RU180122U1 - CABLE FOR RAILWAY SYSTEMS AND LOCKING - Google Patents

Abstract

The utility model is intended for use in electrical installations, fire alarms and communication systems. EFFECT: improved reliability and manufacturability of cable installation, as well as increased protection against electromagnetic effects. Cable 1 contains twisted into a pair or single copper conductors 2 or pairs of conductors insulated from solid, film-porous or film-porous-film polymer material 3. The cores are twisted into elementary bundles 4 and in turn are connected to the core 6. The core 6 is enclosed in successively overlapping layers of waist insulation 7, is made waterproof and placed in a protective hose 20 made of light bilizirovannogo polyethylene. 1 s.p. f-ly; 1 ill.

Description

The utility model relates to cable technology, namely to the design of cables for communication systems, alarm systems, interlocks and telemechanics, as well as for electrical installations for signaling and interlocking for general industrial use, fire alarms and automation.

A number of cables for signaling and blocking with conductive cores insulated with polyethylene and a sheath of polymeric material are known in the art. Known cables, as a rule, are characterized by the presence in their design of conductive copper conductors, which are twisted in pairs or made in the form of single conductors, insulated with solid, film-porous or film-porous-film polymer material of various colors.

For example, in patent RU No. 60779 U1 dated January 27, 2007, a cable is described in which the cores are twisted into elementary bundles and wrapped with a fastening thread or tape, and the bundles are twisted in turn into a core. A belt insulation of polymer tape and an insulating sheath of polymer material are applied over the core.

In patent RU No. 69306 U1 dated 12/10/2007, various cable variants are proposed for signaling and blocking a core containing twisted insulated conductive cores with a sequentially insulated synthetic tape, as well as a shield, armor and an outer sheath. Cable options are distinguished by a combination of materials for the manufacture of insulating material of conductive conductors and material for the outer sheath of the cable, as well as screen and armor. The material for the outer shell is made of a halogen-free material based on a polymer composition.

The cable for communication, signaling and blocking systems according to patent RU No. 83874 U1 dated 06/20/2009 contains a core of twisted conductive conductors insulated with a thermoplastic halogen-free material based on a polymer composition and includes strands of water-blocking material, and the belt insulation is made in the form of a tape of water-blocking material. On top of the belt insulation is a control core insulated with a porous polymeric material.

A disadvantage of the known cable designs is the low moisture resistance of the cable and, as a consequence, the increased risk of a short circuit during operation of the cable under the influence of condensate, corrosion and the integrity of the shields and steel armor, and therefore the reduction of the cable's protection from external electromagnetic influences.

The cable closest in design to the proposed utility model is described in patent RU No. 66107 U1, 08.27.2007, which is also selected as a prototype. The cable contains conductive single or twisted in a pair of copper conductors, insulated by solid, film-porous or film-porous-film polymer material, which are twisted into elementary bundles. Elementary bundles are wrapped with a bonding thread or tape and twisted in turn into a core that is filled with a hydrophobic aggregate. Belt insulation and an insulating sheath made of a polymer material are sequentially applied to the core. The belt insulation is made of a polymer tape and a tape of a water blocking material or a combination tape consisting of a layer of polymer material and a layer of a water blocking material. An uninsulated control single or multi-wire copper core is additionally laid under, on top or between the bands of the belt insulation. The control copper core is insulated with a layer of porous polymeric material or a layer of continuous polymeric material having at least two through holes at a length of 1 m. The cable additionally contains a screen made of aluminum or aluminum-polymer tape and a tinned copper contact wire, laid on top of the belt insulation, and also sequentially laid on top belt insulation an intermediate insulating shell made of a polymeric material, alternating layers of polymer or paper tapes and tapes of water blocking material under or between which is the aforementioned single or multi-wire control core, uninsulated or insulated with a layer of porous polymeric material or a layer of continuous polymeric material, and the aluminum shell is coated with a layer of bitumen. A cushion of crepe paper tapes or non-woven fabric coated with a bitumen composition, or a tape of water-blocking material and armor in the form of a winding of two steel tapes or corrugated steel tape, externally coated with a layer of bitumen, is made on top of an insulating shell of polymeric material. On top of the sheath of polymer material, the cable additionally has sequentially applied tapes of water-blocking material, armor of corrugated steel-polymer tape and an outer protective sheath of polymer material.

The prototype is characterized by insufficient moisture protection of the cable, which increases the risk of penetration of condensate of water vapor into the structure of elementary bundles from conductive cores, the penetration of moisture to the shield and armor and leads to corrosion and damage to the integrity of the cable, and also reduces its protection from external electromagnetic influences.

The objective of the utility model is to eliminate these drawbacks and improve the technical characteristics of the cable.

The technical result of the utility model is to improve operational reliability, manufacturability of cable installation, as well as increasing the degree of protection of the cable from electromagnetic influences.

The technical result is achieved by the fact that the cable for railway signaling and blocking systems, containing conductive copper conductors with insulation from a film of polymer material, which are twisted into elementary bundles, wrapped with a fastening element in the form of a tape, which are twisted in turn into a core, sequentially laid on the core belt insulation of polymer tape and tape of water blocking material, an insulating sheath of polymer material and a control copper core, according to a utility model, The clear insulation of the core is sealed from two water-blocking tapes, between which a polymer tape is placed, while the core is waterproof and enclosed in successively cylindrical layers, including a screen of aluminum-polymer tape with a thickness of at least 0.1 mm and a double-sided polymer coating, polyethylene sheath, a winding from a longitudinally laid tape from a water-blocking material, a screen from aluminum wires, a winding from a longitudinally laid water-blocking tape, poly ylene shell and winding of water-blocking tape, and armor of two galvanized steel tapes, and a protective hose of stabilized polyethylene.

The screen of the polymer-coated aluminum-polymer tape contains tinned copper wire, and the aluminum-polymer tape is laid inside with metal.

The essence of the utility model is illustrated by the drawing, where in FIG. 1 is a cross-sectional view of a cable.

The cable 1 contains twisted insulated conductive copper conductors 2 coated with a continuous polymeric material 3 (for example, film-porous or film-porous-film) with a color marking in the form of longitudinally specified color strips 22 and twisted into elementary bundles 4, which are wrapped with fastening elements with tape 5 (or possibly a thread), marked with colored stripes (not shown in the drawing), and twisted in turn into a core 6 with jointly water blocking threads 21, a belt insulation 7 superimposed on it and a control copper core at 8; the waist insulation of the core 6 is sealed, which is achieved by the use of two water-blocking tapes 9 and 10, between which a polymer tape 11 is placed; the core 6 is enclosed in successively cylindrical layers: a screen 12 of an aluminum-polymer tape with a thickness of at least 0.1 mm with a double-sided (possibly single-sided) polymer coating (not shown in the drawing), a polyethylene sheath 13, a winding 14 of a water blocking tape (possibly also of a thread or a semiconducting water blocking tape), a screen 15 of aluminum wires, a winding 16 of a water blocking tape (possibly a thread or a semiconducting water blocking tape), a polyethylene sheath 17 and a winding 18 of a water blocking Options (possibly yarns), and the armor 19 of the two galvanized steel tapes and the protective tube 20 of the stabilized polyethylene.

Cable 1 is manufactured using industrial cable equipment as follows, with the preliminary preparation of copper wire for the manufacture of copper conductive cores 2 on drawing machines with the installation of the corresponding annealing mode.

Copper conductive conductors 2 are insulated by coating with a continuous polymer material 3 (for example, film-porous or film-porous-film) on an extrusion line having an extruder with the required screw diameter.

Insulated conductive copper conductors 2 (possibly also twisted into a pair of conductors) are twisted into elementary bundles 4 together with water-blocking threads and connected with fastening elements - water-blocking tapes 5 (possibly threads) made of synthetic material. Then the bundles 4 are twisted into a core 6 together with water blocking tapes 21 (possibly threads) on SZ twisting machines.

Next, a core insulation 7 is laid on the core 6 with laying the control copper core 8. The waist insulation 7 of the core 6 is sealed from two water-blocking tapes 9, 10 between which a polymer tape 11 is placed. Then, cylindrical layers consisting of : screen 12 based on aluminum-polymer tape with a thickness of at least 0.1 mm with a double-sided polymer 6

a coating (possibly also one-sided) (not shown), a polyethylene sheath 13, a winding 14 of a water blocking tape (possibly also of a thread or a semiconducting water blocking tape), a screen 15 of aluminum wires, a winding 16 of a water blocking tape (possibly a thread or a semiconducting water blocking tape), a polyethylene sheath 17 and a winding 18 from a water blocking tape (or thread), an armor 19 from two steel galvanized tapes of type B and a protective hose 20 from light-stabilized polyethylene of type Ш _п .

The core 6 with the number of copper conductive single cores 2 or pairs more than 10 and perform in the form of elementary bundles 4 with unidirectional or multidirectional twisting.

The control copper core 8 is made of soft copper wire with a cross section of 0.18-0.4 mm ² .

The screen 12 based on an aluminum-polymer tape with a polymer coating contains a tinned copper wire, while laying the aluminum-polymer tape is metal inside.

A protective hose 20 made of light-stabilized polyethylene is placed on an extrusion line with an extruder with a screw diameter of 90-250 mm.

Armor 19 of two galvanized steel tapes is applied on tape armoring machines or on the corrugated armor application line.

In order to increase the manufacturability of installation in the manufacture of cable 1, insulation from a film of polymeric material 3 of each core 2 or twisted pair of wires 2 of core 6, as well as fastening elements - tapes 5 of elementary bundles 4, are made with special color marking in the form of longitudinal stripes 22. Color of longitudinal stripes 22 or a combination of colors is different from the insulation color of other cores or pairs of cores in elementary bundles 4. Alternating the color combination of insulation of cores 2 in bundles 4 of core 6 and the color of the fastening elements in the form of tape 5 depending on the cross section of the cable 1. The insulation of each core 2 (or twisted pair of cores) of the core 6 may also contain a digital marking. Digital marking is applied to the surface of the film of polymer insulation material, which corresponds to the conditional numbers of the color marking of cores 2 in each elementary bundle 4 or core 6 (not shown in the drawing).

The table below shows the technical characteristics of cable 1, according to the utility model, in comparison with similar cable parameters of the prototype.

Claims (2)

1. A cable for railway signaling and blocking systems, containing conductive copper conductors with insulation from a film of polymer material, which are twisted into elementary bundles, wrapped with a fastening element in the form of a tape, which are twisted in turn into a core, sequentially laid on the core of a belt insulation made of polymer tapes and tapes made of water-blocking material, an insulating sheath made of polymer material and a control copper core, characterized in that the belt insulation of the core is sealed one of two water-blocking tapes, between which a polymer tape is placed, the core being made waterproof and enclosed in successively cylindrical layers, including a screen of aluminum-polymer tape with a thickness of at least 0.1 mm with a double-sided polymer coating, a polyethylene sheath, a winding of longitudinally laid tape of water-blocking material, a screen of aluminum wires, a winding of longitudinally laid water-blocking tape, a polyethylene sheath and a winding of water-blocking minutes of tape, and armor of two galvanized steel tapes, and a protective hose of stabilized polyethylene. 2. The cable according to claim 1, characterized in that the screen of the polymer-coated aluminum-polymer tape contains tinned copper wire, and the aluminum-polymer tape is laid inside with metal.

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