RU156366U1 - COMMUNICATION CABLE LOW FREQUENCY - Google Patents

Abstract

1. A low-frequency communication cable having: a conductive core, a belt insulation and a sheath overlaid on the core, where the conductive core consists of copper single-wire insulated conductors twisted into fours, which, in turn, are twisted together by concentric layers, where the insulation of conductive conductors is made of three layers - the outer and inner layers of solid polyethylene, and the middle layer of porous (foamed) polyethylene, characterized in that the shell is made of a non-combustible polymer composition uu not containing halogens, wherein the top shell may be applied armor over which - protective hose incombustible resin composition containing not galogenov.2. A cable according to claim 1, characterized in that the four conductive conductors are twisted around polystyrene threads. 3. The cable according to claim 1, characterized in that the twisted four is wrapped in an open spiral with a synthetic tape that is color-distinctive. 4. A cable according to claim 1, characterized in that a shield of aluminum-polyethylene tape is laid over the belt insulation. The cable according to claim 1, characterized in that a tinned copper contact wire with a diameter of at least 0.4 mm is laid along the screen. The cable according to claim 1, characterized in that in the cable the nominal number of twisted fours is 1, 3, 4, 7, 12, 14, 19, 27, 37, 52, 61, 80, 102, 114.7. The cable according to claim 1, characterized in that the belt insulation is made of polymer tapes.

Description

The utility model relates to cable technology, namely, to low-frequency communication cables for ATS, MTS and internal electrical installations. The cable has an extended scope - it is intended for group laying in buildings and structures with a mass stay of people, including multi-purpose high-rise buildings and complex buildings.

The cable operating voltage is up to 430 V DC or up to 300 V AC with a nominal frequency of 50 Hz.

Known low-frequency communication cable with paper-cord insulation in a lead sheath (Belorussov NI and other Electric cables, wires and cords: Reference book. - M .: Energoatomizdat, 1988, pp. 333, 365).

The use of cord-paper insulation of conductive wires does not allow to obtain stable electrical characteristics of the communication cable. Lead casing is not environmentally friendly, while paper insulation, when wet, worsens the electrical characteristics of the communication cable, and in a dry state does not provide sufficient fire safety that meets the requirements for equipment operating in buildings and structures with a large stay of people, including multi-purpose high-rise buildings and buildings -complexes.

Fire safety is a serious problem, the efforts of the developers of cable products are aimed at solving it and a halogen-free polymer composition is used in the cable products to solve it.

The prior art cables are known in which a halogen-free polymer composition is used, for example:

- (19) RU, 113063, (13) U1, (51) IPC H01B 7/295 (2006.01), (54) CABLE FLEXIBLE, INCREASED FIRE SAFETY, RESISTANT TO AGGRESSIVE MEDIA;

- (19) RU, (11) 109906, (13) U1, (51) IPC H01B 11/02 (2006.01), (54) CABLE FOR COMMUNICATION, AUTOMATION, SIGNALING AND LOCKING SYSTEMS.

The above, and others, identified from the prior art cables, which include a polymer composition that does not contain halogens, have a purpose different from the purpose of the claimed cable and, accordingly, a design that does not match the design of the claimed cable.

Closest to the claimed technical solution is the technical solution of the cable, patented as (19) RU, (11) 119929, (13) U1, (51) IPC H01B 11/02 (2006.01), (54) COMMUNICATION CABLE LOW FREQUENCY WITH FILM PORISTO -FILM POLYETHYLENE INSULATION.

This cable has a core of conductive conductors, a belt insulation and a sheath. Copper single-wire insulated conductors are twisted into fours, which, in turn, are twisted into the core of the cable. The cable can have from 1 to 114 twisted fours of veins. The insulation of the conductive conductors is made of three-layer polyethylene, while the outer and inner layers are made of solid polyethylene, the middle layer is made of porous (foamed) polyethylene. The belt insulation is made of polymer tapes, and the shell is made of polyethylene.

A screen of aluminum-polyethylene tape can be placed over the waist insulation and a tinned copper contact wire with a diameter of at least 0.4 mm is laid along the screen.

A cushion, armor from two steel tapes and an external protective cover can be applied over the shell.

A significant drawback of this cable is its low fire safety, since the sheath used in it is made of polyethylene.

The technical result from the use of the proposed technical solution is a significant improvement in both fire safety and the indicators of corrosive activity of smoke and gas products during combustion and decay due to the use of a halogen-free combustible material for the shell and the outer protective coating over the armor.

Description of the claimed technical solution

The low-frequency communication cable (hereinafter referred to as the cable) is made of a core, on top of which are sequentially applied: belt insulation, screen and sheath.

Belt insulation can be made of polymer tapes.

The screen is made of longitudinally located aluminum-polymer tape.

A tinned copper contact wire with a nominal diameter of at least 0.4 mm is laid under the screen.

The shell is made of a halogen-free polymer composition.

The cable may have armor from two steel galvanized tapes and a protective hose from a halogen-free polymer composition.

The core is formed by fours twisted by concentric coils.

The nominal number of fours in the cables can be - 1, 3, 4, 7, 12, 14, 19, 27, 37, 52, 61, 80, 102, 114.

Four insulated cores are twisted into a four, in the center of which there can be a filler made of polystyrene filament.

Twisted four can be wrapped in an open spiral with a distinctive synthetic ribbon or thread.

Conducting single-wire cores are made of soft copper wire.

The insulation of these cores is made of three layers. The first and third layers are made of solid polyethylene, the second layer is made of porous.

In the attached drawing (Figure), the cable is shown in section.

Film-porous film insulation (2) consisting of three layers is applied to single-wire conductive conductors (1). Four insulated cores are twisted into a four (3) around a central filler made of polystyrene filament (4). A twisted four is wrapped in an open spiral with a distinctive synthetic ribbon or thread (5). Fours are twisted into the core of the cable, on which a belt insulation of polymer tapes is applied (6). At the same time, a longitudinal screen of aluminum-polymer tape with overlapping (7) and a shell of a halogen-free polymer composition are simultaneously superimposed on top of the waist insulation. (8). A tinned copper contact wire (9) is laid along the screen.

All materials used in the manufacture of cables comply with the approved regulatory and technical documentation for them.

The twisting steps of insulated cores in different quadruples vary and should be in the range from 100 to 300 mm.

An example of a low-frequency communication cable:

The cable has a core that is twisted in concentric layers of twisted together fours of single-wire conductors. Fours can be any number from 1 to 114.

Belt insulation is applied over the core and consists of polymer tapes.

On top of the belt insulation, a screen of aluminum-polymer tape is longitudinally placed.

A tinned copper contact wire with a nominal diameter of at least 0.4 mm is laid under the screen.

The next layer is the shell, which consists of a halogen-free polymer composition.

The protective cover is made of armor, consisting of two steel galvanized tapes and a protective hose made of a halogen-free polymer composition.

Conductors made of copper soft wire made of wire rod according to GOST R 53803-2010. The nominal diameter of the conductive core is 0.90 or 1.2 mm. The cores must not have burrs, cutting edges, breaks, leading to damage to the insulation. Conductors are insulated with three layers of polyethylene:

- a layer of continuous polyethylene brand LE 8706;

- a layer of porous polyethylene brand HE 4873;

- a layer of continuous polyethylene brand HE 3366. The total insulation thickness is 0.5 mm. The insulation should not have gaps, impurities and inclusions, on the outer surface of the insulation should not be dents, sag and thickenings. The insulation must be airtight.

The four are twisted by star twisting, while two veins located diagonally form a working pair. Isolation of the veins of the first pair of four - red and yellow (or natural) colors, the second pair - blue and green.

The twisted four is wrapped in an open spiral with a distinctive synthetic ribbon. The colors of ribbons and threads (distinctive elements) of all fours twisted with different twisting steps should vary. The bright colors of the insulation of the conductors and the distinctive colors of all fours in the cable are used to ensure compliance with electrical safety requirements and facilitate the installation of the cable.

Claims (7)

1. A low-frequency communication cable having: a conductive core, a belt insulation and a sheath overlaid on the core, where the conductive core consists of copper single-wire insulated conductors twisted into fours, which, in turn, are twisted together by concentric layers, where the insulation of conductive conductors is made of three layers - the outer and inner layers of solid polyethylene, and the middle layer of porous (foamed) polyethylene, characterized in that the shell is made of a non-combustible polymer composition uu not containing halogens, wherein the top shell may be applied armor over which - protective hose incombustible resin composition containing no halogen. 2. The cable according to claim 1, characterized in that the four conductive conductors are twisted around polystyrene threads. 3. The cable according to claim 1, characterized in that the twisted four is wrapped in an open spiral with a color-distinctive synthetic tape. 4. The cable according to claim 1, characterized in that a shield of aluminum-polyethylene tape is applied over the belt insulation. 5. The cable according to claim 1, characterized in that a tinned copper contact wire with a diameter of at least 0.4 mm is laid along the screen. 6. The cable according to claim 1, characterized in that in the cable the nominal number of twisted fours is 1, 3, 4, 7, 12, 14, 19, 27, 37, 52, 61, 80, 102, 114. 7. The cable according to claim 1, characterized in that the belt insulation is made of polymer tapes.

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