KR900008343Y1 - Condenser - Google Patents

Abstract

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Description

Hermetic condenser

1 is a longitudinal sectional view of the hermetic capacitor of the present invention.

Figure 2 is a longitudinal cross-sectional view of the operating state of the present invention.

3 is a main detail of the present invention.

4 is an explanatory diagram of the effect of the inclined surface.

* Explanation of symbols for main parts of the drawings

2: condenser element 4: external terminal

5: insulator 6: blocking plate

7: flange 8: through hole

The present invention relates to a hermetic condenser. In particular, an inclined surface is formed in the through hole of the blocking plate, and when the container is cooled after the electrical connection is cut off due to the pressure increase in the container, the re-contact of the part where the electrical connection is cut off. To ensure reliable insulation.

In the conventional hermetic condenser, there is a risk that the pressure in the condenser container is increased by the gas generated by the condenser, and the container is exploded by this pressure.

Safety devices for preventing such risks are known from Japanese Utility Model Publication No. 49-105852 and 40-15343.

This safety device has a structure in which an insulating barrier plate is provided between a capacitor element housed in a container and a container lid, and an inner end of an external terminal mounted on the lid is connected to the lead of the capacitor element through the barrier plate.

When the pressure in the container rises and the device expands and deforms, the external terminal rises together with the lid or the blocking plate is prevented from rising by the periphery of the lid. At this time, a tension force is applied to the inner end of the external terminal and the junction of the lid. It is to prevent the electrical contact between the external terminal and the condenser element.

In a capacitor in which electrical connection is interrupted, it is necessary to reliably insulate the junction between the external terminal and the lead.

If the inside of the container is cooled after the electrical connection is cut off, the internal pressure is reduced and the lid is returned to its original state. Therefore, this risk can be prevented because the part where the electrical connection is cut off may be re-contacted and ignited by an arc generated at this time. There is a need.

The condenser of this structure is electrically deformed due to the expansion deformation of the lid, the blocking plate is bent deformation, the elasticity when the degree of curvature becomes large, the junction between the terminal inner end and the lead is cut off, and the curvature becomes large. It is to prevent the part blocked by the re-contact.

However, such a condenser breaks the junction by the elastic force of the plastic barrier plate, and thus there is a drawback that the electrical connection of the junction cannot be reliably interrupted even when the internal pressure of the container reaches a constant pressure.

This is because the elastic force acting on the joint is changed when the material, the size of the blocking plate, or the position of the fixing point are different.

In addition, in the above condenser, a tensile force acts on the joint even by a change in the expansion of the lid repeatedly caused by a daily temperature change, and a fatigue phenomenon occurs in the electrical joint due to the tensile force, and thus the electrical connection is blocked.

When the internal pressure of the capacitor reaches a certain pressure, the electrical connection of the junction is reliably cut off and the defect that the electrical connection is cut off due to the fatigue phenomenon caused by the daily temperature change is used. As the lower part protrudes below the insulating plate and the upper part of the lead is caught in the hole of the insulating plate, the expansion of the lid due to the daily temperature change is absorbed by a certain interval formed between the upper part of the lead and the insulating plate, so that the electrical connection is caused by the fatigue phenomenon. When the cover expands due to the increase in the internal pressure of the capacitor, the terminal rises, but the lead does not rise due to the hole of the insulating plate, so that the electrical connection is secured.

However, even in the conventional various improved condensers, when the electrical connection is cut off due to the pressure rise in the container, the container is cooled, and thus, when the internal pressure is reduced, there is no reliably preventing re-contact of the part where the electrical connection is cut off.

The present invention has been devised to solve this problem, and by forming an inclined surface in the through hole, the terminal is rotated in a certain direction by the expansion of the lid, the electrical connection is cut off after the container is cooled to return to the original position of the inner end of the terminal It is an object of the present invention to provide a highly reliable sealed capacitor by preventing the re-contact of the part in which the electrical contact is interrupted by being supported by the inclined surface of the additional through hole to prevent re-contact.

In the hermetic condenser of the present invention, the condenser element is accommodated in a container and an external terminal is mounted on the lid of the container. An insulating plate is provided between the condenser element and the lid of the container, and the inner end of the external terminal passes through the through hole of the insulating plate. The lead of the condenser element is connected to the inner end of the outer terminal by protruding to the bottom of the insulating plate, and the inclined surface is formed at the periphery of the through hole. Even if it returns, the inner end is in contact with the inclined surface and the reed is not in contact with the lead.

When the inner pressure of the container rises and the lid is greatly expanded and deformed, the outer terminal rises up by this expansion deformation, but the blocking plate is blocked by the periphery of the lid, and the lid is caught on the outer circumferential surface of the through hole. Tensile force due to expansion deformation of the lid acts on the junction of the lead, and the electrical connection is interrupted by this tension.

Since the lid is disconnected by the cone deformation, that is, plastic deformation, the electrical connection of the joint is blocked, so that when the pressure in the container reaches a constant pressure, the joint can be reliably blocked.

The outer terminal is rotated by the expansion of the lid after the junction is blocked so that the inner end of the terminal is directed toward the inclined surface formed in the through hole of the barrier plate, thereby preventing recontact of the junction.

In addition, since the inner end of the outer terminal is protruded to the bottom of the through hole, a constant gap is formed between the junction and the bottom of the blocking plate, and this gap absorbs the expansion change of the lid due to the daily temperature change. It can prevent the blocking of the connection.

Detailed embodiments of the present invention hermetic capacitor will be described in detail with reference to the accompanying drawings.

In FIG. 1, 1 denotes a container, in which the upper surface of the container 1 has a circular opening, inside which a condenser element 2 is housed, and a lid 3 is covered on the top of the container 1. .

A pair of outer terminals 4 are respectively mounted on the lid 3 by an insulator 5, and an inner end 4 ′ of the outer terminal 4 is introduced into the container 1.

In addition, between the capacitor element 2 and the lid 3, a disc-shaped insulating barrier plate 6 is provided, and the barrier plate 6 is made of a material having no plasticity at all, and the inner diameter of the container 1 is about 3 The annular flange 7 bent upward is formed at the peripheral edge portion having a diameter of about / 4.

The diameter of the blocking plate 6 smaller than the container 1 will be described later.

The blocking plate 6 has a pair of through holes 8 suitable for the outer terminal 4, and the inner end 4 ′ of the outer terminal 4 protrudes downward through the through hole 8. have.

In addition, the inclined surface 12 is formed in the inside of the through hole 8, and the edge 9 is formed at the lower end of the inclined surface 12.

That is, it can be said that the through hole 8 is formed with the edge 9 and the inclined surface 12.

On the other hand, a pair of lead thin plates 10 protrude from the condenser element 2, and the leading end of each lead thin plate 10 is connected to the inner end 4 ′ of the external terminal 4.

The inner end portion 4 ′ of the outer terminal 4 is formed in a conical shape as shown in order to weld the tip portion to the lead thin plate 10 so that the electrical connection is cut off as little as possible.

In addition, in FIG. 1, reference numeral 11 denotes insulating paper, and although not shown in the drawing, a plurality of ventilation holes are formed in the blocking plate 6 so that pressure acts above the blocking plate 6 through the ventilation hole. It was.

Referring to the working state of the present invention as follows.

First, the case where the lid 3 expands and deforms due to changes in temperature or the like without destroying the capacitor 2 will be described.

The lid 3 expands due to an increase in the internal pressure and returns to its original state by elasticity when the internal pressure decreases.

At this time, since the inner end portion 4 'of the outer terminal 4 protrudes to the front surface of the through hole 8, a gap C is formed between the junction portion and the bottom of the blocking plate 6, so that the lid 3 is deformed. Up and down vibration of the external terminal 4 by is absorbed by the interval (C).

In addition, since the diameter of the blocking plate 6 is smaller than the inner diameter of the container 1, the blocking plate 6 also rises according to the expansion deformation of the lid 3, thereby causing the external terminal 4 to be deformed by the deformation of the lid 3. Absorbs up and down vibration of).

As described above, in the deformation within the range in which the elasticity of the lid 3 is applied, the workmanship is not applied to the joint portion, and it is not broken by the fatigue of the joint portion and the stability of the capacitor can be improved.

Even if the diameter of the blocking plate 6 is approximately equal to the inner diameter of the container 1, if the gap C is formed sufficiently, it is possible to prevent breakage due to fatigue of the joint.

When the condenser element 2 is destroyed, the internal pressure of the container 1 rises, so that the lid 3 greatly expands and deforms, and the deformation of the lid 3 expands greatly even with a small increase in pressure.

It is called plastic deformation.

When the lid 3 expands and deforms, the outer terminal 4 rises upward, but the blocking plate 6 is prevented from rising by the periphery of the lid 3, so that the rise of the lead thin plate 10 is also increased through the through hole 8. This is prevented by the periphery of this, and thus the tension between the external terminal 4 and the lead thin plate 10 is applied by the tensile force due to the expansion deformation is cut by this force and the electrical connection is cut off.

In this way, since the electrical connection of the junction portion is blocked by the plastic deformation region of the lid 3, the junction portion is reliably blocked when the pressure in the container 1 reaches a constant state.

This is because in the plastic deformation region, all of the increased pressure inside the container 1 does not act as a force for deforming the lid 3 but mainly as a tensile force for the joint.

After the connection of the junction is cut off, the lid 3 continues to inflate and the outer terminal 4 is rotated in the direction of the arrow as shown in FIG. 2, as shown in FIG. 2 and FIG. 3. The inner end 4 'of the terminal 4 is in contact with the inclined surface 12 of the through hole 8 and the outer terminal 4 is prevented from rotating in the opposite direction by the inclined surface 12.

That is, after the electrical connection of the junction is cut off, the container 1 is cooled to reduce the internal pressure, and the inner end 4 'is supported by the inclined surface 12 even when the inner portion 4' is to be returned to its original position by the residual elasticity of the lid 3. As a result, it cannot be moved and prevents re-contact of the part where the electrical contact is cut off, and the insulation becomes reliable.

In addition, the following effects are also expected by providing the inclined surface 12.

In the case of simply laying the through hole 8 without installing the inclined surface 12 as shown in FIG. 4, in the initial stage in which the external terminal 4 rotates due to the expansion deformation of the lid 3. Since the inner end portion 4 ′ of the outer terminal 4 is caught by the upper and lower peripheral portions of the through hole 8, it does not rise above a certain degree and it is impossible to block the electrical connection of the junction portion.

This problem can be solved by forming the inclined surface 12.

It is preferable that the inclined surface 12 is formed on the entire circumferential surface of the through hole 8, but the same function can be performed even if the inclined surface 12 is partially formed only as necessary.

Therefore, the present invention is to prevent the re-contact after the junction is blocked, it is possible to provide a high safety sealed capacitor because the insulation is secure.

Claims (1)

The inner end portion 4 'of the outer terminal 4 attached to the lid 3 of the container 1 penetrates the through hole 8 to protrude at a predetermined interval and externally extends the lead thin plate 10 of the condenser element 2. An insulated capacitor, characterized in that the inclined surface 12 is formed on the inner surface of the through hole 8 in connection with the inner end portion 4 'of the terminal 4.