RU126499U1 - THERMOELECTRODE CABLE - Google Patents

Abstract

1. Thermoelectrode cable, including current-carrying conductors made of metals with different conductivity, aluminum-screen shield, insulation and a sheath made of low combustibility plastic with low smoke emission, characterized in that each current-carrying core is made of thin wires twisted together, and the total cross-section of these wires equivalent to the cross section set for the current-carrying conductor. 2. Thermoelectrode cable according to claim 1, characterized in that the current-carrying core is twisted from seven wires with a diameter of 0.5 mm each. Thermoelectrode cable according to claim 1, characterized in that the current-carrying core is twisted from seven wires with a diameter of 0.4 mm each. Thermoelectrode cable according to claim 1, characterized in that the current-carrying core is twisted from seven wires with a diameter of 0.67 mm each. Thermoelectrode cable according to claim 1, characterized in that part of the cores is made of copper, the remaining cores are made of constantan. Thermoelectrode cable according to claim 1, characterized in that part of the cores is made of chromel, the remaining cores are made of alumel. Thermoelectrode cable according to claim 1, characterized in that part of the cores is made of chromel, the remaining cores are made of copel.

Description

The proposed utility model relates to electrical engineering, in particular, to thermoelectrode cables having a shield, insulation and a shell of low combustibility with low smoke emission, the so-called LS type (Low Smoke).

Known cable type LS, containing insulated conductors, a shield and a non-combustible sheath made of PVC compound, which has a reduced smoke emission (see RF patent for PM No. 20404). Closest to the proposed utility model is a thermoelectrode cable containing a sheath with low flammability, an aluminum-flex shield, insulated conductors with different conductivities (see, RF patent for PM No. 56051 - prototype).

The disadvantages of the prototype include the fact that the core wire gives the thermoelectrode cable undesirable rigidity. As a result, the complexity of mounting the cable increases, and the reliability of connecting the cores to the measuring devices decreases.

The technical task is to reduce the complexity and increase the reliability of the installation of thermoelectrode cable by ensuring its flexibility.

The technical result is achieved by the fact that in a thermoelectrode cable, including current-carrying conductors made of metals with different conductivity, an alumoflex shield, insulation and a sheath made of low combustibility plastic with low smoke emission, each current-carrying core is made of thin wires twisted together from the corresponding metal, while the total cross section of these wires is equivalent to the cross section set for the current-carrying core.

In a thermoelectrode cable, the current-carrying core can be twisted from seven wires with a diameter of 0.5 mm each. In another version of the cable, the current-carrying core can be twisted from seven wires with a diameter of 0.4 mm each. In another version of the cable, the current-carrying core can be twisted from seven wires with a diameter of 0.67 mm each.

In the thermoelectrode cable, part of the cores can be made of copper, the rest - from constantan. In another cable, part of the cores may be of chromel, the rest of the cores of alumel. In another cable, part of the cores may be of chromel, the rest of the cores of kopel.

The device of the utility model is illustrated by the drawing, which schematically (not to scale) shows a cross section of a flexible thermoelectrode cable.

In a specific embodiment, the thermoelectrode cable includes eight current-carrying conductors 1, four of which are chromel, and the other four are kopel. The chromel core is made of seven thin chromel wires 2 twisted together. The coffin core is made of seven thin 3 cigar wires twisted together. The cores are insulated 4 from insulating PVC compound with low smoke emission. The insulated conductors are twisted into a bundle so that next to the chromel conductor there is at least one coffin conductor. The cable has a protective sheath 5, which is made of PVC plastic compound type NG-LS low flammability with reduced smoke emission. The cable has a screen 6 of alumoflex, made by sequential application.

In accordance with the scheme described above, the applicant made an experimental batch of flexible thermoelectrode cables of the following types:

- with a current-carrying core of seven twisted wires with a diameter of 0.5 mm (instead of a single-wire core with a diameter of 1.4 mm), materials: copper-constantan;

- with a current-carrying core of seven twisted wires with a diameter of 0.4 mm (instead of a single-wire core with a diameter of 1.13 mm), materials: chromel-alumel;

- with a current-carrying core of seven twisted wires with a diameter of 0.67 mm (instead of a single-wire core with a diameter of 1.76), materials: chromel-copel.

Tests showed a good result.

New in the proposed thermoelectrode cable is the implementation of current-carrying conductors of thin wires. The total cross section of the wires is equivalent to the installed cross section of the core. So, the total cross section of seven wires with a diameter of 0.5 mm is equivalent to the cross section of a core with a diameter of 1.4 mm.

The proposed solution dramatically increases the flexibility of the cable. Flexibility reduces the complexity of installation and increases the reliability of connecting the cable to the devices. The cable is used in accordance with the design and construction documentation and installation rules for electrical installations in places where the requirements for fire hazard and smoke are increased.

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

Claims (7)

1. Thermoelectrode cable, including current-carrying conductors made of metals with different conductivity, aluminum-screen shield, insulation and a sheath made of low combustibility plastic with low smoke emission, characterized in that each current-carrying core is made of thin wires twisted together, and the total cross-section of these wires equivalent to the cross section set for the current-carrying core. 2. Thermoelectrode cable according to claim 1, characterized in that the current-carrying core is twisted from seven wires with a diameter of 0.5 mm each. 3. The thermoelectrode cable according to claim 1, characterized in that the current-carrying core is twisted from seven wires with a diameter of 0.4 mm each. 4. Thermoelectrode cable according to claim 1, characterized in that the current-carrying core is twisted from seven wires with a diameter of 0.67 mm each. 5. The thermoelectrode cable according to claim 1, characterized in that part of the cores is made of copper, the remaining cores are made of constantan. 6. Thermoelectrode cable according to claim 1, characterized in that part of the cores is made of chromel, the remaining cores are made of alumel. 7. Thermoelectrode cable according to claim 1, characterized in that part of the cores is made of chromel, the remaining cores are made of copel.

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