RU149381U1 - THERMOELECTROD WIRE - Google Patents

Abstract

1. Thermoelectrode wire containing a pair of insulated conductive cores of metals with different conductivity, characterized in that it is equipped with a protective sheath made of polyvinyl chloride plastic compound with increased mechanical strength. 2. Thermoelectrode wire according to claim 1, characterized in that said protective sheath is made of non-combustible polyvinyl chloride plastic compound. 3. Thermoelectrode wire according to claim 1, characterized in that one conductive core is made of copper, the other conductive core is made of constantan. 4. Thermoelectrode wire according to claim 1, characterized in that one conductive core is made of copper, the other conductive core is made of copel. Thermoelectrode wire according to claim 1, characterized in that one conductive core is made of chromel, the other conductive core is made of alumel. Thermoelectrode wire according to claim 1, characterized in that one conductive core is made of chromel, the other conductive core is made of copel. 7. Thermoelectrode wire according to claim 1, characterized in that one conductive core is made of copper, the other conductive core is made of TP alloy.

Description

The proposed utility model relates to electrical engineering, specifically to thermoelectrode wires.

Known multicore thermoelectrode cable containing a bundle of insulated conductive wires of metals with different conductivity (see, for example, RF patent for PM No. 118106). The specified multicore cable is too bulky and inconvenient for the installation of measuring systems, where it is enough to use a thermoelectrode wire with two wires. In addition, the use of stranded cable for such systems leads to unreasonably high financial costs.

Closest to the proposed utility model is a thermoelectrode wire according to the patent of the Russian Federation for PM No. 95171 - prototype. This wire contains a pair of conductive wires of metals with different conductivity. These cores are insulated with polyvinyl chloride (hereinafter - PVC) plastic compound of high heat resistance. To enhance the heat resistance, the core insulation is made in the form of tubes with reinforced wall thickness.

The disadvantages of the prototype include insufficient mechanical protection of conductive conductors (hereinafter referred to as veins), which does not even provide reinforced insulation thickness. In addition, double thickness insulation, which is quite expensive, does not provide the necessary fire safety for this wire.

The technical task is to increase the mechanical security of the thermoelectrode wire, increasing its fire safety.

The technical result is achieved by the fact that a thermoelectrode wire containing a pair of insulated conductive wires of metals with different conductivity is equipped with a protective sheath made of polyvinyl chloride plastic compound with increased mechanical strength. In a wire, said protective sheath is made of non-combustible polyvinyl chloride plastic compound.

In a wire, one conductive core may be of copper, the other core of constantan. In a wire, one conductive core may be made of copper, the other core may be made of copel. In a wire, one conductive core may be of chromel, the other core of alumel. In a wire, one conductive core may be of chromel, the other core of copel. In the wire, one conductive core may be made of copper, the other core - from TP alloy.

The device of the utility model is illustrated by the drawing, which schematically (not to scale) shows the arrangement of the thermoelectrode wire (hereinafter referred to as the wire).

In a specific embodiment, the wire includes a core 1 of copper and a core 2 of constantan. Cores 1, 2 are provided with insulation 3 of the usual standard thickness made of PVC compound I-40-13A. The wire is equipped with a protective sheath 4 of PVC plasticate grade O-40, which has a fairly reliable mechanical strength.

As an option, for use in conditions of increased fire hazard, the shell 3 can be made of PVC compound of the brand NGP-30-32 or plastic compound NGP-40-32. Plastic compounds of the NGP series are non-combustible and quite durable.

New in the proposed utility model is the protection of insulated cores by applying a sheath made of mechanically strong PVC compound, which reduces the thickness of the insulation. In this case, the outer diameter of the wire and the weight consumption of materials practically does not increase. The proposed technical solution significantly increases the mechanical security of the wire without increasing its cost. The manufacture of a shell made of non-combustible plastic compound of the NGP brand increases the fire protection of the wire. The recipe and technology of the above plastic compounds improved by the applicant and is protected in know-how. The wire is used in accordance with the design and construction documentation and electrical installation rules.

In accordance with the scheme described above, the applicant made a pilot batch of thermoelectrode wires with the following pairs of conductors with different conductivity: copper-constantan, copper-copel, chromel-alumel, chromel-copel, copper-TP (alloy). Tests showed a good result.

Currently, the applicant is forming a portfolio of orders for thermoelectrode wires with the indicated consumer properties.

The wire device described above that meets the criteria of novelty and industrial applicability is proposed for legal protection by a utility model patent.

Claims (7)

1. Thermoelectrode wire containing a pair of insulated conductive cores made of metals with different conductivity, characterized in that it is equipped with a protective sheath made of polyvinyl chloride plastic compound with high mechanical strength. 2. The thermoelectrode wire according to claim 1, characterized in that said protective sheath is made of non-combustible polyvinyl chloride plastic compound. 3. The thermoelectrode wire according to claim 1, characterized in that one conductive core is made of copper, the other conductive core is made of constantan. 4. The thermoelectrode wire according to claim 1, characterized in that one conductive core is made of copper, the other conductive core is made of copel. 5. The thermoelectrode wire according to claim 1, characterized in that one conductive core is made of chromel, the other conductive core is made of alumel. 6. The thermoelectrode wire according to claim 1, characterized in that one conductive core is made of chromel, the other conductive core is made of copel. 7. The thermoelectrode wire according to claim 1, characterized in that one conductive core is made of copper, the other conductive core is made of TP alloy.

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