RU181872U1 - HIGH-FREQUENCY COMMUNICATION CABLE WITH CORDEL-POLYSTYRENE INSULATION - Google Patents

Abstract

The claimed technical solution relates to cable technology, namely to the design of high-frequency communication cables with polystyrene insulation, intended for use on trunk and intrazonal primary networks and connecting lines of urban telephone networks, in digital transmission systems with a speed of 8448 kbit / s, 34368 kbit / s and analog transmission systems in the frequency range up to 5000 kHz for operation with alternating voltage of remote power supply up to 690 V or constant voltage up to 1000 V. The cable contains copper current conductive conductors insulated with polystyrene filament (cordelet) superimposed by an open spiral and polystyrene tape superimposed overlapping to the opposite side to the filament direction, twisted into star quads around a filler core made of polymeric material, wrapped with fastening threads, which, in turn twisted into a core. Cable core, a welded aluminum shell and a protective polymer shell are sequentially superimposed on the core.

Description

The invention relates to cable technology, namely to the construction of communication cables with polystyrene insulation, intended for use on trunk and intrazonal primary networks and trunk lines of City telephone networks, in digital transmission systems with a speed of 8448 kbit / s, 34368 kbit / s and analog transmission systems in the frequency range up to 5000 kHz for operation with alternating voltage of remote power supply up to 690 V or constant voltage up to 1000 V.

Known communication cables are high-frequency trunk with cordless-tubular polyethylene insulation brand MKPASH TU U 31.3-31600918-13: 2009 "Communication cables are trunk high-frequency symmetric with cord-tubular polyethylene insulation for analog and digital transmission systems." The cable contains copper conductive conductors insulated with cord-tubular polyethylene insulation, twisted into a star four, which in turn are twisted into the core of the cable. On top of the core, belt insulation from cable paper tapes, an aluminum extruded shell, a layer of bitumen and a polymer shell are applied.

The disadvantages of this cable are

- cord-tubular polyethylene insulation does not provide a uniform diameter of the insulated core along the length of the product, which leads to instability of the electrical characteristics of the cable and lower high-frequency characteristics. In the seven-cable MCP cable, only four fours can be used as high-frequency, and three fours are used as low-frequency. This cable is intended only for analog transmission systems in the frequency range up to 252 kHz;

- extruded aluminum shell is made of aluminum ingots by extrusion. Extruded aluminum shell has lower mechanical strength compared to welded aluminum shell and does not provide stability of geometric dimensions along the length of the product, which also leads to instability of electrical characteristics.

The objective of the proposed technical solution is to develop a design of a symmetric high-frequency communication cable with cordier-polystyrene insulation, with a screen made of welded aluminum sheath to ensure stability of geometric dimensions and improve the electrical characteristics of the cable.

The technical result is achieved as follows. In the high-frequency communication cable, copper conductive cores insulated with polystyrene insulation are twisted into star quadruples around a filler core made of polymer thread, which, in turn, are twisted into the core of the cable, belt insulation is made of cable paper along the core, and the screen is made of welded aluminum shells and polymer shell.

Cord-polystyrene insulation consists of a polystyrene thread (cordel), laid with an open spiral, and a polystyrene tape, laid with overlapping in the direction opposite to the direction of the thread, has a stable diameter along the length of the product. The polystyrene thread is applied with a pitch of 5.5 mm, it has high mechanical strength, which eliminates deformation when applying insulation, as a result, a stable diameter of the insulated core is ensured.

Welded aluminum sheath, made by high-frequency welding of aluminum tape, has increased mechanical strength, which also ensures the stability of geometric dimensions and high-frequency characteristics of the cable. In the seven-channel cable of the ISS, all fours can be used as high-frequency. The claimed utility model is illustrated in FIG. 1. In FIG. 1 shows a sectional view of a cable containing copper conductive conductors 1, each of which is coated with polystyrene insulation from polystyrene filament 2 and polystyrene film 3. Insulated conductors are twisted into a star four 4 around a filler core 5 of polymeric material, the four are wrapped with a fastening thread 6, which are twisted into the core of the cable 7. A belt insulation of cable paper 8 and a screen of aluminum tape 9 are applied over the core. A sheath of polymer composition 10 is applied over the screen.

The technological process of manufacturing a cable is as follows.

The overlay of cordier-polystyrene insulation 2,3 is made on single-pass vertical machines. Insulated cores are twisted around a filler core made of polymer thread 5 into a star four 4 and fastened with cotton threads 6 on a star four twisting machines. The twisting of the fours into the core 7 and the imposition of belt insulation 8 is carried out on lantern type machines. The aluminum shell 9 is superimposed on high-frequency welding mills. The protective polymer sheath 10 is applied on the extrusion line.

Claims (1)

 A high-frequency communication cable with cord-polystyrene insulation, containing copper conductive cores insulated with polystyrene filament (cordelet) superimposed by an open spiral and polystyrene tape superimposed overlapping in the direction opposite to the direction of the filament, twisted into star fours around a polymer filler corridor material wrapped with fastening threads, which, in turn, are twisted into a core, which is sequentially applied belt insulation of cable paper, welded aluminum and Magnesium shell protective polymer shell.

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