RU151115U1 - SYMMETRIC PAIRING TWIN FOR RS-485 INTERFACE - Google Patents

Abstract

1. A cable for the RS-485 interface, containing two pair of tinned copper tinned stranded 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 polymer tape with a contact core of tinned copper wires and a second screen in the form of a braid of tinned copper wires and a polymer shell, characterized I mean that as the shell material a polymer halogen-free compound of the brand Mecoline S1013F or Megolon HF 8053 DD.2 was used. 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 polymer thermoplastic composition and twisted into a core together with a pair of insulated conductors. The cable according to claim 1 or 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.

Description

The utility model relates to the field of electrical engineering, namely to electric 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 solid or porous polyethylene (polyolefin) twisted copper conductive conductors or several similar pairs of insulated conductors twisted into a core. The first screen of foil-coated aluminum polymer tape with 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 polyvinyl chloride plastic compound (Cable products. Information and technical collection. M., JSC VNIIKP ", 2009, T. 2, ss. 300-305). This technical solution is the closest to the proposed combination of features. However, this cable does not meet the increasing fire safety requirements for group installation, and also has low resistance to diesel.

The task was to develop a cable for the RS-485 interface, devoid of these drawbacks, while the technical result is to increase the resistance of the cable to the spread of combustion during group installation and the effects of diesel fuel, which together led to the cable meeting fire safety requirements for group installation in beams and increase service life under conditions of exposure to diesel fuel.

The technical result is achieved by the fact that in the 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 twisted insulated conductive conductors, the first screen of aluminum foil-coated polymer tape with a contact core of tinned copper wires, the second screen in the form of a braid of tinned copper ovolok and polymer shell as a thermoplastic halogen-free polymer compound membrane material applied brand Mecoline S1013F or Megolon HF 8053 DD.

The cable may further comprise a signal core made of tinned copper wires with insulation from a halogen-free polymer thermoplastic composition and twisted into a core together with a pair of insulated conductors.

The cable may also contain filler when performing with or without signal core. In this case, such a filler may be 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 utility model is illustrated in the drawing, which shows a cable in section. The cable contains conductive conductors 1, insulation 2, filler 3, first shield 4, contact core 5, signal core 6, second shield 7, sheath 8.

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 equipment. The insulation and sheath are applied on an extrusion machine. The number of pairs of insulated cores is selected in the range mainly 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. As an example of insulation material, high-density polyethylene of grades HE4872 or Borcell ™ HE4873, manufactured by Borealis AG, Austria, can be cited. The shell material is polymeric halogen-free thermoplastic compounds of the Mecoline S1013F brands from Melos GmbH (Germany) or Megolon 8053 DD from AlphaGary UK Ltd (England).

Tests of cable samples for non-propagation of combustion when arranged in a beam showed their compliance with the requirements of GOST Ρ IEC 60332-3-22-2005, (category A), while the known cable does not spread combustion only with a single installation.

The cable was also tested for resistance to the effects of diesel fuel grade L according to GOST 305-82. Samples passed the test at 100 ° C for 24 hours.

The technical result consists in the compliance of the cable with fire safety requirements for group laying in bundles and an increase in service life under conditions of exposure to diesel fuel.

Claims (3)

1. A cable for the RS-485 interface, containing two pair of tinned copper tinned stranded 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 polymer tape with a contact core of tinned copper wires and a second screen in the form of a braid of tinned copper wires and a polymer shell, characterized I mean that as a shell material a polymer halogen-free compound of the brand Mecoline S1013F or Megolon HF 8053 DD is used. 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 polymer thermoplastic composition and twisted into a core together with a pair of insulated conductors. 3. The cable according to claim 1 or 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.

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