RU2614031C1 - Electrically conductive connection of two cables - Google Patents

Abstract

FIELD: measuring equipment.

SUBSTANCE: disclosed technical solution relates to electrical measuring equipment and can be used in devices with cables permanent connections, used, for example, in thermal converters production. technical result of disclosed technical solution is increased efficiency, simplified assembly and providing two cables electrically conductive connection electrical insulation.

EFFECT: technical result is achieved by fact, that in electrically conductive connection of two cables, containing protection sleeve and filling it dielectric sealant, connection is equipped with transition part from flat shaped electrically insulating material, coated with, at least, three electrically conductive paths, electrically insulated from each other, wherein to one of paths is welded sheath of, at least, one of cables, and to other paths are corresponding cables electrodes, wherein protection sleeve is made enveloping transition part and cables.

1 cl, 1 dwg

Description

The proposed solution relates to the field of electrical engineering and can be used in devices with one-piece cable connections, used, for example, in the manufacture of thermal converters.

It is known that in the manufacture of the transition of thin thermoelectrodes to thicker, welding is used, which provides a reliable connection with thermoelectrode diameters up to 0.2-0.25 mm (see, for example, Lysikov B.V. et al., “Temperature Measurements in Nuclear Reactors ”, Atomizdat, 1975, p. 67). The disadvantage of this connection is that when using thermoelectrodes of smaller sizes (with a diameter of the order of 0.05 mm), welding is impossible, due to burnout of thermoelectrodes.

The device closest in technical essence and purpose is described in GOST 23847-79. In this solution, adopted as a prototype, the electrodes of the supply cable are directly connected by soldering to the electrodes of the output cable and the electrodes of the supply cable absorb the mechanical stresses that arise during assembly. Outside, the connection is covered by a protective sleeve filled with dielectric sealant.

Mechanical loads on weak electrodes reduce the quality, and in some cases with small electrode sizes exclude the possibility of connection. For example, in cases of manufacturing thermal converters with an input cable diameter of 0.3 mm and an electrode diameter of 0.05 mm, the occurring mechanical stresses on the electrodes practically exclude the quality of the connection without breaks.

The technical result of the proposed technical solution is to increase reliability, simplify installation and ensure electrical insulation of the electrical conductive connection of the two cables.

The technical result is achieved in that in an electrically conductive connection of two cables containing a protective sleeve and a dielectric sealant filling it, the connection is equipped with a transitional part of an insulating material of a flat shape with at least three electrically conductive tracks insulated from each other, deposited on it, while the sheath of at least one of the cables is soldered to one of the tracks, and corresponding cable electrodes to the other tracks, while the protective sleeve is made covering th an adapter and cables. This technical solution is illustrated by the drawing, which shows a cross section of the proposed electrically conductive connection of two cables.

The connection includes a lead cable 1 with electrodes 2, a protective sleeve 3, a lead cable 4 with electrodes 5 and an adapter 6 with tracks 7 and 8. The protective sleeve 3 is made covering the adapter 6 and cables 1 and 4.

The adapter 6 is made of an insulating material of a predominantly flat shape with three tracks 7 and 8 being insulated therebetween. The adapter 6 can be made, for example, of foil-coated fiberglass using printed circuit board technology.

During assembly, the lead-in cable 1 is fixed, for example, by soldering, to the electrically insulated track 8 of the adapter 6 and the electrodes 2 are unloaded from mechanical loads during further assembly, after which the electrodes 2 are fixed to ensure electrical contact, for example, by soldering to the tracks 7.

Further assembly of the connector consists in connecting the electrodes 5 of the outlet cable 4 to provide electrical contact, for example, by soldering to the tracks 7. If necessary, the sheath of the outlet cable 4 can also be soldered to the fourth special track performed on the adapter 6 (not shown in the drawing).

Then, the protective sleeve 3 is pushed onto the adapter 6 and the connection is sealed, for example, by filling the inner space of the protective sleeve 3 with a dielectric sealant.

This technical solution allows to increase reliability, simplify installation and provide electrical insulation of the electrical conductive connection of the two cables used in thermal converters.

Claims (1)

An electrically conductive connection of two cables, comprising a protective sleeve and a dielectric sealant filling it, characterized in that the connection is provided with a transitional part of an insulating material of a flat shape, with at least three electrically conductive paths insulated from each other, applied to it, with one from the tracks, the sheath of at least one of the cables is soldered, and the corresponding electrodes of the cables are soldered to the other tracks, while the protective sleeve is made covering the adapter piece and cables.

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