RU124979U1 - CONSTANT CAPACITY OF CONSTANT CAPACITY - Google Patents

Abstract

1. A capacitor of constant capacity, containing a cylindrical body, closed by a lid, a condenser element-section of a roll type, wire leads, tab terminals, characterized in that the housing is made of high-strength polymer material that is resistant to stress and ensures operability in a wide temperature range, at this element-section located in the housing is made in the form of two series-connected sections, and the wire leads connected to the capacitor section are isolated by fluorine Roplast tube. 2. The capacitor according to claim 1, characterized in that Armamide polyamide is used as the polymeric material.

Description

The utility model relates to electrical engineering, to the device of film capacitors of constant capacity and can be used in telemetric systems of boreholes (design of submersible devices), in conditions of increased requirements for protection from exposure to high temperatures, temperature extremes, vibration and shock loads.

In the general case, capacitor designs are considered in reference books on electrical engineering and radio engineering [1, 2]. Traditionally, for cylindrical capacitor housings, aluminum housings are used, which are unsuitable for use in the indicated operating conditions, due to the transfer of heat from heat-loaded structural elements to conductive elements.

Known invention "Flat multilayer capacitor" [3] relating to capacitors of constant capacitance. According to the invention, the internal electrodes of the capacitor are S-shaped, with one of the plates of the subsequent S-shaped electrode located between two planes of the plates of the previous S-shaped electrode, the space between the electrodes is filled with a dielectric, the external electrodes are formed by connecting the end surfaces of the S-shaped electrodes so that all layers of the dielectric are located between bipolar electrodes, and the electrical leads are connected to external electrodes.

The invention is known "Electric two-layer capacitor" [4]. In the specified capacitor device, the working compartment containing the multilayer cells is coated for their protection with an aluminum multilayer film. Each of the pair of current-receiving terminals made on the two end parts of the working compartment of the capacitor contains the first bent parts, bent along the side surface of the working compartment, and the second bent parts, bent outward in the middle of the side surface of the working compartment. Both second bent parts of the pair of current-receiving terminals are coated in the common plane with an aluminum multilayer film, and the end parts of the pair of current-receiving terminals protrude outward from the specified film, while the root parts of each of the second bent parts are equipped with plastic cases that are worn on an aluminum multilayer film. The technical result from the use of the known capacitor device is to increase reliability by increasing the tightness and strength of the current-receiving lead parts.

The problem solved by the claimed utility model is to expand the field of application of capacitors, namely, to provide the possibility of using capacitors in telemetric systems of boreholes. The technical result consists in increasing the reliability of the capacitor while simplifying the design and ensuring high manufacturability.

The technical result of the claimed utility model is achieved by the fact that the cylindrical body and the cap of the capacitor are made of high-strength polymer material that is resistant to stress and ensures operability in a wide temperature range, while the roll-type element-section is made in the form of two sections connected in series and the wire leads connected to the capacitor section are insulated with a fluoroplastic tube. As a polymer material for the manufacture of the body and the cover, a mechanically strong polyamide material with fiberglass filler - Armamide is used

Figure 1 shows an axial section of a capacitor;

Figure 2 presents a top view.

The proposed utility model includes a housing 1, tightly closed by a cover 2, a condenser element-section 3 is located in the housing, consisting of two sections connected in series connected to wire leads insulated by a fluoroplastic tube 4 and brought to the lobe terminals 5 of the cover, the condenser section is filled with epoxy resin 6. The body and cover of the capacitor are made of Armamide [6], recommended, inter alia, for the manufacture of parts for electrical purposes and operation at temperatures up to 150 ° C, briefly up to 205 ° C. The fluoroplastic tube 4 used for the electrical insulation of the wire leads withstands an operating temperature of up to 250 ° C. The design of the capacitor element, consisting of two series-connected sections allows you to increase the value of the voltage supplied to the terminals of the capacitor. The design of the capacitor element, consisting of two series-connected sections, allows you to increase the value of the voltage supplied to the terminals of the capacitor. The design of the capacitor is completely sealed with epoxy resin, which protects the capacitor from atmospheric pressure, humidity and mechanical stress.

The combination of improvements in the proposed utility model provides a structure that is resistant to high temperatures, temperature extremes, vibration and shock loads arising from the operation of well submersible devices and exploration apparatuses.

Information sources:

1. W Electric capacitor - Wikipedia;

2. Goryacheva G.A., Dobromyslov E.R. Reference Bulk Radio Library, issue 1079. Publisher: Radio and Communications, 1984;

3. Patent RU No. 238307 for the invention of "Flat multilayer capacitor".

4. Patent RU No. 2439732 for the invention of "Electric two-layer capacitor".

Claims (2)

1. A capacitor of constant capacity, containing a cylindrical body, closed by a lid, a condenser element-section of a roll type, wire leads, tab terminals, characterized in that the housing is made of high-strength polymer material that is resistant to stress and ensures operability in a wide temperature range, at this element-section located in the housing is made in the form of two series-connected sections, and the wire leads connected to the capacitor section are isolated by fluorine roplast tube. 2. The capacitor according to claim 1, characterized in that Armamide polyamide is used as the polymeric material.

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