RU215014U1 - Symmetrical twisted pair cable for digital communication systems - Google Patents

Abstract

The utility model relates to the field of electrical engineering, in particular to digital communication cables. The technical result consists in the development of a cable design for digital communication systems, which has increased characteristics in terms of operating time at an operating temperature of plus 70 ° C, while maintaining the performance of the known cable. It is achieved by the fact that the cable contains stranded copper conductors twisted into a pair, insulated with a solid or porous polyolefin, while the pairs are twisted into a core; on top of the core, a screen made of an aluminum foiled polymer tape, a second screen in the form of a braid of tinned copper wires, and a sheath are successively superimposed. Sheath material - halogen-free thermoplastic compound Mecoline IS TP 1035F. 1 ill.

Description

The utility model relates to the field of electrical engineering, namely to electric cables intended for digital communication systems with transmission parameters up to 100 MHz and used in class D channels according to ISO/IEC 11801, mainly on rolling stock of rail vehicles and special rolling stock.

Known cable for digital communication systems, containing twisted in a pair of stranded copper tinned conductors with insulation of solid or porous polyolefin, while the pairs are twisted together into a core, over which is successively superimposed a common screen of aluminum foiled polymer tape, a screen in the form of a braid of copper tinned wires and sheath made of thermoplastic polymer compound CONGuard 6645 (RF patent for utility model No. 112488, 2011).

This technical solution is the closest to the proposed one in terms of the totality of features.

Known cable is characterized by low smoke formation when exposed to an open flame and the non-proliferation of combustion during group laying.

However, it does not meet the increasing requirements for cables for locomotives in terms of reliability, namely, operating time at an operating temperature of plus 70°C.

The task was to develop a design of a cable for digital communication systems, which has increased characteristics for operating time at an operating temperature of plus 70 ° C, while maintaining the above-mentioned indicators of the known cable.

The technical result is achieved by the fact that the cable for digital communication systems contains multi-wire tinned copper current-carrying conductors twisted into a pair with solid or porous polyolefin insulation, while the pairs are twisted together into a core, on top of which a screen of aluminum-foiled polymer tape is successively superimposed, the second screen in the form of a braid of tinned copper wires and a polymer sheath, a halogen-free thermoplastic compound Mecoline IS TP 1035F was used as the sheath material.

The utility model is illustrated in the drawing, which shows the cable in section.

The cable contains a conductive core 1, insulation 2, twisted pairs 3, a screen 4 made of foil tape, a second screen 5 made of braided copper tinned wires, a sheath 6.

The following is information confirming the industrial applicability of the utility model.

The cable is made according to the traditional technology used in engineering for this type of cable. In particular, the twisting of wires and insulated cores, as well as the application of a screen from a foil tape, is carried out on twisting equipment. The braided shield with tinned copper wires is made on a braiding machine. The insulation and sheath are applied on an extrusion machine.

The twisting steps of the pairs in the cable must be different. Pairs are twisted together into a core.

The number of pairs is preferably in the range from 2 to 8.

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

An example of an insulation material is high-density polyethylene of the HE4872 or Borcell ^tm HE4873 brands, manufactured by Borealis AG, Austria (https://www.borealisgroup.com/, HE4872-PDS.pdf, HE4873-PDS.pdf).

The shell material is a halogen-free thermoplastic compound Mecoline IS TP 1035F, manufactured by Melos GmbH (Germany) (https://www.melos-gmbh.com/; https://www.melos-gmbh.com/fileadmin/templates/downloads /cable-compounds/melos-cable-compounds-portfolio-en.pdf).

The implementation of the structural elements of the cable from the proposed materials ensures the achievement of the claimed technical result.

Samples of the proposed cable and known cable were subjected to accelerated thermal aging test lasting 20 days at a temperature of 100°C with short-term immersion in diesel fuel. The test results are shown in the table.

Table

Name of indicator Suggested cable famous cable one. Shell strength
at break, kgf / cm ²
- in original condition
- after heat aging 106
117 111
102 2. Strength change
at break, % +11 -eight 3. Relative elongation of the shell at break, %
- in original condition
- after heat aging 150
123 130
84 four. Change in elongation at break, % -eighteen -35 5. Resistance to the spread of burning wires located in bundles,
GOST IEC 60332-2-22-2011 The length of the burnt part of the cable,
0.54 m The length of the burnt part of the cable,
0.64 m 6. Smoke formation during combustion and smoldering,
GOST IEC 61034-2-2011 Minimum
meaning
light transmission, 86.7% Minimum
meaning
light transmission, 83.34%

As follows from the presented data, after accelerated aging, the tensile strength of the sheath of the proposed cable increased, and the strength of the sheath of the known cable deteriorated. In addition, after accelerated aging, the relative elongation at break of the sheath of the proposed cable has changed less than that of the sheath of the known cable. At the same operating temperatures and annual operating time, the proposed cable will have a longer service life than the known cable, due to the higher resistance to thermal aging. Also, the proposed cable is resistant to the spread of combustion during group laying and low smoke formation when exposed to an open flame.

Thus, when using these materials and structural elements of the cable, a technical result is achieved, which consists in increasing the service life of the cable in terms of increasing the operating time of the cable at an operating temperature of plus 70°C.

Claims (3)

1. A cable for digital communication systems containing tinned copper conductors twisted into a pair with polyolefin insulation, while the pairs are twisted together into a core, on top of which a screen of aluminum foiled polymer tape is successively superimposed, the second screen is in the form of a braid of tinned copper wires and a polymer shell, characterized in that a halogen-free thermoplastic compound of the Mecoline IS TP 1035F brand is used as the shell material. 2. Cable for digital communication systems according to claim 1, characterized in that solid polyolefin is used as insulation. 3. Cable for digital communication systems according to claim 1, characterized in that porous polyolefin is used as insulation.

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