RU224826U1 - Reduced fire hazard control cable with combined sheath - Google Patents

Abstract

The utility model relates to the cable branch of the electrical industry. The technical result consists in providing a cable for the distribution of electrical energy in control and monitoring circuits, inter-device connections in conditions of increased fire danger. The control cable contains current-carrying conductors, each of which is covered with insulation made of a flame retardant polymer composition with low smoke and gas emissions, the insulated conductors are twisted into groups, the groups are twisted together, and internal and external sheaths made of fireproof materials are sequentially applied on top, The inner shell is made of flame retardant halogen-free polyolefin compound, and the outer shell is made of flame retardant polyvinyl chloride plastic with low smoke and gas emissions. 9 salary f-ly.

Description

The utility model relates to the cable industry of the electrical industry, namely to the designs of control and monitoring cables that are flame retardant when laid in groups, with low smoke and gas emissions, intended for the distribution of electrical energy in control and monitoring circuits, inter-device connections at a rated voltage of up to 500 V and 660 V AC with a frequency of up to 1 MHz or at voltages up to 750 V and 1000 V DC, in conditions of increased fire hazard.

The closest analogue (prototype) is a control cable containing conductive cores made of copper wires, insulated with a polymer material, twisted together, and then into a common twist, a separating layer, a common screen, an inner sheath made of a material compatible with the insulation materials both the shell and the outer shell. In this case, the insulation and outer shell can be made of polyvinyl chloride plastic compound of reduced fire hazard; accordingly, the inner shell is also made of polyvinyl chloride plastic compound of reduced fire hazard (Patent RU 201420, published 12/15/2020, bulletin No. 35).

The features of the known cable, which coincide with the features of the claimed utility model, consist in the execution of a control cable containing conductive cores, insulation and an outer sheath made of polyvinyl chloride plastic compounds of reduced fire hazard.

A technical problem is the need to expand the arsenal of technical means for a specific purpose - control cables designed for distributing electrical energy in control and monitoring circuits, inter-device connections at rated voltages up to 500 V and 660 V AC with a frequency of up to 1 MHz or at voltages up to 750 V and 1000 In direct current, in conditions of increased fire danger. The technical result consists in the implementation of the specified purpose.

The technical problem is solved by creating an alternative cable design to the prototype. A control cable of reduced fire hazard contains current-carrying conductors, each of which is covered with insulation made of a flame retardant polymer composition with low smoke and gas emission, the insulated conductors are twisted into groups, the groups are twisted together, and the inner and outer sheaths of fireproof materials, characterized in that the inner shell is made of fire-retardant halogen-free polyolefin compound, and the outer shell is made of fire-retardant polyvinyl chloride plastic with low smoke and gas emissions.

Thus, the developed control cable, like the prototype, contains fireproof materials, which allows it to be used for the distribution of electrical energy in control and monitoring circuits, inter-device connections at a rated voltage of up to 500 V and 660 V AC with a frequency of up to 1 MHz or at a voltage of up to 750 V and 1000 V DC, in conditions of increased fire hazard. At the same time, the difference between the developed cable is the presence of a combined sheath made of fire-retardant halogen-free polyolefin compound (inner sheath) and fire-retardant polyvinyl chloride plastic with low smoke and gas emissions (outer sheath).

An example of the implementation of a utility model.

The reduced fire hazard control cable contains conductive cores twisted from wires using standard torsion equipment. Each conductor contains insulation made of a flame retardant polymer composition with low smoke and gas emissions; this can be industrially produced polyvinyl chloride plastic compound or ethylene propylene rubber, or cross-linked polyethylene, which are standardly used for the manufacture of cable and wire products. Insulation of the conductor occurs on the extrusion line. Insulated cores are twisted into pairs, threes or fours using twisting equipment. A metal screen in the form of a braid can be placed on top and wrapped with film. Groups of insulated cores are twisted together on a twist line. A winding with fastening tape can be applied over the twist.

Next, the combined casing is applied using standard extrusion equipment. The inner layer is made of a commercially produced, flame retardant, halogen-free polyolefin compound. The compound is made on the basis of polyolefin elastomers and halogen-free flame retardants, selected with a minimum permissible oxygen index value of 40%, to ensure the requirement for non-propagation of combustion, and with a maximum permissible optical density of smoke during combustion - 150 Dmax, to ensure reduced smoke emission. The outer layer is made of industrially produced flame retardant polyvinyl chloride plastic with low smoke and gas emissions. It is a thermoplastic material, selected with the minimum permissible value of the oxygen index - 35%, to ensure the requirement for non-propagation of combustion and with the maximum permissible value of the optical density of smoke during combustion - 200 Dmax, to ensure reduced smoke emission.

Armor made of galvanized steel tapes or braided of galvanized steel wires can also be additionally applied between the inner and outer sheath using the winding method, in which case greater cable protection will be achieved in fire conditions.

The design of the claimed utility model has been successfully tested under production conditions. The developed cable is made in the ng(A)-LS version and meets all the necessary fire safety requirements in accordance with GOST 31565-2012 “Cable products. Fire safety requirements." The test carried out according to the GOST IEC 60332-3-22 method showed that the cable complies with the requirement for flame retardation when laid in groups according to category A. The test carried out according to the GOST IEC 61034-2 method showed that smoke formation does not lead to a decrease in light transmission of more than than 50%.

Claims (10)

1. A control cable of reduced fire hazard, containing current-carrying conductors, each of which is covered with insulation made of a flame retardant polymer composition with low smoke and gas emission, the insulated conductors are twisted into groups, the groups are twisted together, and the inner and outer ones are sequentially laid on top shells made of fireproof materials, characterized in that the inner shell is made of flame retardant halogen-free polyolefin compound, and the outer shell is made of flame retardant polyvinyl chloride plastic with low smoke and gas emissions. 2. Low fire hazard control cable according to claim 1, characterized in that the insulation is made of flame retardant polyvinyl chloride plastic with low smoke and gas emissions. 3. Low fire hazard control cable according to claim 1, characterized in that the insulation is made of cross-linked polyethylene. 4. Low fire hazard control cable according to claim 1, characterized in that the insulation is made of high-modulus ethylene-propylene rubber. 5. Reduced fire hazard control cable according to claim 1, characterized in that a steel tape winding is applied over the inner sheath. 6. Reduced fire hazard control cable according to claim 1, characterized in that a braid of galvanized steel wires is applied over the inner sheath. 7. The control cable of reduced fire hazard according to claim 1, characterized in that the inner sheath is made of a flame retardant halogen-free polyolefin compound with an oxygen index of at least 40%. 8. Low fire hazard control cable according to claim 1, characterized in that the outer sheath is made of flame retardant polyvinyl chloride plastic with low smoke and gas emissions and an oxygen index of at least 35%. 9. The control cable of reduced fire hazard according to claim 1, characterized in that the inner sheath is made of a flame retardant halogen-free polyolefin compound with a maximum optical density of smoke during combustion of no more than 150 Dmax. 10. Reduced fire hazard control cable according to claim 1, characterized in that the outer sheath is made of flame retardant polyvinyl chloride plastic with low smoke and gas emissions with a maximum optical density of smoke during combustion of no more than 200 Dmax.