RU83875U1 - CABLE FOR CONTROL AND CONTROL CIRCUITS - Google Patents

Abstract

1. An electric cable containing a core of twisted insulated thermoplastic halogen-free material based on a polymer composition of conductive conductors, on top of which a belt insulation, a shield and a sheath of thermoplastic halogen-free material based on a polymer composition are sequentially applied, characterized in that the insulated conductors are twisted in pairs, twisted into elementary four-pair bundles, which in turn are twisted into a core. ! 2. The cable according to claim 1, characterized in that each insulated core in all pairs of each elementary bundle has its own main color, different from the main color of the insulation of the strands of other pairs of the elementary bundle, and also has an additional marking different from the additional marking of the insulation of the veins of other elementary beams. ! 3. The cable according to claim 1, characterized in that the conductive wires are made of soft tinned copper wire. ! 4. The cable according to claim 1, characterized in that a winding of glass tape or fiberglass is applied over the belt insulation. ! 5. The cable according to claim 1, characterized in that the belt insulation is made in the form of a winding of fiberglass or fiberglass. ! 6. The cable according to claim 1, characterized in that on top of each conductive core contains a thermal barrier made of mica tape or fiberglass. ! 7. The cable according to claim 1, characterized in that the screen is made of aluminum-polymer tape or in the form of a braid of tinned copper wires.

Description

The utility model relates to cable technology, namely, to the design of electric cables mainly for control and monitoring circuits intended for connecting measuring transducers and test mechanisms to the software and hardware of automatic process control systems (APCS).

Known control cables of the KPV brand, having conductive copper conductors insulated with polyethylene, twisted into a core with concentric twists and a sheath made of polyvinyl chloride plastic compound (PVC) plastic compound. In each layer there is one counting and one guide core, differing in the color of isolation from all other wires in the layer and between each other. (Belorusov N.I. et al. “Electrical Cables, Wires and Cords”; Energoizdat, M., 1987, p. 536).

However, such cables have insulated conductors that are not twisted into pairs and do not have a distinctive coloring of the insulation of each core, which necessitates the continuity of each core during installation work.

The closest known feature to the proposed combination of features is an electric cable that contains a core of twisted insulated thermoplastic halogen-free material of conductive conductors, on top of which a belt insulation and a sheath of thermoplastic halogen-free material based on a polymer composition are sequentially applied (RF patent for utility model No. 69306 , 2007).

These cables have high fire safety: no spread of combustion when laying in bundles and emit a small amount of smoke and corrosive combustion products.

A significant drawback of such a cable is the disordered structure of the core, which causes difficulties (the need for continuity of each core) during installation work.

The task was to develop a fireproof design of the electric cable with an ordered core structure, which allows to facilitate and improve installation and inspection work.

The technical result is achieved in that in an electric cable containing a core of twisted insulated thermoplastic material based on a polymer composition of conductive conductors, on top of which a belt insulation, a shield and a sheath of thermoplastic halogen-free material based on a polymer composition are sequentially applied, insulated conductors twisted in pairs, twisted into elementary four-pair bundles, which in turn are twisted into a core.

In a preferred embodiment of the cable, each insulated core in all pairs of each elementary bundle has its own main color, different from the main color of the insulation of the veins of other pairs of elementary

beam, and also has an additional marking, different from the additional marking of the insulation of the cores of other elementary bundles.

In one embodiment, the cable may have conductive cores of soft tinned copper wire.

In another embodiment, the cable may have a winding of glass tape or mica tape on top of the waist insulation or as waist insulation.

In a further embodiment, the cable may have on top of each conductive core a thermal barrier of mica tape or fiberglass.

The screen can be made of aluminum-polymer tape or in the form of a braid of tinned copper wires.

Thermoplastic halogen-free material is characterized by the following indicators:

acid pH is 5.0-6.2;

HCN release during combustion no more than 0.5 mSim / mm.

The utility model is illustrated in the drawing, which shows a cable in section. The cable contains conductive conductors 1, on each of which insulation 2 is applied from a halogen-free polymer composition. Insulated cores are twisted in a pair, which are twisted into elementary four-pair bundles 3, the latter, in turn, twisted into a core 4. Elementary bundles are wrapped with threads or ribbons of different colors 5. A belt insulation 6 of polymer material is sequentially applied over the core, screen 7 of metal or metal-polymer tapes with tinned copper contact wire 8, sheath 9 from a halogen-free polymer composition.

Cable manufacturing technology is based on the use of industrial cable equipment and is as follows.

Wire drawing and annealing for conductive conductors 1 on drawing machines with annealing installation.

Conductors 1 are insulated with a halogen-free polymer composition 2 on an extrusion line having an extruder with a screw diameter of (45-120) mm.

Insulated cores are twisted in a pair, pairs in elementary bundles 3, which are wrapped with threads or ribbons 5 and twisted into a core 4 on twisting machines of a frame lantern type or SZ-twisting machines.

The belt insulation 6 of polymer material, the screen 7 of a metal or metal polymer tape with tinned copper contact wire 8 is applied on twisting machines or combined with the operation of sheathing 9. Sheath 9 of a halogen-free polymer composition is superimposed on an extrusion line with a screw diameter ( 90-250) mm.

The ordered structure of the cable core allows you to identify each of the insulated conductive conductors and leads to

the technical result, which consists in simplifying installation and repair work when splicing cable sections, as well as control work.

Claims (7)

1. An electric cable containing a core of twisted insulated thermoplastic halogen-free material based on a polymer composition of conductive conductors, on top of which a belt insulation, a shield and a sheath of thermoplastic halogen-free material based on a polymer composition are sequentially applied, characterized in that the insulated conductors are twisted in pairs, twisted into elementary four-pair bundles, which in turn are twisted into a core. 2. The cable according to claim 1, characterized in that each insulated core in all pairs of each elementary bundle has its own main color, different from the main color of the insulation of the strands of other pairs of the elementary bundle, and also has an additional marking different from the additional marking of the insulation of the veins of other elementary beams. 3. The cable according to claim 1, characterized in that the conductive wires are made of soft tinned copper wire. 4. The cable according to claim 1, characterized in that a winding of glass tape or fiberglass is applied over the belt insulation. 5. The cable according to claim 1, characterized in that the belt insulation is made in the form of a winding of fiberglass or fiberglass. 6. The cable according to claim 1, characterized in that on top of each conductive core contains a thermal barrier made of mica tape or fiberglass. 7. The cable according to claim 1, characterized in that the screen is made of aluminum-polymer tape or in the form of a braid of tinned copper wires.