SU866579A1 - Cable for emergency cutting-off - Google Patents

Description

The invention relates to electrical engineering, in particular cable technology, and can be used for supplying a signal voltage with the withdrawal of automated mechanisms in accidents in mines or tripping pulse to the panel ⁵ yn alignment.

Known contact cable for circuit closure under the influence of pressure, consisting of two or three insulated cores, exposed on alternating sections along the length of ¹⁰ cores. A metal braid sequentially superimposed on top of the cores, distanced from them by an open spiral of elastic tape or bundle, and an outer sheath.

When pressure is applied to the cable, the bundle collapses and the metal braid, touching the exposed sections of the cores, leads to a short circuit between them C1J

However, to ensure a short circuit between the conductors in such a cable, it is necessary that the pressure is generated over a sufficiently large length of it, so the efficiency of using such a cable for emergency shutdown is low. ₄

In addition, when breaking the braid wires, they have their dangling ends. can touch exposed areas, cores, causing spontaneous circuit closure.

A cable is also known, consisting of a sheath in the form of a hollow elastic tube, on the inner surface of which two or more contact cores are glued, which are a core of synthetic material on which a wire braid is applied.

When pressure is applied to the cable, the cores come into contact, closing the circuit with the signal turned on or another device.

Such a cable provides an alarm circuit closure when pressure is applied to the cable in any place, regardless of the length of the deformable section [21

A disadvantage of the known cable is the low reliability in operation and considerable complexity in the manufacture.

This is because the heterogeneity of the materials from which the core and the sheath and the round shape of the core do not provide reliable adhesion to each other, even if the core is embedded into the shell to a considerable depth.

In addition, when rewinding and sharp; bends of the cable does not exclude the possibility of veins from the sheath at the weakest points _F which, subsequently, sagging under their own weight, touch the rest of the wires, closing the alarm circuit and causing a false response of the disconnecting equipment.

The purpose of the invention is to increase the reliability of the cable.

This goal is achieved by the fact that the hollow cable sheath made of elastic insulating material in the cross section has the shape of a narrow circle sector, and the electrically conductive elements are made of elastic electrically conductive material located inside the sheath so that their longitudinal axes coincide with the axis of the cable . The electrically conductive elements are pressed into opposite flat walls of the sheath and are located against each other at a certain distance so that there is an air gap between them that does not interrupt along the entire length of the cable. In cross section, the electrically conductive elements have the shape of a circle segment, which provides the best conditions for their contact when the alarm circuit is closed. The segment ends with a protrusion with a narrowed part to the center of the base.

The segment part fits snugly to the inner wall of the shell and plays the role of a conductor, and the protrusion of the expanded part is pressed into the shell. In order to increase the electrical conductivity, several copper wires were pressed into the segment part, and to prevent the cable from stretching during manufacturing and rewinding, bundles of strong synthetic threads were introduced into the protrusions of the electrically conductive elements.

In FIG. 1 shows a cable of the proposed design; in FIG. 2 - the same, in a deformed state.

The cable contains two shaped electrically conductive elements 1, consisting of a segment part with copper wires 2 pressed into it and a protrusion with a bundle 3 embedded therein. The electrically conductive elements with their protrusions are pressed into opposite flat walls of the sheath 4 and are located against each other so that between them there is an air gap.

The sharp corners of the shell are rounded to avoid fracture in these places during deformation, and the thickness of the shell is selected based on the elastic properties of the material. Ala for its manufacture and requirements for the stability of the cable structure, easy resistance to compression and full restoration of its shape after depressurization.

The electrically conductive elements must be made of material cp ^^ YuO Ohm.cm and can be made of electrically conductive rubber or an electrically conductive polyvinyl chloride composition.

Due to the shape of the sheath in the form of a sector of a circle, the cable during laying takes a strictly defined position, namely, one of the flat sides down, in which the compressive load is applied to the cable only in the direction perpendicular to the opposite flat side, bringing it closer to the other side until contact between conductive elements. The continuous air gap between the electrically conductive elements ensures their good isolation from each other in the absence of compressive loads and circuit closure ”on any part of the cable along its length.

The uniformity of the materials for the electrically conductive elements and the casing and the partial incorporation of the electrically conductive elements into the casing ensures their reliable adhesion.

ABOUT

Claims (2)

The invention relates to electrical engineering, in particular cable engineering, and can be used to signal a voltage relieving from automated mechanisms in the event of an accident in mines or a disconnecting pulse to the control panel. A contact cable for the circuit of a circuit under pressure is known, consisting of two or three insulated cores, exposed in alternating lengths of cores. A metal braid is laid over the cores, distant from them by an open spiral of elastic tape or tow, and an outer sheath. When pressure is applied to the cable, the braid is wrinkled and the metal braid touching the bare sections of the cores leads to a short circuit between them. However, to ensure short circuit between the wires in such a cable, it is necessary that the pressure be created at a sufficiently large distance, therefore the efficiency of using such cable for emergency shutdown is small .., In addition, when the braid wires are destroyed, they are their broken ends. may touch bare spots, cores, causing a spontaneous short circuit. Also known is a cable consisting of a sheath in the form of a hollow elastic tube, to the inner surface of which two or more contact pins are glued, which are a core made of synthetic material on which the braid is applied. When pressing on the cable, the cores are in contact, closing the circuit with the signal on or another device. Such a cable ensures that the signaling circuit closes when pressure is applied to the cable in any place, regardless of the length of the deformable section 21. A disadvantage of the known cable is the low reliability in operation 3 and considerable labor intensity during manufacture. This is due to the fact that the heterogeneity of the materials from which it is made, the core and the shell, and the round shape of the cores do not ensure reliable adhesion to each other, even if the core is embedded in the shell to a significant depth. In addition, when rewinding and sharp; bending of the cable, it is not excluded that the strands were peeled off from the sheath in the weakest places, which later, sag under their own weight, relate to the other conductors, closure of the alarm circuit and causing false tripping of the tripping equipment. The purpose of the invention is to improve the reliability of the cable. This goal is achieved by the fact that the floor of the cable sheath, made of elastic insulating material, has the shape of a narrow sector of a circle in cross section, and the electrically conductive elements are made of elastic electrically conductive material, are located inside the sheath so that their longitudinal axes coincide with cable axis The electrically conductive elements are pressed into opposite flat walls of the shell and are located opposite each other at some distance so that there is an air gap between them that are not interrupted along the entire length of the cable. In cross section, the electrically conductive elements have the shape of a circle segment, which provides the best conditions for their contact when the alarm circuit is closed. The segment ends with a projection with a narrowed portion toward the center of the base. The segmented part fits snugly to the inner wall of the shell and acts as a conductor, and the protrusion of the expanded part is pressed into the shell. In order to increase the electrical conductivity, several copper wires are pressed into the segment part, and to prevent cable stretching during fabrication and rewinding, bundles of durable synthetic filaments are embedded in the projections of the electrically conductive elements. FIG. 1 shows the cable of the proposed design; in fig. 2 - the same, in the deformed state. The cable contains two shaped electrically conductive elements 1, consisting of a segment part with copper wires 2 pressed into it and protrusions embedded in a harness 3. Electrically conducting elements are pressed into opposite flat shells of the shell 4 with their projections and are opposite each other so that there is an air gap between them. The sharp corners of the shell are rounded to prevent its fracture in these places during deformations, and the thickness of the shell is selected on the basis of the elastic properties of the material for its manufacture and the requirements for the stability of the cable design, easy crushing under pressure and full recovery of its shape after pressure relief. Electrically conductive elements must be made of OM..CM material and may be made of electrically conductive rubber or electrically conductive polyvinyl chloride composition. Due to the shape of the shell in the form of a sector of a circle, the cable, when laying, occupies a strictly defined position, namely one of the flat sides down, in which a compressive load is applied to the cable only in the direction perpendicular to the opposite flat side, bringing it closer to the other side until the appearance contact between electrically conductive elements. The continuous air gap between the electrically conductive elements ensures their good isolation from each other in the absence of compressive loads and short circuit on any part of the cable along its length. The homogeneity of materials for electrically conductive elements and the shell and the partial introduction of electrically conductive elements into the shell ensures their reliable mutual adhesion. The invention The cable for emergency shutdown, consisting of a hollow shell made of an elastic insulating material, inside which are electrically conductive elements, is enough for the fact that, in order to increase the reliability of the cable, made in the form of a sector of a circle, on the opposite radial sides of which there are electrically conductive elements, while the latter are made of elastic material with a specific volume resistance of not more than 100 Ohm.cm, have in their transverse shape 5 8665796 circle segment with traletized high-level information sources, stupid at his base w, pressed into account during the examination into the wall of its enlarged shell1. German Patent M1765831 part, in the last implemented hardened y-class. H O1 L 35/14, 1973. the harness, and in the segment part of the depresso-5 2. Patent of England No. 996167, metal conductors. kp. H 2B, 1973. g. Fig2