RU149103U1 - FLEXIBLE THERMOELECTRODE WIRE - Google Patents

Abstract

1. A flexible thermoelectrode wire containing a protective sheath, a pair of flexible insulated conductive conductors with different conductivity, twisted from wires with different conductivity, characterized in that the insulation of the conductive conductors and the protective sheath are made of cold-resistant polyvinyl chloride plastic compound. 2. The wire according to claim 1, characterized in that the insulation of the conductive conductors and the protective sheath are made of cold-resistant polyvinyl chloride plastic compounds, which retain their working properties up to -60 ° C. 3. A wire according to claim 1, characterized in that one conductive core is made of copper, the other conductive core is made of constantan. 4. A wire according to claim 1, characterized in that one conductive core is made of copper, the other conductive core is made of copel. A wire according to claim 1, characterized in that one conductive core is made of chromel, the other conductive core is made of alumel. A wire according to claim 1, characterized in that one conductive core is made of chromel, the other conductive core is made of copel. 7. A 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 flexible thermoelectrode wires.

Known flexible thermoelectrode cable containing a core of twisted insulated conductive wires of metals with different conductivity (see, for example, RF patent for PM No. 118104). The specified cable is too bulky and inconvenient for the installation of simple 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 flexible thermoelectrode wire (hereinafter referred to as the wire) according to the RF patent for ПМ No. 95169 - prototype. This wire contains a pair of insulated conductive cores (hereinafter referred to as cores) with different conductivity, twisted from thin wires. To individualize the core metal, the core insulation is made in the form of plastic tubes of various colors. The wire is equipped with a protective sheath made of polyvinyl chloride (hereinafter - PVC) plastic compound.

The disadvantages of the prototype should include its low cold resistance. The problem is that a thermoelectrode wire with conventional insulation is not suitable for areas of the Far North, where the permissible operating temperature of measuring systems can drop to minus 50 ° C and lower. For such conditions, you need a special wire.

The technical task is to increase the cold resistance of a flexible thermoelectrode wire.

The technical result is achieved in that in a flexible thermoelectrode wire containing a protective sheath, a pair of flexible insulated conductive conductors with different conductivity, twisted from wires with different conductivity, the insulation of the conductive conductors and the protective sheath are made of cold-resistant 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 utility model is illustrated by a drawing, which schematically (not to scale) shows a cross section of a flexible thermoelectrode wire (hereinafter referred to as wires).

In a specific embodiment, the thermoelectrode wire includes a pair of cores 1, 2. Cores 1 are twisted from thin copper wires 3. Cores 2 are twisted from thin constantan wires 4. The cores are equipped with insulation 5 from PVC compound (hereinafter - PVC) plastic compound grade I-60-12 with cold resistance to minus 60 ° C. The wire is equipped with a protective sheath 6 made of PVC plastic compound grade O-60, which also has cold resistance up to minus 60 ° C. The plastic compound of the O-60 series, being cold-resistant, has sufficient mechanical strength.

New in the proposed utility model is the insulation of the conductors and protective sheath of a flexible thermoelectrode wire made of cold-resistant plastic compound with sufficient mechanical strength.

The recipe and technology of these compounds are improved by the applicant and is protected in know-how. The proposed flexible thermoelectrode wire is mainly intended for use in the Far North, at ambient temperatures up to minus 60 ° C. Apply the wire in accordance with the design and construction documentation and electrical installation rules.

In accordance with the above scheme, the applicant made an experimental batch of wires with the following pairs of cores with different conductivity:

copper-constantan, copper-kopel, chromel-alumel, chromel-kopel, copper-TP (alloy). Tests showed a good result.

Currently, the applicant is forming a portfolio of orders for flexible 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. A flexible thermoelectrode wire containing a protective sheath, a pair of flexible insulated conductive conductors with different conductivity, twisted from wires with different conductivity, characterized in that the insulation of the conductive conductors and the protective sheath are made of cold-resistant polyvinyl chloride plastic compound. 2. The wire according to claim 1, characterized in that the insulation of the conductive conductors and the protective sheath are made of cold-resistant polyvinyl chloride plastic compounds, which retain their working properties up to -60 ° C. 3. The 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 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 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 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 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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