RU148497U1 - FLEXIBLE THERMOELECTRODE CABLE - Google Patents

Abstract

1. Flexible thermoelectrode cable, including a protective sheath made of PVC compound, a shield, insulated conductive conductors twisted from metal wires with different conductivity, characterized in that the insulation of the conductors is made of cold-resistant plastic compound, conductors with different conductivity are twisted in pairs, shielded in pairs, twisted into a core equipped with a common screen, laid between the specified core and the protective shell, which is made of cold-resistant and non-combustible plastic. 2. The cable according to claim 1, characterized in that half of the conductive cores are made of copper, the other half of the cores are made of constantan. 3. The cable according to claim 1, characterized in that half of the conductive cores are made of chromel, the other half of the cores are made of alumel. 4. The cable according to claim 1, characterized in that half of the conductive cores are made of chromel, the other half of the cores are made of copel.

Description

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

Known cable containing insulated conductive conductors twisted together in a special way (see RF patent for IZ No. 2490741).

Closest to the proposed utility model is a flexible thermoelectrode cable (hereinafter referred to as the cable) containing pairs of conductive conductors (hereinafter referred to as veins) made of metals with different conductivity (see RF patent for PM No. 118105 - prototype). Each core twisted from thin wires is covered with insulation from polyvinyl chloride (hereinafter - PVC) plastic compound. The insulated conductors are twisted into a core that is shielded to protect against surrounding electric fields. A protective shell made of non-combustible PVC compound is applied to the core.

Tests have shown that this cable does not always ensure the accuracy of measurements when laid next to a source of electromagnetic interference. In addition, for the conditions of the North, a frost-resistant cable is required that can withstand temperatures up to minus 50 ° C, and with increased fire protection.

The technical task is to increase the reliability of the thermoelectrode cable by enhancing the cold resistance, noise immunity, fire safety.

The technical result is achieved in that in a flexible thermoelectrode cable including a protective sheath made of PVC compound, a screen, insulated conductive conductors are twisted from metal wires with different conductivity, core insulation is made of cold-resistant PVC compound, wires with different conductivity are twisted in pairs, shielded in pairs, shielded in pairs twisted into a core equipped with a common screen, laid between the specified core and the protective sheath, which is made of cold-resistant , Non-flammable plastic.

In the cable, half of the cores can be made of copper, the other half - from constantan. In the cable, half of the cores may be of chromel, the other half of alumel. In the cable, half of the cores may be of chromel, the other half of the coffin.

The utility model is illustrated by the drawing, which schematically (not to scale) shows a flexible thermoelectrode cable device (hereinafter referred to as cable). In the simplest specific case, the cable contains cores 1 and cores 2. Cores 1 are made of chromel wires twisted together. The cores 2 are made of twisted together wires of copel. Cores 1, 2 are covered with insulation 3 made of PVC compound I-60-12, which retains insulating and strength properties up to minus 60 ° Celsius. The production technology of this plastic compound has been improved by the applicant and is protected in know-how mode.

Veins 1, 2 are twisted in pairs and equipped with 4 aluminum-screen shields. Pairs of twisted, shielded cores are twisted into a common core, which is equipped with a common screen 5 of alumoflex. A protective sheath 6 is applied to the core. This sheath is made of non-combustible, wear-resistant, cold-resistant PVC compound of the grade NGP HL 50-32 (BP). This plastic compound, manufactured according to the technology improved by the applicant, retains its properties at temperatures up to minus 50 ° C.

What is new in the proposed utility model is that in a flexible thermoelectrode cable, the conductors with different conductivity are twisted and shielded in pairs, then twisted into a common core equipped with a common screen, while the core insulation is made of cold-resistant PVC plastic compound, and the sheath is made of non-combustible cold-resistant PVC plastic compound original development. These solutions ensure the reliability of the cable when installing measuring systems in the Far North in areas where equipment that is a source of electromagnetic interference, such as welding equipment, etc., is operated. Moreover, the proposed cable has increased fire safety. The flexibility of the cable increases the convenience of laying in places with turns, simplifies the cutting of the ends during installation. Apply the cable according to the design and construction documentation and installation rules for electrical installations.

In accordance with the scheme described above, an experimental batch of cables containing pairs of cores of the following metals with different conductivities was manufactured at the enterprise of Rezhevskoy Cable Plant CJSC (Rezh, Sverdlovsk Region):

- copper constantan,

- chromel alumel,

- chromel-kopel.

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 (4)

1. Flexible thermoelectrode cable, including a protective sheath made of PVC compound, a shield, insulated conductive conductors twisted from metal wires with different conductivity, characterized in that the insulation of the conductors is made of cold-resistant plastic compound, conductors with different conductivity are twisted in pairs, shielded in pairs, twisted into a core provided with a common screen, laid between the specified core and the protective shell, which is made of cold-resistant and non-combustible plastic. 2. The cable according to claim 1, characterized in that half of the conductive cores are made of copper, the other half of the cores are made of constantan. 3. The cable according to claim 1, characterized in that half of the conductive cores are made of chromel, the other half of the cores are made of alumel. 4. The cable according to claim 1, characterized in that half of the conductive cores are made of chromel, the other half of the cores are made of copel.

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