RU123209U1 - SYMMETRIC FIRE RESISTANT CABLE - Google Patents

Abstract

1. A symmetrical cable containing at least one pair of copper conductive cores with silicone rubber insulation and a polymer sheath, characterized in that the insulation material is Unisil PC20-8465 or Pentasil-2782 rubber, and the sheath material a low fire hazard polyvinyl chloride compound of a brand selected from the group: VP FM 30-35, VP FM 30-37, VP FM 35LLS, or a halogen-free polymer material of a brand selected from the group: Fragom PR555 K1, Revil GE 47 / HTS.2 was used. The cable according to claim 1, characterized in that the conductors are single-wire. The cable according to claim 1, characterized in that the conductors are made of multi-wire. The cable according to claim 1, characterized in that the insulated conductors are twisted into a pair. The cable according to claim 1, characterized in that it contains a common shield made of foil-clad composite material with a contact conductor made of tinned copper wire, superimposed over the insulated cores. The cable according to claim 1, characterized in that it contains individual screens made of foil-clad composite material with a contact conductor made of tinned copper wire, superimposed on top of each pair of insulated conductive cores. A cable according to claim 4, characterized in that a winding or longitudinal tape of polyethylene terephthalate film is laid under the screen.

Description

The utility model relates to the field of electrical engineering, namely to symmetrical fire-resistant cables for signal transmission. They can be used, in particular, for the installation of fire and security alarm systems, warning systems and evacuation and data transmission control systems.

A symmetric fire-resistant cable is known, containing at least one symmetrical pair of conductive conductors insulated with flame-retardant silicone rubber, bonded to each other, with a screen over the core, in a sheath made of flame-retardant polymeric material, the insulated pair conductors being parallel and fastened by a separate base made of fire-resistant organosilicon rubber (RF patent No. 102836, 2010).

A well-known cable should ensure non-proliferation of combustion, although it should be noted that the list of specific materials for the manufacture of shells is not indicated (not characterized).

However, the main indicators of fire safety include not only fire resistance of the cable and non-proliferation of combustion, but also low smoke and gas emission during combustion and decay and the corrosive activity of smoke and gas products. High performance on these characteristics lead to negative consequences for human health and to the failure of electronic equipment.

Therefore, the urgent task was to develop a symmetrical cable that has reduced smoke emission or does not emit corrosive smoke and gas products while maintaining fire resistance and non-distribution of combustion.

The technical result is achieved by the fact that in a symmetrical cable containing at least one pair of copper conductive conductors with silicone rubber insulation and a polymer sheath, Unisil PC ^® 20-8465 or Pentasil-2782 rubber is used as insulation material, and in the material of the shell used is a low fire hazard PVC compound of a brand selected from the group: VP FM 30-35, VP FM 30-37, VP FM 35LLS, or polymeric halogen-free material of the brand selected from the group: Fragm PR555 K1, Revil GE 47 / HTS .

Conductors can be made as single-wire or multi-wire.

Insulated conductors should preferably be twisted in a pair. Pairs can be twisted together. Twisting of a two-pair cable in the form of a star four is allowed.

The cable can be equipped with a common screen made of foil composite material with a tinned copper wire contact conductor laid over insulated cores.

On top of each pair of insulated conductive conductors, an individual screen of foil composite material with a tinned copper contact conductor can be applied.

Insulated cores in pairs have a distinctive color. It is allowed to use the same color of insulated cores in pairs, provided that individual screens made of foil composite material laid on top of the pairs have a distinctive color. Distinctive colors are made for ease of installation.

The utility model is illustrated in the drawing, which shows:

- figure 1 - cable with a common screen;

- figure 2 - cable with individual screens.

According to a utility model, the cable contains: conductive core - 1, insulation - 2, symmetrical pair - 3, tape made of polyethylene terephthalate film - 4, common screen - 5, individual screen - 6, contact conductor - 7, sheath - 8.

Polymeric materials for insulation and shells are known and correspond to the normative and technical documentation for them.

Cable manufacturing technology is traditional, and boils down to the following.

The wire for the manufacture of conductive conductors 1 is made by drawing. Stranded conductive conductors 1 are twisted from separate wires on a cigar or frame type machine.

The imposition of insulation 2 and shell 8 is carried out by extrusion.

Twisting of insulated cores in a pair of 3, as a rule, is performed on frame-type machines.

Twisted pairs can be twisted by unidirectional twisting into the core on frame or lantern type machines, or by multidirectional twisting on reversible type twisting machines.

The screen of foil composite material 5 and 6 is applied in the form of a winding on a winding machine or longitudinally with overlapping on the extrusion line simultaneously with the sheathing; under the screen, a contact conductor of tinned copper contact wire 7 must be longitudinally laid.

The tape of the polyethylene terephthalate film 4 is applied in the form of a winding on a winding machine or longitudinally with overlapping extrusion line simultaneously with the application of the screen and sheath.

To confirm the technical result, cable samples were made with a sheath made of PVC compound of reduced fire hazard and with a sheath made of a polymer halogen-free material.

Cable samples were tested for nonproliferation of the beam, the optical density of the smoke and fire resistance. The test results are summarized in table.

Table Name of characteristic The value of the criterion for assessing the fire hazard indicator Sample No. 1 with a shell of a polymer halogen-free material Sample No. 2 with a shell of polyvinyl chloride plastic compound low fire hazard Fire hazard class of cables according to GOST R 53315-2009 classification A1b.1.1.2.1 A1b.1.2.2.2 Non-proliferation of combustion in accordance with GOST R IEC 60332-3-22-2005, category A No more than 2.5 m 1.15 m, corresponds 1.07 m, corresponds Smoke during combustion and decay according to GOST R IEC 61034-2-2005, preservation of light transmission From 0% to 40% on, for PD 1, from 40% to 50% on for PD 2 23%, corresponds to the class of fire hazard - ПД 1 26%, corresponds to the class of fire hazard - PD 1

Table continuation Name of characteristic The value of the criterion for assessing the fire hazard indicator Sample No. 1 with a shell of a polymer halogen-free material Sample No. 2 with a shell of polyvinyl chloride plastic compound low fire hazard Fire resistance according to GOST R IEC 60331-23-2003 Not less than 180 min More than 180 min, corresponds More than 180 min, corresponds The gas content of halogen acids in terms of HC1, according to GOST IEC 60754-1-99 No more than 5.0 mg / g are absent - Conductivity of an aqueous solution with adsorbed products of smoke and gas emission GOSTR IEC 60754-2-99 Not more than 10.0 μS / mm 0.49 - PH in accordance with GOSTR IEC 60754-2-99 Not less than 4.3 7.18 -

Thus, the technical result is to increase the working time of the cable under conditions of exposure to an open flame and reduce the emission of toxic combustion products and smoke.

Claims (7)

1. The cable is symmetrical, containing at least one pair of conductive cores with silicone rubber insulation and a polymer sheath, characterized in that the rubber used is Unisil PC ^® 20-8465 or Pentasil-2782, and the shell material used is a low fire hazard PVC compound of a brand selected from the group: VP FM 30-35, VP FM 30-37, VP FM 35LLS, or a halogen-free polymer material of a brand selected from the group: Fragm PR555 K1, Revil GE 47 / HTS. 2. The cable according to claim 1, characterized in that the conductive conductors are made single-wire. 3. The cable according to claim 1, characterized in that the conductive wires are multi-wire. 4. The cable according to claim 1, characterized in that the insulated conductors are twisted in a pair. 5. The cable according to claim 1, characterized in that it comprises a common screen made of foil composite material with a tinned copper wire contact conductor overlaid on insulated cores. 6. The cable according to claim 1, characterized in that it contains individual screens of foil composite material with a contact conductor of tinned copper wire, overlaid on top of each pair of insulated conductive conductors. 7. The cable according to claim 4, characterized in that under the screen there is a winding or longitudinal tape of polyethylene terephthalate film.