JPH0515298B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to improvements in capacitors, and particularly to capacitors with excellent vibration resistance.

[Conventional technology]

Ordinary capacitors, such as electrolytic capacitors, film capacitors, and oil capacitors, have a capacitor element wound with electrode foil and electrolytic paper or an insulating sheet, which is housed in a cylindrical outer case with a bottom.
The open end is sealed with a sealing body. and,
The outer peripheral surface of the outer case is covered with a so-called outer sleeve made of, for example, vinyl chloride to insulate the outer case.

[Problem to be solved by the invention]

By the way, when such a capacitor is installed in an electronic device, the capacitor's electrical characteristics such as capacitance and loss may vary slightly due to vibrations of other electronic components of the electronic device or the capacitor element itself. There were cases where the characteristics could not be obtained. This is thought to be due to, for example, a slight change in the distance between the electrodes due to vibration, or a change in the contact resistance between the electrode foil and the tab for drawing out the electrode. Changes in electrical characteristics due to such vibrations are
Although it does not affect normal electronic equipment,
When used in precision equipment or audio equipment, desired characteristics may not be obtained.

This invention aims to suppress fluctuations in electrical characteristics due to vibrations from inside and outside of a capacitor.

[Means to solve the problem]

This invention is a capacitor in which a capacitor element is housed in a cylindrical outer case with a bottom and the opening of the outer case is sealed with a sealing material, and the capacitor is characterized in that a dense layer of short fibers is formed on the outer peripheral surface of the outer case. It is said that Moreover, the manufacturing method is characterized in that short fibers are flocked after applying an adhesive to the outer surface of the outer case.

[Effect]

As shown in the drawings, the outer surface of the exterior case 3 of the electrolytic capacitor 1 is densely packed with short fibers that are closely adhered with an adhesive. Therefore, the outer case 3 is insulated by the dense layer 4 of short fibers. Also,
This dense layer 4 of short fibers absorbs vibrations and suppresses vibrations transmitted to the interior of the exterior case 3. Alternatively, vibrations generated from within are also absorbed, and feedback effects on the capacitor element 2 are reduced.

〔Example〕

Next, embodiments of the present invention will be explained by taking an electrolytic capacitor as an example and referring to the drawings.

FIG. 1 is a partial sectional view showing an embodiment of the invention.

The capacitor element 2 is formed by winding electrode foil and electrolytic paper (not shown), and is housed together with an electrolyte in a bottomed cylindrical outer case 3 made of aluminum or the like.

At the open end of this exterior case 3, elastic rubber,
A sealing body 6 made of a phenol resin plate or the like is attached, and the outer case 3 is sealed by a curling process or the like. A tab 7 for leading the electrode to the outside is connected in advance to each electrode foil of the capacitor element 2, and is electrically connected to an external connection terminal 5 fixed to the sealing body 6.

Adhesive is applied to the entire outer periphery of the exterior case 3. Then, short fibers called flock made of rayon, nylon, etc. are sprayed onto this adhesive surface using a spray gun or the like to form a dense layer 4 of short fibers. Alternatively, a high direct current voltage is applied to the outer case 3 and the short fibers are caused to adhere to the outer case 3 by the static electricity, thereby forming the dense layer 4. At this time, for example, when using an electrostatic flocking method in which the flocks are flocked by applying a voltage, the short fibers can be densely packed almost perpendicularly to the outer case 3.

In this embodiment, since the short fibers are densely packed on the outer surface of the outer case 3, the outer case 3 can be insulated by the dense layer 4 of short fibers. Therefore, there is no need for an exterior sleeve made of vinyl chloride or the like and a so-called bottom plate that covers the bottom surface of the exterior case 3 as in the past.

〔Effect of the invention〕

As described above, the present invention provides a capacitor in which a capacitor element is housed in a cylindrical outer case with a bottom and the opening of the outer case is sealed with a sealing material, in which a dense layer of short fibers is formed on the outer peripheral surface of the outer case. Because of this feature, there is no need to cover the exterior sleeve like in the past, and vibrations from the outside are absorbed by the dense layer of short fibers, reducing the impact on the inside of the capacitor.

In addition, the short fibers on the outer surface of the outer case absorb feedback vibrations caused by the vibrations of the capacitor element itself, making it possible to suppress minute fluctuations in electrical characteristics, especially in precision equipment, and improve reliability. improves.

In addition, the manufacturing method is characterized by applying adhesive to the outer surface of the outer case and then flocking short fibers. Layers can be easily formed.

[Brief explanation of drawings]

FIG. 1 is a partial sectional view showing an embodiment of the invention. 1...Capacitor, 2...Capacitor element, 3
... Exterior case, 4 ... Dense layer, 5 ... Terminal, 6
...Sealing body, 7...Tab.

Claims (1)

[Claims] 1. A capacitor in which a capacitor element is housed in a cylindrical outer case with a bottom and the opening of the outer case is sealed with a sealing material, in which a dense layer of short fibers is formed on the outer peripheral surface of the outer case. A capacitor characterized by: 2 After applying adhesive to the outer surface of the outer case,
2. The method for manufacturing a capacitor according to claim 1, wherein short fibers are flocked.