RU162469U1 - SINGLE POWER CABLE WITH PAPER INSULATION - Google Patents

Abstract

1. Power cable, not spreading combustion, containing a multi-wire conductive core coated with impregnated paper insulation, a metal sheath, an inner sheath, armor and an outer sheath, characterized in that the inner and outer sheaths of the cable are made of a halogen-free polymer composition. 2. Power cable according to claim 1, characterized in that the conductive core is made of copper or aluminum. 3. The power cable according to claim 1, characterized in that the conductive core is round. The power cable according to claim 1, characterized in that the paper insulation is impregnated with a viscous or non-draining composition. 5. Power cable according to claim 1, characterized in that the metal sheath is made of lead. 6. Power cable according to claim 1, characterized in that the armor is made of two galvanized steel tapes, superimposed overlapping.

Description

The technical field to which the utility model relates.

The utility model relates to the construction of power cables with aluminum and copper conductors and with paper insulation impregnated with a viscous or non-draining composition, in a metal sheath that does not spread combustion, with a sheath of polymer compositions that do not contain halogens. Cables are designed for transmission and distribution of electrical energy in stationary installations in electrical networks at a voltage of 1 kV AC at a frequency of 50 Hz.

The use of this cable is due to the materials of construction and is used for laying, taking into account the volume of the combustible load of the cables, in indoor electrical installations, rooms and in underground structures, in buildings and structures with a large stay of people, including multi-purpose high-rise buildings and complex buildings, fire hazard and explosive zones (except for explosive zones of classes B-1, B-1a).

State of the art

Known power cable voltage of 10 kV, containing a round multi-wire aluminum or copper core, paper insulation, impregnated with a viscous or non-draining mass, a screen for the core, a screen for insulation, a lead or aluminum sheath and a protective cover of the hose type.

Signs of a known cable that match the features of the claimed utility model are the presence of a multi-wire conductive core, paper insulation impregnated with a viscous or non-draining composition, and a metal sheath. (Patent RU No. 40524 U1, IPC Н01В 9/00, published April 10, 2004).

The reason that prevents obtaining a technical result in a known technical solution, which is provided by the claimed utility model, is that the analog has no inner shell, armor and outer shell of a halogen-free polymer composition. The disadvantage of the power cable is that it does not withstand the tests in category (A) for the non-distribution of combustion for compliance with the requirements of NPB 248-97, which does not allow it to be used when laying in bundles. In addition, this cable is designed for a higher voltage (10 kV).

The closest analogue (prototype) is a power cable containing one aluminum or copper conductive core, on top of which a screen of electrically conductive paper is applied, paper insulation, an insulation screen made of electrically conductive paper, impregnated with a viscous or non-draining impregnating composition, aluminum or lead sheath, the protective cover is made of a fire-resistant barrier, on top of which an outer shell of flame-retardant PVC compound is applied, with a low smoke and gas emission iem and oxygen index of not less than 35. (Patent RU №71024 U1, IPC N01V 9/00, published 20.02.2008).

Signs of a known cable that match the features of the claimed utility model are that the cable contains one conductive core, paper insulation impregnated with a viscous or non-draining composition, a metal sheath. In addition, the cable satisfies the condition for non-proliferation of combustion when laying in bundles.

The reason that prevents obtaining a technical result in a well-known technical solution, which is provided by the claimed utility model, is to run the cable at a higher alternating voltage (10 kV), in connection with this condition - the presence of two screens of electrically conductive paper, the presence of a fire-resistant barrier over which a sheath made of polyvinylchloride plastic compound was imposed, lack of armor and an inner sheath, failure to meet the requirements for corrosion activity indicators of smoke and gas products at rhenium and smoldering.

Utility Model Disclosure

The problem the utility model aims to solve is to increase the reliability of the cable for an alternating voltage of 1 kV when it is used in extreme conditions characterized by high temperatures, to develop a cable that meets the fire safety requirements for non-proliferation of combustion during group laying and indicators of the corrosion activity of smoke and gas evolution during combustion and decay.

The task is achieved in that the power cable, which does not propagate combustion, contains a multi-wire round or copper conductive core coated with paper insulation, impregnated with a viscous or non-draining composition, a lead sheath, an inner sheath, and armor made of two galvanized steel tapes superimposed with overlapping and the outer sheath, while the inner and outer sheath of the cable are made of a halogen-free polymer composition.

The technical result of the cable in this design solution, with materials from a halogen-free polymer composition, is to obtain a cable that meets the requirements for non-proliferation of combustion during group laying and does not emit corrosive gaseous products during combustion and smoldering. The use of halogen-free polymer compositions as a material for the manufacture of inner and outer cable sheaths ensures that the cable contains such indicators of the corrosivity of smoke and gas products during combustion and decay as the amount of halogen acids released in terms of Hcl - not more than 5, 0 mg / g, pH - not less than 4.3, smoke formation during combustion and smoldering of the cable does not lead to a decrease in light transmission by more than 40%, the value of an equivalent indicator of the toxicity of combustion products floor measured materials used for the inner and outer shells - not more than 40 g / m ³ . Ecological and fire safety of the cable is ensured by the applied materials of the shells, the fulfillment of the requirements of GOST 12.2.007.14 and the fire safety requirements of GOST 31565-2012 “Cable products. Fire Safety Requirements. ”

Utility Model Implementation

A power cable that does not spread combustion, for a voltage of 1 kV, contains an insulated conductive core (copper or aluminum). The insulation is made of cable paper impregnated with a viscous or non-draining composition. On top of the insulation, a metal (lead) shell is imposed, on top of which an inner shell (pillow under the armor) is imposed. On top of the inner shell is the armor of two galvanized steel tapes, superimposed overlapping. The outer sheath of the cable is superimposed on top of the armor. The inner and outer shells are made of a halogen-free polymer composition.

A cable is made by carrying out appropriate technological operations, the sequence of which is determined by the presence and arrangement of the layers of materials.

For the manufacture of a conductive cable core, a copper or aluminum wire rod is used. The imposition of paper insulation on a conductive core is carried out on an insulating machine. Then the workpiece is dried and impregnated. Next, a metal shell is applied on the press. The imposition of the inner shell is produced on an extrusion line. Next, on an armored vehicle, the armor is applied to the workpiece. The outer shell is applied to the extrusion line.

The cable design has been successfully tested in the production environment.

Claims (6)

1. The power cable, not spreading combustion, containing a multi-wire conductive core coated with impregnated paper insulation, a metal sheath, an inner sheath, armor and an outer sheath, characterized in that the inner and outer sheaths of the cable are made of a halogen-free polymer composition. 2. The power cable according to claim 1, characterized in that the conductive core is made of copper or aluminum. 3. The power cable according to claim 1, characterized in that the conductive core is round. 4. The power cable according to claim 1, characterized in that the paper insulation is impregnated with a viscous or non-draining composition. 5. The power cable according to claim 1, characterized in that the metal sheath is made of lead. 6. The power cable according to claim 1, characterized in that the armor is made of two steel galvanized tapes superimposed overlapping.