RU59316U1 - FLEXIBLE WIRE FOR PORTABLE EARTHING - Google Patents

Abstract

The utility model relates to the field of electrical engineering, namely to the design of flexible wires that are used to ensure reliable, safe and continuous connection to the grounding devices of moving metal parts of electrical installations, electrical enclosures, various machines and mechanisms that are normally not energized, but which can Damage to the insulation is energized. The technical result consists in increasing the resistance of the flexible ground wire to mechanical and aggressive environmental influences during operation at an air temperature of minus 50 ° C to plus 50 ° C, and as a result, increasing electrical safety when working with movable equipment items that require obligatory grounding, and also allows to increase the service life of a flexible grounding wire. The flexible ground wire contains a flexible copper multi-wire core and a protective sheath made of a transparent thermoplastic polyurethane elastomer. The proposed design of a flexible ground wire with a protective sheath made of transparent thermoplastic polyurethane elastomer allows to increase the resistance of the flexible ground wire to mechanical stresses and aggressive environmental influences during operation at air temperatures from minus 50 ° С to plus 50 ° С, and how consequence, to increase electrical safety when working with movable items of equipment that require mandatory grounding, and also allows to increase the service life of bkogo ground wire. The transparency of the protective sheath provides during operation a visual control of the integrity of the wires in the upper coil of a copper flexible multi-wire core.

Description

The technical field to which the utility model relates.

The utility model relates to the field of electrical engineering, namely to the design of flexible wires that are used to ensure reliable, safe and continuous connection to the grounding devices of moving metal parts of electrical installations, electrical enclosures, various machines and mechanisms that are normally not energized, but which can Damage to the insulation is energized.

State of the art

Known flexible non-insulated wire brand MG, which is made in the form of a flexible copper multi-wire conductive core (non-insulated flexible copper wires TU 16-705.466-87).

The disadvantage of this wire is that during its operation as a portable ground, the wire is subjected to mechanical stress in the form of abrasions and kinks, during which wire strand breaks occur, as well as that the conductive properties of the core deteriorate when exposed to an aggressive environment, which can lead to a decrease in the reliability of grounding of equipment and thereby increases the risk of electric shock to people and equipment.

This is due to the fact that the flexible non-insulated wire does not have a protective sheath and all mechanical and aggressive environmental influences fall directly on the multi-wire core, thereby gradually destroying it, and, as a result, reducing the grounding reliability of various moving equipment components that require mandatory grounding as well as reduced service life

wires, reduced electrical safety, and in connection with this, the risk of electric shock to people and equipment increases.

Information revealing the essence of a utility model

The technical result of the utility model is to increase the resistance of a flexible uninsulated ground wire to mechanical stresses and aggressive environmental influences during operation at air temperatures from minus 50 ° С to plus 50 ° С, and as a result, increase electrical safety when working with moving equipment parts , which require mandatory grounding, as well as increasing the life of the flexible ground wire. The transparency of the protective sheath provides during operation a visual control of the integrity of the wires in the upper coil of a copper flexible multi-wire core.

The technical result is achieved by the fact that a flexible bare wire made of a flexible copper multi-wire core of flexibility class 3, 4 or 5 (conductive copper and aluminum conductors for cables, wires and cords. GOST 22483-77), additionally contains a protective sheath.

A distinctive feature of the claimed utility model is that a protective flexible sheath made of a transparent thermoplastic polyurethane elastomer is imposed on a copper flexible multi-wire core of the ground wire, which is resistant to aggressive environments and mechanical stresses necessary to protect the copper flexible multi-wire core of the ground wire from abrasion and impact aggressive environment during operation at air temperatures from minus 50 ° С to plus 50 ° С, which in turn leads to This leads to an increase in the grounding reliability of various movable equipment components that require mandatory grounding, and as a result, to an increase in electrical safety, as well as an increase in the service life of a flexible grounding wire. The transparency of the containment provides

During operation, visual control of the integrity of the wires in the upper coil of a copper flexible multi-wire core.

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 flexible ground wire consists of a flexible copper multi-wire core 1 and a protective sheath 2 made of a transparent thermoplastic polyurethane elastomer.

The flexible ground wire is made as follows

Flexible copper multi-wire core 1 is made by methods known in the cable industry. Drawing on a flexible copper multi-wire core 1, a protective sheath 2 made of a transparent thermoplastic polyurethane elastomer is carried out on extrusion equipment.

In the manufacture of a flexible ground wire, materials traditionally used in the cable industry are used.

Thus, the proposed design of a flexible ground wire with a protective sheath made of transparent thermoplastic polyurethane elastomer allows to increase the resistance of a flexible ground wire to mechanical stresses and the effects of an aggressive environment during operation at air temperatures from minus 50 ° С to plus 50 ° С , and as a result, to increase electrical safety when working with movable items of equipment that require mandatory grounding, and also allows you to increase the service life of flexible ground wire. Transparency of the containment during

operation visual control of the integrity of the wires in the upper layer of a copper flexible multi-wire core.

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 (1)

Flexible ground wire, consisting of a copper flexible multi-wire core, characterized in that a protective sheath is made over the core made of a transparent thermoplastic polyurethane elastomer.