RU222081U1 - Power fireproof cable - Google Patents

Abstract

The utility model relates to cable technology. The technical result consists in increasing the reliability and safety of operation of a power cable for a voltage of -10 kV when exposed to flame. The power cable contains one conductive core, sequentially covered with a first electrically conductive layer, a combined insulation and a second electrically conductive layer, a winding of electrically conductive tape and a metal screen, a separating layer, an inner sheath and an outer sheath made of polyvinyl chloride plastic compound of reduced fire hazard with maximum optical density of smoke during combustion and smoldering no more than 200 Dmax, with an oxygen index of at least 35%, while the first layer of combined insulation is made in the form of a winding made of mica-containing tape, and the second layer is made of a cross-linked polymer composition. 3 salary f-ly.

Description

Field of technology to which the utility model relates

The utility model relates to cable technology, namely to the designs of power cables that are flame retardant, fire-resistant, with insulation made of a cross-linked polymer composition, intended for the transmission and distribution of electrical energy in stationary installations for voltages of 6 and 10 kV with a nominal frequency of 50 Hz.

The utility model relates to the designs of electrical power cables intended for operation in conditions of increased fire hazard, for installation in fire protection systems, as well as other systems that must remain operational in fire conditions.

State of the art

The closest analogue (prototype) is a three-phase power cable for voltage 6-35 kV (Patent RU 214876, published 11/18/2022). The prototype contains three round metal conductive cores, each of which is covered with a first layer of electrically conductive cross-linked polyethylene composition, insulation of a cross-linked polyethylene composition, a second layer of electrically conductive cross-linked polyethylene composition, while the conductive cores, covered with insulation and two electrically conductive layers, are twisted into a core, and on top of the twisted conductors there is an inner sheath with an oxygen index of at least 28 and an outer sheath with an oxygen index of at least 35, characterized in that the outer sheath is made of polyvinyl chloride plastic compound of reduced fire hazard with a maximum optical density of smoke during combustion and smoldering of no more than 200 Dmax, strength at break not less than 10 N/mm2 and relative elongation at break not less than 150%.

The known prototype ensures reliable operation when operating under extreme conditions, increased mechanical and temperature loads, but its disadvantage is insufficient fire safety.

Disclosure of utility model

The technical problem to be solved by the proposed utility model is the need to develop a single-core cable design with increased fireproof characteristics, ensuring the operation of the cable at a voltage of 6 - 10 kV in extreme conditions characterized by exposure to flame.

The technical result is to increase the reliability and safety of operation of power cables for voltages of 6 - 10 kV when exposed to flame.

The solution to the technical problem and the achievement of the stated technical result is ensured by the fact that the cable contains one conductive core, sequentially covered with a first electrically conductive layer, a combined insulation and a second electrically conductive layer, a winding of electrically conductive tape and a metal screen, a separating layer, an inner sheath and an outer sheath of polyvinyl chloride plastic. reduced fire hazard with a maximum optical density of smoke during combustion and smoldering of no more than 200 Dmax, with an oxygen index of at least 35%, while the first layer of combined insulation is made in the form of a winding made of mica-containing tape, and the second layer is made of a cross-linked polymer composition. The inner shell is made of a flame retardant material; it can be made of a ceramic-forming composition with an oxygen index of at least 40%.

Thanks to the sequential arrangement of the specified cable elements, the presence of combined insulation consisting of a winding with mica-containing tape and a cross-linked polymer composition, as well as the presence of an internal and external sheath made of materials with the specified characteristics, it is possible to obtain a power cable for a voltage of 6-10 kV, ensuring reliability and fire safety, which consists in ensuring non-propagation of combustion during group installation, fire resistance and reduced smoke generation. Additionally, to ensure fire resistance, the inner shell can be made of a ceramic-forming composition, due to which it will act as a thermal barrier. Metal armor and a fire-resistant barrier in the form of glass tape can also be applied over the inner shell, which will also create additional protection.

Tests of the power cable for fire safety requirements showed that the cable does not propagate fire when laid in groups when tested in accordance with GOST IEC 60332-3-21; smoke formation during combustion and smoldering of the cable did not lead to a decrease in light transmission by more than 50% when tested according to GOST IEC 61034-2; The fire resistance limit of the cable is at least 180 minutes.

All of these cable tests are interconnected and determine its fire safety. When the fire safety of the cable is achieved, its reliable operation when exposed to flame is ensured.

Implementation of a utility model

The fireproof power cable for voltage 6-10 kV contains one conductor, made of copper, stranded. An electrically conductive layer is applied to the conductive core, made of a winding made of electrically conductive cable fabric or of extruded electrically conductive cross-linked polyethylene or of a crosslinked extruded electrically conductive ethylene-propylene composition. A combined insulation is applied on top, consisting of a winding with mica-containing tapes and a layer of extruded cross-linked polyethylene or a high-modulus cross-linked ethylene-propylene composition. An electrically conductive screen made of extruded electrically conductive cross-linked polyethylene or crosslinked extruded electrically conductive ethylene propylene composition is placed on top of the insulation. On top of the screen is a winding made of electrically conductive non-woven fabric and a metal screen made of copper wires fastened with copper tape.

A separating layer made in the form of a winding of glass tapes is placed on top of the metal screen.

On top is an inner shell made of polyvinyl chloride plastic with an oxygen index of at least 28% or an inner shell made of a ceramic composition with an oxygen index of at least 40%.

The outer sheath of the cable is made of polyvinyl chloride plastic compound of reduced fire hazard with a maximum optical density of smoke during combustion and smoldering of no more than 200 Dmax, with an oxygen index of at least 35%.

The cable is manufactured by performing appropriate technological operations that are widely known in cable technology.

The cable design has been successfully tested in production conditions.

Claims (4)

1. A power cable containing one conductive core, sequentially covered with a first electrically conductive layer, a combined insulation and a second electrically conductive layer, a winding of electrically conductive tape and a metal screen, a separating layer, an inner sheath and an outer sheath made of polyvinyl chloride plastic compound of reduced fire hazard with maximum optical density of smoke at combustion and smoldering not more than 200 Dmax, with an oxygen index of at least 35%, characterized in that the first layer of combined insulation is made in the form of a winding made of mica-containing tape, and the second layer is made of a cross-linked polymer composition. 2. The cable according to claim 1, characterized in that the inner sheath is made of a ceramic-forming composition with an oxygen index of at least 40%. 3. The cable according to claim 1, characterized in that the insulation is made of cross-linked polyethylene. 4. The cable according to claim 1, characterized in that the insulation is made of high-modulus ethylene-propylene rubber.