads is housed in a bottomed cylindrical metal case so that each lead is pulled out in the same direction from the opening of the metal case, and The low part is sealed with a predetermined sealing member, and an electrically insulating pedestal having a pair of glue rod insertion holes is attached to the sealing part side.
In an aluminum electrolytic capacitor in which the tip end side of each lead is bent in a substantially L shape along the back surface of the pedestal toward opposite sides, a sealing member is placed around the lead insertion hole drilled in the pedestal. This is due to the fact that it has a protrusion that bites into it.

In this case, it is preferable to form a guide surface on the protrusion to guide the tip of the lead into the lead insertion hole. In addition, by forming the tip end of the lead into a flat plate,
It is preferable that the lead insertion hole has a rectangular or oval shape that is almost similar to the lead insertion hole.

[For production]

When attaching the pedestal to the electrolytic capacitor, the protrusion of the pedestal bites into the sealing member, so that the two are joined with good adhesion.

In addition, by making the lead insertion hole rectangular or oval, displacement of the lead in the rotational direction when the lead is bent can be more reliably prevented. On the other hand, by forming a guide surface on the protrusion to guide the tip of the lead into the lead insertion hole, even if the lead insertion hole is rectangular or oval, the ease of inserting the lead into the lead insertion hole is impaired. Nor. Further, since the area around the lead insertion hole is reinforced by the protrusion, there is little risk of cracking in the vicinity.

〔Example〕

Embodiments of the present invention will be described in detail below with reference to FIGS. 1 to 3.

FIG. 1 is a perspective view of a pedestal 10 applied to an aluminum electrolytic capacitor according to the present invention, and FIG.
2 shows a cross-sectional view of a main part of the electrolytic capacitor 1 with leads in the same direction as described above.

This pedestal 10 has a pair of lead insertion holes 1 as in the conventional case.
1a and llb are drilled, but each lead insertion hole 11
Protrusions 12 and 12 that bite into the rubber sealing body 5 of the electrolytic capacitor 1 are formed around a and Ilb, respectively.

According to this embodiment, each of the projections 12 has a lead insertion hole 11. A pair of tooth portions 12a, 12a having a right triangular cross section are provided on both sides of a and llb. In this case, each oblique side of the teeth 12a, 12a is
．． A lead insertion hole 11a is formed at each tip end of the lead insertion hole 11a.

They are placed opposite each other in such a way that they form an inverted letter-shaped guide surface 13.13 that guides into 11b. Note that, unlike this embodiment, the protrusion 12.12 is formed into a lead insertion hole 11a.

It may be provided in a ring shape around 11b.

Also, in this embodiment, the lead insertion hole 11a.

1, ], b are formed into rectangular or oval shapes similar to the flat plate-shaped tips of the leads 4a and 4b. The size thereof is preferably about 1.1 to 1.3 times the long side of the tips of the leads 4a and 4b.

When assembling, first insert the leads 4a and 4b into the rectangular or oval slit-like lead insertion hole 11a,
The guide surface 13.13 is formed on the teeth 12a, 12a, so that the insertion can be easily performed. Next, the tips of the leads 4a and 4b are bent in opposite directions along the back surface of the pedestal 10 into a substantially L-shape. As a result, each tooth portion 12a of the protrusion 12 is inserted into the rubber sealing body 5.
The pedestal 10 is attached to the electrolytic capacitor 1 in close contact with the electrolytic capacitor 1. In addition, each lead insertion hole 11a, ll
Since b has a rectangular or oval slit shape, the leads 4a, as shown by imaginary lines in FIG.
The tips of the leads 4b are accommodated in, for example, lead guide grooves 14a and 14b formed on the back side of the pedestal 10, without rotational deviation as in the conventional case. On the other hand, since the area around each lead insertion hole 11a, llb is reinforced by the protrusion 12, there is little risk of cracking in the vicinity.

〔Effect of the invention〕

- As explained above, according to the present invention, the protrusion that bites into the sealing member is formed around the lead insertion hole formed in the pedestal, so that the electrolytic capacitor and the pedestal have good adhesion. be combined.

Further, by making the lead insertion hole rectangular or oval, displacement of the lead in the rotational direction when the lead is bent can be more reliably prevented. On the other hand, by forming a guide surface on the protrusion to guide the tip of the lead into the lead insertion hole, even if the lead insertion hole is rectangular or oval, the ease of inserting the lead into the lead insertion hole is impaired. Nor. Furthermore, since the area around the lead insertion hole is reinforced by the protrusion 10, cracks will not occur in the vicinity.

[Brief explanation of drawings]

Fig. 1 is a perspective view of an example of a pedestal applied to the aluminum electrolytic capacitor of the present invention, Fig. 2 is a cross-sectional view of the main part showing the pedestal attached to the electrolytic capacitor, and Fig. 3 is the back side of the pedestal. Figure 4 is an exploded perspective view showing a conventional example.
FIG. 5 is a bottom view of the conventional example. In the figure, 1 is an aluminum electrolytic capacitor, 2゜10 is a pedestal, 3 is a metal case, 4a, 4b are leads, 5 is a sealing member, 6a, 6b, 1lla, llb are lead insertion holes, 1
2 is a projection, and 13 is a guide surface. N “0 54

Claims (3)

[Claims] (1) A capacitor element having a pair of leads is housed in a bottomed cylindrical metal case so that each lead is pulled out in the same direction from the opening of the metal case, and the opening is connected to a predetermined position. The seal is sealed with a sealing member, and an electrically insulating pedestal having a pair of lead insertion holes is attached to the sealing part side, and the tips of each of the leads are turned toward opposite sides along the back surface of the pedestal. An aluminum electrolytic capacitor bent into an L-shape, characterized in that a protrusion that bites into the sealing member is formed around the lead insertion hole formed in the pedestal. . (2) The aluminum electrolytic capacitor according to claim 1, wherein the protrusion is provided with a guide surface for guiding the tip of the lead into the lead insertion hole. (3) The aluminum electrolytic capacitor according to claim 1, wherein the tip end side of the lead is formed into a flat plate shape, and the lead insertion hole is formed into a rectangular or oval shape substantially similar to the lead insertion hole.