RU66855U1 - THERMOELECTRODE CABLE - Google Patents

Abstract

The utility model relates to cables having conductors made of materials with different electrical conductivity. The technical task is to increase the heat resistance and fire safety. The cable includes a protective sheath and at least two pairs of insulated current-carrying conductors made of chromel and copel. The cable is characterized in that the core insulation is made of PVC compound, combining insulating and heat-resistant properties, and the protective sheath is made of non-combustible plastic compound. The technology for the production of plastic compounds has know-how. 1 business center, 1 ill.

Description

The proposed utility model relates to electrical engineering, in particular, to thermoelectrode cables equipped with a protective sheath.

Known cables containing insulated conductors of alloys with different conductivity (see, for example, RF patent for PM No. 30459, 2003).

The closest, in our opinion, to the proposed utility model is a thermoelectrode cable containing insulated current-carrying conductors made of chromel and copel, and a protective sheath made of polyvinyl chloride (PVC) plastic compound (see RF patent for utility model No. 56057, 2006, prototype) .

The disadvantages of the prototype include the fact that it is not heat-resistant and fireproof at elevated ambient temperatures, because it uses ordinary PVC plastic compounds designed for normal conditions.

The technical task is to increase the heat resistance and fire safety of the thermoelectrode cable.

The technical result is achieved in that in a thermoelectrode cable, including insulated current-carrying conductors, some of which are made of chromel, and the rest are made of copel, and a protective sheath made of PVC compound, the insulation of the wires is made of heat-resistant plastic compound, and the protective sheath is made of non-combustible plastic compound.

The device thermoelectrode cable shown in the drawing. In a specific embodiment, the thermoelectrode cable includes four conductors 1 of chromel and four conductors 2 of copel. The cores have insulation 3 made of heat-resistant polyvinyl chloride plastic compound with the IT-105 symbol (insulating, heat-resistant), the optimal composition of which was selected experimentally. Insulated conductors are twisted into a bundle so that next to the conductor

of chromel there was at least one core of copel. The tourniquet is placed inside the shell 4, which is made of non-combustible plastic compound brand NGP.

New in this cable is the insulation of current-carrying conductors made of plastic, combining insulating and heat-resistant properties, and the protective sheath - from non-combustible plastic. The proposed technical solution increases the heat resistance and fire safety of the cable while providing the necessary strength without increasing dimensions.

The thermoelectrode cable described above is designed to control the parameters of technological processes in fire hazardous conditions at elevated ambient temperatures, for example, in metallurgy or oil refining, when cables of other brands do not provide fire safety and heat resistance. Laying the cable, cutting the ends and connecting the cores to the control system is carried out in accordance with the design and technical documentation and electrical installation rules.

In accordance with the scheme described above, the enterprise CJSC Rezhevskoy Cable Plant (Rezh, Sverdlovsk Region) made an experimental batch of cable products. Cable tests showed a good result.

The technical solution described above, meeting the criteria of novelty and industrial applicability, is proposed for legal protection by a utility model patent.

Claims (1)

Thermoelectrode cable, including insulated current-carrying conductors made of chromel and copel, a protective sheath made of PVC compound, characterized in that the core insulation is made of heat-resistant plastic compound, and the protective sheath is made of non-combustible plastic compound.