RU112487U1 - SYMMETRIC PAIRING TWIN FOR RS-485 INTERFACE - Google Patents

Abstract

 1. A cable for the RS-485 interface, containing two stranded pair of stranded copper tinned conductive conductors with insulation from a solid or porous polyolefin or several similar pairs of insulated conductive conductors, in turn twisted together in a core, laid on top of twisted insulated conductive conductors first a screen made of aluminum foil-coated polymer tape, a contact core made of tinned copper wires, a second screen in the form of a braid made of tinned copper wires and a polymer shell, characterized by m, that the sheath is made of a thermoplastic resin composition containing no halogen. ! 2. The cable according to claim 1, characterized in that it further comprises a signal core made of tinned copper wires with insulation from a halogen-free thermoplastic polymer composition and located between the screens. ! 3. The cable according to any one of claims 1 and 2, characterized in that it further comprises a filler made of a bundle of synthetic threads or fibers or a tow of polyvinyl chloride plastic compound or foamed polyolefin and located between the insulated cores and the first screen.

Description

The utility model relates to the field of electrical engineering, namely, symmetrical pair-twisted cables intended for distributed data acquisition systems using the industrial RS-485 interface, mainly on rolling stock of rail vehicles and special rolling stock.

Known cable for the interface, containing two insulated polyethylene, solid or porous, twisted into a pair of multi-wire copper conductive conductors, or several similar pairs of insulated conductors, which are then twisted into a core. The first screen of aluminum foil-coated polymer tape, the contact core of tinned copper wires, the second screen in the form of a braid of tinned copper wires and the polymer sheath of polyvinylchloride plastic compound (Cable products. Information and technical collection. M., JSC VNIIKP ", 2009, Vol.2, p. 300-305).

This technical solution is the closest to the proposed combination of features.

However, this cable does not satisfy the increasing fire safety requirements for group installation, since it does not spread combustion only with a single installation. It has low resistance to the effects of mineral oil, not sufficiently high resistance to external temperature factors, namely resistance to environmental temperatures from minus 40 to 70 ° C.

The technical task was to develop a cable design that meets fire safety requirements, namely, not the spread of combustion during group installation, while reducing smoke and gas emissions during combustion and smoldering, resistant to mineral oil, which has increased resistance to climatic influences.

The stated technical problem is achieved by the fact that in the cable for the RS-485 interface, containing two stranded multi-wire copper conductive conductors with insulation from a solid or porous polyolefin, or several similar pairs of insulated conductive conductors, in turn twisted into a core, laid on top of twisted insulated conductive conductors, the first screen of aluminum foil-coated polymer tape, the contact core of tinned copper wires, the second screen in the form of a braid of tinned copper wires and polymer shell, the latter made of a halogen-free thermoplastic polymer composition.

It is preferable to use a thermoplastic halogen-free composition of the CONGuard S 6645 brand as a shell material.

The cable may further comprise a signal core made of tinned copper wires with insulation from a halogen-free thermoplastic composition and located between the shields.

In this case, the use of a thermoplastic halogen-free composition of the CONGuard S 6645 brand is also preferred as the insulation material of the signal core.

The cable may also additionally contain a filler, when performing it with a signal core, and without it. Moreover, the latter is made of a bundle of synthetic threads or fibers or a tow of polyvinyl chloride plastic compound or foamed polyolefin, and is located between the insulated cores and the first screen.

The technical result, the achievement of which is ensured by the implementation of the claimed combination of features, consists in the fact that during group laying in bundles of the claimed cable, combustion does not propagate and at the same time smoke and gas emission during burning and decay are reduced. The inventive cable meets the requirements of fire safety according to the criteria of non-proliferation of combustion when laying in bundles (group laying), smoke emission during combustion and smoldering.

The utility model is illustrated in the figure, where in Fig. 1 a sectional view of a cable is shown.

The cable contains a conductive core 1, insulation 2, twisted pair 3, filler 4, first shield 5, contact conductor 6, insulated contact core 7, second shield 8, sheath 9.

The following is evidence of the industrial applicability of the utility model.

The cable is made according to the traditional technology used in the technique for this type of cable. In particular, the twisting of wires and insulated cores, as well as the imposition of the screen is performed on twisting machines. The insulation on the core, as well as the sheath, is applied on typical extrusion equipment.

The number of pairs of insulated conductors is selected mainly in the range from 1 to 7.

In the manufacture of the cable, well-known materials are used in accordance with the regulatory and technical documentation for them.

The conductive core must comply with the requirements of GOST 22483.

High-density polyethylene of the HE4872 or Borcell ^tm HE4873 grades, which are manufactured by Borealis AG, Austria, is used as the insulation material for conductive conductors.

The polymer thermoplastic composition of the brand CONGuard S 6645 is manufactured by Condor Compaunds Cmbh, Germany. Cable samples were tested for non-propagation of combustion when placed in a beam according to GOST R IEC 60332-3-22-2005, (category A), for smoke generation in accordance with GOST R IEC 61034-2005 and for indicators of corrosion activity of flue gas products in accordance with GOST R IEC 60754 -2-99.

2 samples were tested:

1. Famous cable.

2. Suggested cable.

The test results are shown in the table.

Table Name of characteristic Technical requirements Cable samples one 2 Non-proliferation of combustion The length of the burnt area is not more than 2.5 m 3.5 m, does not match 1.03 m corresponds Smoke from burning and smoldering Light transmission at least 40% 44% 19% Corrosion activity of smoke and gas products The gas content of halogen-containing acids in terms of HCl, mg / g, not more than 5.0 19.0 0 Conductivity of an aqueous solution with adsorbed products of smoke and gas evolution, μS * mm, not more than 10.0 89 0.321 PH value (acid number), not less than 4.3 2.1 6.24

Test results indicate that the proposed cable meets the basic fire safety specifications.

Tests of the samples of the proposed cable according to GOST 20.57.406-81 (method 203-1) showed that the cable is resistant to environmental influences from minus 50 to 90 ° C.

The cable was also tested for resistance to the effects of mineral oil according to GOST 12337-84. Samples passed the test at a temperature of 50 ° C for 20 hours.

Thus, the inventive cable meets the fire safety requirements for the criteria of non-proliferation of combustion when laying in bundles (group laying), smoke emission during combustion and smoldering, corrosion activity of combustion products, which reduces the risk to human health in case of fire. The scope of the cable is also expanding, due to its increased characteristics in terms of heat, frost and resistance to the effects of mineral oil.

Claims (3)

1. Cable for the RS-485 interface, containing two stranded pair of stranded copper tinned conductive conductors with insulation of a solid or porous polyolefin or several similar pairs of insulated conductive conductors, in turn twisted together in a core, laid on top of twisted insulated conductive conductors first a screen made of aluminum foil-coated polymer tape, a contact core made of tinned copper wires, a second screen in the form of a braid of tinned copper wires and a polymer shell, characterized by m, that the sheath is made of a thermoplastic resin composition containing no halogen. 2. The cable according to claim 1, characterized in that it further comprises a signal core made of tinned copper wires with insulation from a halogen-free thermoplastic polymer composition and located between the screens. 3. A cable according to any one of claims 1 and 2, characterized in that it further comprises a filler made of a bundle of synthetic threads or fibers or a bundle of PVC compound or foamed polyolefin and located between the insulated cores and the first screen.