RU136648U1 - POWER ELECTRIC CONTACT - Google Patents

Abstract

1. Power electrical contact containing two articulated cylindrical rods, characterized in that the articulated rods are installed in the sleeve and fixed in it with collars made on the surfaces of the rods, the sleeve is made of 29Kovar alloy. 2. Power electric contact according to claim 1, characterized in that the cylindrical rods are joined together using a press connection. Power electrical contact according to claim 1, characterized in that the cylindrical rods are joined together using a threaded connection. Power electrical contact according to claim 1, characterized in that the cylindrical rods are made of copper or copper alloys. Power electric contact according to claim 1, characterized in that the collars of the rods are connected to the ends of the sleeve using electron beam welding. Power electrical contact according to claim 1, characterized in that the ends of the shoulders of the rods facing the ends of the sleeve are corrugated. Power electric contact according to claim 1, characterized in that the ends of the sleeve are corrugated. Power electric contact according to claim 1, characterized in that at least two annular grooves filled with refractory solder are made on the surfaces of the rods. Power electrical contact according to claim 1, characterized in that at least two annular grooves are made on the surfaces of the rods, in which the rubber sealing rings are placed.

Description

The utility model relates to the field of electrical engineering and can be used in the installation of cable networks in various fields of technology, in particular in the manufacture and use of bushing insulators, cable glands, electrical connectors, in the construction of which glass is used as material for insulators.

Known power electrical contact according to patent RU 2414782. Known power electrical contact contains a base electric rod 10 and a cylindrical rod-shank 7 (Fig. 13). At the end of the rod 10, a blind cylindrical hole is made in which a connecting element 13 of the shaft-shank 7 is installed. At the end of the rod 7, a stepped blind hole is made on the side opposite to the connecting element 13, in which the conductive part 3 and the insulating sheath 4 of the electric wire 1 are installed, attached to the rod 7 by force compression of the outer surface of the latter.

One of the goals achieved by technical solutions according to the well-known patent is to create the possibility of connecting electrical wires with conductive elements (in this case, with a power electrical contact) made of aluminum alloys.

However, the manufacture of electrical contacts from aluminum alloys makes it impossible to use such contacts in bushings, cable glands and connectors with glass insulators, since aluminum alloys are poorly soldered to glass, which does not ensure reliable operation of electrical connectors.

The objective and technical result of the utility model is to expand the functionality of power electrical contact.

The technical result is achieved by the fact that in a power electrical contact containing two cylindrical rods connected to each other, according to a utility model, the articulated rods are mounted in the sleeve and fixed therein with collars made on the surfaces of the rods, the sleeve is made of 29Kovar alloy.

Cylindrical rods can be joined together using a press connection.

Cylindrical rods can be joined together using a threaded connection.

Cylindrical rods can be made of copper or copper alloys.

The collars of the rods are connected to the ends of the sleeve using electron beam welding.

The ends of the shoulders of the rods facing the ends of the sleeve can be made corrugated.

The ends of the sleeve can be made corrugated.

At least two annular grooves can be made on the surfaces of the rods in which the rubber o-rings are placed.

At least two annular grooves filled with refractory solder can be made on the surfaces of the rods.

Installation of articulated cylindrical rods of power electrical contact in the sleeve and fixing them in collars ensures that the material of the insulator of the electrical connector does not contact the rods, which can be made of various materials, but with the outer surface of the sleeve.

The execution of the sleeve of alloy 29NK "Kovar" provides a tight, tight and durable contact of the outer surface of the sleeve and the glass insulator of the electrical connector during their high-temperature soldering. If necessary, it is possible to install the specified sleeve with contact rods in polymer or composite insulators, as well as in insulating sealant.

Thus, the expansion of the functionality of the power electrical contact is achieved.

The essence of the utility model is illustrated by drawings.

In FIG. 1 shows a power electrical contact assembly.

In FIG. 2 shows a power electrical contact, the sleeve of which is soldered with a glass insulator of the connector housing.

In FIG. 3 shows a power electrical contact, on the surfaces of the rods of which annular grooves are made in which rubber o-rings are placed.

In FIG. 4 is a partial view A of FIG. 3 (variant).

In FIG. 5 shows a sleeve soldered to a glass insulator and contact rods prepared for assembly of the device.

In FIG. 6 shows a power electrical contact, on the surfaces of the rods of which annular grooves filled with refractory solder are made.

The power electrical contact contains a sleeve 1 made of 29Kovar alloy 29K, two rods 2 and 3 connected to each other, which are installed in the sleeve 1. The rods can be made of copper or copper alloys. The rods 2 and 3 are mated by parts of the outer surfaces with the inner surface of the sleeve 1 and are equipped with connecting elements 4 and 5. The joints of the rods with each other can be press or threaded. The rods 2 and 3 are equipped with annular collars 6, which serve to fix them in the sleeve 1. Sealing the connection is provided by electron beam welding (in vacuum) of the ring joints of the collars 6 with the ends of the sleeve 1. The working sections of the cylindrical rods 2 and 3 located outside the sleeve 1 are intended for connecting to them conductive cable conductors and may take the form of pins, sockets or shanks for soldering, crimping or screw connection of conductive cable conductors. The tightness of the connection of the rods is also ensured by a radial seal using rubber rings 8 installed in the grooves 7, as well as by the presence of reefs at the ends of the shoulders 6 of the rods 2 and 3 or at the ends of the sleeve 1 (Fig. 4).

The assembly of the combined power contact is performed as part of the insulator 11 after the glass is soldered to the metal of the housing 12 of the electrical connector and the sleeve 1.

The tightness of the connection can also be ensured by soldered connection of the working sections of the cylindrical rods 2 and 3 located inside the sleeve 1 with the inner surface of the sleeve. For this, at the working sections of the cylindrical rods 2 and 3, at least two annular grooves 9 are made in which a refractory solder 10 is placed in the form of a wire. Soldering metal parts of the cylindrical rods 2 and 3 and the sleeve 1 is carried out simultaneously with the soldering of glass with the metal of the housing 12 and the sleeve 1.

The proposed power electrical contact has good electrical and mechanical characteristics. During its manufacture, reliable sealed bush junctions from Kovar with glass of the C52-1 grade and other brands are provided.

Claims (9)

1. Power electrical contact containing two articulated cylindrical rods, characterized in that the articulated rods are installed in the sleeve and fixed in it with collars made on the surfaces of the rods, the sleeve is made of 29KV Kovar alloy. 2. Power electrical contact according to claim 1, characterized in that the cylindrical rods are joined together using a press connection. 3. Power electrical contact according to claim 1, characterized in that the cylindrical rods are connected to each other using a threaded connection. 4. Power electrical contact according to claim 1, characterized in that the cylindrical rods are made of copper or copper alloys. 5. Power electrical contact according to claim 1, characterized in that the collars of the rods are connected to the ends of the sleeve using electron beam welding. 6. Power electrical contact according to claim 1, characterized in that the ends of the shoulders of the rods facing the ends of the sleeve are made corrugated. 7. Power electrical contact according to claim 1, characterized in that the ends of the sleeve are corrugated. 8. Power electrical contact according to claim 1, characterized in that at least two annular grooves filled with refractory solder are made on the surfaces of the rods. 9. Power electrical contact according to claim 1, characterized in that at least two annular grooves are made on the surfaces of the rods in which the rubber sealing rings are located.

Images