RU63106U1 - POWER CABLE - Google Patents

Abstract

The utility model relates to cable technology, namely, to the construction of power cables with plastic insulation, intended for the transmission and distribution of electrical energy in stationary and non-stationary installations, to a rated alternating voltage of up to 1 kV with a frequency of up to 400 Hz. The power cable contains aluminum or copper conductive conductors coated with insulation from a thermoplastic polyurethane elastomer and twisted into a core over which a sheath made of thermoplastic polyurethane elastomer is applied. The technical result is an increase in the flexibility of the power cable necessary for its operation in conditions where frequent bends are possible and, as a result, the expansion of its scope.

Description

The technical field to which the utility model relates.

The utility model relates to cable technology, namely, to the construction of power cables with plastic insulation, intended for the transmission and distribution of electrical energy in stationary and non-stationary installations, to a rated alternating voltage of up to 1 kV with a frequency of up to 400 Hz.

State of the art

Known flexible power cable of the KG brand, which contains copper flexible conductive cores coated with rubber insulation and twisted into a core over which a rubber sheath is applied (flexible power cables for voltage 660 V TU 16.K73.05-93).

The closest analogue is a power cable that contains aluminum or copper conductive conductors of flexibility class 1 or 2 (conductive copper and aluminum conductors for cables, wires and cords. GOST 22483-77), coated with insulation made of polyethylene or cross-linked polyethylene or PVC compound and twisted into a core over which a sheath of PVC compound is applied (Power cables with plastic insulation GOST 16442-80).

The disadvantage of this power cable is that it is intended for operation only in fixed installations and is not intended for operation in non-stationary installations. This is due to the fact that the insulation and sheath of this power cable is made of materials having low elongation and low elasticity, which does not allow the power cable to be used in conditions where frequent bending is possible, and as a result, there are limitations in the design of the power cable for flexibility class of conductors no more than 2nd class (Conductors made of copper and aluminum for cables, wires and cords. GOST 22483-77).

Information revealing the essence of a utility model

The problem to which the claimed utility model is directed is to create a power cable design that has the increased flexibility necessary to operate the power cable in an environment where frequent bends are possible and, as a result, expand its field of application.

The technical result is achieved in that in a power cable containing aluminum or copper conductive conductors coated with insulation and twisted into a core over which a sheath is applied, the insulation and sheath are made of thermoplastic polyurethane elastomer.

A distinctive feature of the claimed utility model is that the insulation and sheath of the power cable are made of thermoplastic polyurethane elastomer, which in turn leads to increased flexibility of the power cable necessary for operation in conditions where frequent bending is possible.

In addition, in the particular case of the implementation of the utility model, the power cable may further comprise a release coating on top of the insulation.

In addition, in the particular case of the implementation of the utility model, the release coating can be made of talc.

In addition, in the particular case of the implementation of the utility model, the conductive conductors can be made of 3 or more flexibility classes (GOST 22483-77).

As a result of the search by patent and scientific and technical sources of information, no solutions were found containing the entire set of essential features of the independent claim of the utility model formula, which allows us to conclude that the claimed utility model meets the patentability criterion of “novelty”.

Utility Model Implementation

The utility model is illustrated in the drawing, which shows a power cable in section.

The power cable contains aluminum or copper conductive conductors 1, coated with insulation 2 made of thermoplastic polyurethane elastomer, a sheath 3 made of thermoplastic polyurethane elastomer is applied over twisted insulated conductors. Additionally, the power cable may be provided with a release coating 4 located on top of the insulation 2.

Power cable is made as follows

Conductors 1 are made by methods known in the cable industry. The application of insulation conductors 1 insulation 2 is carried out on extrusion equipment. The twisting of insulated cores is carried out on a general twisting machine. The overlay 3 is carried out on extrusion equipment. The application of the release coating 4 on top of the insulation 2 is carried out by passing the workpiece of the power cable through a bathtub filled with release material.

In the manufacture of power cables, materials traditionally used in the cable industry are used.

Thus, the claimed technical solution allows to increase the flexibility of the power cable necessary for its operation in conditions where frequent bends are possible and as a result allows to expand the scope of its application.

The claimed technical solution meets the patentability criterion of "industrial applicability", since its implementation can be carried out using well-known means of production, materials and technologies.

Claims (4)

1. Power cable containing aluminum or copper conductive cores coated with insulation and twisted into a core over which a sheath is applied, characterized in that the insulation and sheath are made of thermoplastic polyurethane elastomer. 2. The cable according to claim 1, characterized in that it further has a release coating on top of the insulation. 3. The cable according to claim 2, characterized in that the release coating is made of talc. 4. The cable according to claim 1, characterized in that the conductive conductors are made of 3rd or more flexibility class (GOST 22483-77).