RU215269U1 - Explosion Proof Sealed Power Cable - Google Patents

Abstract

The utility model relates to cable technology, namely to the construction of power cables with PVC insulation, for use in electrical installations in hazardous areas of all classes. Explosion-proof power cable contains current-carrying cores, inner and outer sheaths made of polyvinylchloride compound of reduced fire hazard. The cores are sealed with synthetic threads, insulated with low fire hazard PVC compound and twisted into a core around a sealed bundle. The utility model makes it possible to obtain a sealed explosion-proof power cable of a wide range of applications for group laying in cable structures and industrial premises, including in fire and explosion hazardous areas, including with the possibility of maintaining the cable's operability in case of fire. 9 w.p. f-ly.

Description

The utility model relates to cable technology, namely to the construction of power cables with PVC insulation, for use in electrical installations in hazardous areas of all classes, as well as for underground workings intended for the transmission and distribution of electrical energy in stationary installations for a rated alternating voltage of 0 .66; 1 and 3 kV with a nominal frequency of 50 Hz.

A power cable is known, containing at least three conductive cores, sealed with synthetic threads, insulated with rubber and twisted into a core around a bundle of unvulcanized rubber, an inner and outer sheath (Patent RU No. 205101, IPC HO1B 9/02, published 06/28/2021).

Signs of a known cable, coinciding with the signs of the claimed utility model, are the implementation of a sealed cable with insulation, inner, outer sheath and sealing. A fire-resistant barrier in the form of a winding of mica-containing tapes, a metal screen and armor (in special cases) can be applied to the conductive core.

The reason that prevents the technical result obtained in the known technical solution, which is provided by the claimed utility model, is the insulation and the central cable harness made of rubber.

The technical problem to be solved by the utility model is the need to develop a sealed explosion-proof power cable with a wide range of applications for group laying in cable structures and industrial premises, including in fire and explosion hazardous areas, including the possibility of maintaining the cable's operability when fire.

The technical result is achieved by the fact that the explosion-proof power cable contains conductive cores sealed with synthetic threads, insulated with low fire hazard PVC compound and twisted into a core around a sealed bundle, inner and outer sheaths made of reduced fire hazard PVC compound. To increase the fire resistance of the cable, the current-carrying cores can be wound with two mica-containing tapes, and each insulated core can be wrapped with a lavsan tape. To protect against electrical interference and mechanical damage, a metal screen and armor can be applied over the inner shell. Between the layers of armor can be superimposed lavsan tape or a tape of non-woven fabric to seal the armor. A semi-conductive layer may be applied over the outer sheath to provide protection against static electricity. The outer sheath of the cable can be overlaid with further crimping to eliminate air bubbles.

The main conditions of explosion safety, as follows from Sec. 7.3 PUE and GOST R 51330.13-99 (IEC 60079-14-96) are two conditions:

1. Cable tightness, which excludes the penetration of explosive mixtures into the cable cavities;

2. Intrinsically safe.

According to GOST R 58342-2019, the following requirements are imposed on the design of power explosion-proof cables:

internal and external gaps between the insulated cores of power cables must be filled,

power cables must have a profiled core made of polymeric material or rubber, which ensures longitudinal tightness and resistance to shock loading,

the filling of the outer gaps between the insulated cores must be carried out simultaneously with the application of the inner extruded sheath of the polymer composition,

cables must be resistant to mechanical shocks in accordance with GOST 30610.1.10.

Thus, in order to manufacture a power cable that can be used in explosive areas, first of all, it is necessary to ensure the tightness of all structural elements of the cable, preventing the penetration of explosive air mixtures into the cable cavities. The tightness of the conductive cores in this case is ensured by the use of synthetic threads. Synthetic threads fill the air space between the wires in the conductive conductors, excluding the penetration of air inclusions. The use of a bundle of soft non-hygroscopic fibrous or polymeric material or of a polymer composition with the addition of synthetic threads in the core during twisting of conductive cores ensures filling of gaps in the inter-core space. The bundle deforms during twisting and fills the internal gap between the insulated cores, repeating its shape, this ensures longitudinal tightness and resistance of the cable to shock loading. Over the twisted insulated cores, an inner sheath of low fire hazard polyvinylchloride compound is applied, pressed out with simultaneous filling of the outer gaps between the cores. Further sealing is carried out by winding with lavsan tape or tape from non-woven fabric along the insulation and laid between the armor tapes (in the case of an armored cable), as well as making the cable with compression along the outer sheath to displace air bubbles. The condition for intrinsic safety allows for a metal screen and a semi-conductive layer along the outer sheath to protect the cable from static electricity. The surface electrical resistance in this case is not more than 10 ⁹ ohms at a relative humidity of (50±5)% and not more than 10 ¹¹ ohms at a relative humidity of (30±5)%. In shielded armored cables, a separating layer of a material corresponding to the material of the inner sheath is applied by extrusion over the metal screen for additional sealing.

Checking the cable for compliance with the requirement of longitudinal sealing is carried out on samples 0.5 m long in accordance with GOST IEC 60079-14.

The fire resistance of the cable to ensure the operability of the cable in case of fire is increased due to the winding of the conductive cores from two mica-containing tapes and the manufacture of insulation, the inner and outer sheaths of PVC of low fire hazard with an oxygen index of at least 28. For additional protection against mechanical influences and electrical interference, it can additionally superimposed armor and a metal screen. The inventive power cable provides resistance to mechanical shocks according to GOST 30630.1.10 with an impact energy of 50 J.

Thus, the proposed design of a sealed explosion-proof power cable meets all the requirements of the set technical task: a sealed explosion-proof power cable can be used for group laying in cable structures and industrial premises, including in fire and explosion hazardous areas, while the power cable fully meets the requirements for GOST R 58342-2019 "Power and control cables for use in electrical installations in explosive environments", each structural element of the cable is a necessary feature to achieve the specified technical result, and the set of essential features is sufficient to achieve the technical result provided by the utility model: the creation of a sealed explosion-proof power cable for group laying, including in fire and explosion hazardous areas, ensuring cable operability in fire conditions.

The claimed utility model is implemented as follows. The explosion-proof sealed power cable is made in a multi-core version. Conductors sealed with synthetic threads correspond to classes 1 or 2 according to GOST 22483 and must be sealed. Conductive conductors can be single-wire or multi-wire, round or sector-shaped, conductive conductors of two-core cables must be round or segmented. A thermal barrier of two mica-containing tapes can be applied to the conductive cores to ensure the fire resistance of the cable (in the case of a fire-resistant cable). Further, on the conductors of the cable or on top of the mica-containing tapes, insulation is applied from polyvinyl chloride plastic compound of low fire hazard with an oxygen index of at least 28. Each insulated core can be wrapped with Mylar tape, or a semi-conductive layer can be applied for additional sealing and protection against sparking. The insulated cores of multicore cables are twisted by right-hand twisting around a bundle of soft non-hygroscopic fibrous or polymeric material or of a polymer composition with the addition of synthetic threads, which deforms during twisting and fills the internal gap between the insulated cores, repeating its shape. Over the twisted cores, a winding with tapes of polymeric or fibrous material can be applied. The filling of the outer gaps between the insulated cores is carried out by applying an inner extruded sheath made of a polyvinyl chloride polymer composition of reduced fire hazard.

On top of the inner shell, it is possible to have a metal shield made of one or two copper tapes or copper wires fastened with a copper tape, the main purpose of which is protection against electromagnetic interference, as well as the removal of short-circuit currents (providing intrinsic safety). A screen from one tape is superimposed with an overlapping winding, from two - with a winding with a gap so that each tape overlaps the other to exclude free space. On top of the screen in shielded armored cables, a separating layer of a material corresponding to the material of the inner sheath can be applied by extrusion for additional sealing. Armor of galvanized steel tapes (or wires) or aluminum or aluminum alloy tapes (or wires) can be applied over the inner sheath, designed to protect the cable from mechanical stress and to protect the cable from significant tensile forces. The armor tapes are applied with a gap so that the upper tape overlaps the gaps between the turns of the lower tape, in addition, for additional sealing, a winding with lavsan tape or a non-woven fabric tape is laid between the armor tapes. Over the inner sheath or screen, or armor or separating layer, the outer sheath of the cable is superimposed. The inner and outer sheaths of the cable are made of low fire hazard PVC with an oxygen index of at least 28. The outer sheath is made with compression. A semi-conductive layer may be applied over the outer sheath.

The design of the claimed utility model has been successfully tested in production conditions.

Claims (10)

1. Explosion-proof power cable containing conductive cores sealed with synthetic threads, insulated with low fire hazard PVC compound and twisted into a core around a sealed bundle, inner and outer sheaths made of low fire hazard PVC compound. 2. Cable according to claim 1, characterized in that the conductors are made of copper or aluminum. 3. The cable according to claim 1, characterized in that a winding of two mica-containing tapes is applied to the conductive cores. 4. Cable according to claim 1, characterized in that each insulated core is wrapped with lavsan tape. 5. The cable according to claim 1, characterized in that a metal screen is additionally applied over the inner sheath. 6. Cable according to claim 5, characterized in that a separating layer is applied over the screen by extrusion. 7. Cable according to claim 1, characterized in that armor is applied over the inner sheath or separating layer according to claim 6. 8. The cable according to claim 7, characterized in that between the tapes of the armor there is a winding with a lavsan tape or a tape made of non-woven fabric. 9. Cable according to claim 1, characterized in that the outer sheath of the cable is made with compression. 10. Cable according to claim 1, characterized in that a semi-conductive layer is applied over the outer sheath.