RU117706U1 - CONTROL CABLE FIRE RESISTANT FLEXIBLE - Google Patents

Abstract

1. Fire-resistant flexible control cable, including copper flexible conductors, covered with fire-resistant insulation in the form of a winding with two glass mica tapes, overlapping in opposite directions, and polymer insulation, twisted into pairs and / or triplets, and then into a core separating the element from a synthetic film made of a halogen-free composition with a reduced smoke and gas emission, in the form of a double overlapping winding, at least one screen separating a reinforced element made of a synthetic film made of a halogen-free composition with a reduced smoke and gas emission, in the form of a two-layer multidirectional overlapping winding, steel wire armor, and a protective sheath made of flame-retardant polymer material, and twisted pairs and / or triplets have polymer insulation for separately shielded pairs or triplets, and the shield and armor coating are filled with water-blocking material a, characterized in that the extruded polymer insulation of conductive conductors and separately shielded pairs and / or triplets is made of a halogen-free composition with low smoke and gas emission, and the protective shell is made of PVC compound with low smoke and gas emission, the armor coating is made in the form of a winding with steel wires, fastened with a winding of evenly distributed synthetic threads, while the dividing elements are made of a three-layer polypropylene film, in which each layer oriented in one direction is at right angles to the previous one

Description

The utility model relates to the field of electrical engineering, namely, to the construction of fire-resistant flexible control cables designed for industrial data networks, control stations, alarm systems, control, regulation of electronic equipment, automation systems, for the installation of electrical installations.

Known control cables brands KUGVV, KUGVVE and KUGVEV having copper conductors, insulation and a sheath of PVC compound. (Cables that do not spread combustion, with low smoke and gas emission. TU 16. K71-310-2002).

However, such cables do not meet the fire resistance requirements.

An analogue is a control and data transmission cable, including copper flexible conductive cores coated with insulation from a polymeric material and twisted into a core, separating an element from a synthetic film, at least one screen, an armor coating made in the form of a winding with steel wires fastened with reverse strands wires, and placed between the inner and protective sheaths made of polymer materials that do not spread combustion. The conductive conductors are twisted into pairs and / or triples having polymer insulation on individually shielded pairs or triples, while the screen and the shell coating are additionally provided with a layer of water-blocking material. (Utility model of Ukraine No. 31852, IPC Н01В 11/18 of December 10, 2007).

However, the analogue has a drawback: a large emission of smoke and harmful substances during combustion, which severely limits the use of cables in modern fire safety requirements.

An analogue is also a fire-resistant cable of the KPETI brand “ng (A) -FRLS”, including several conductive cores, fire-resistant insulation from glass mica and polymer insulation from cross-linked polyethylene, a sheath of a halogen-free composition. The cable is designed to transmit electrical signals in circuits with voltages up to 100 V. A glass mica tape consists of a glass tape, a layer of mica and a binder of silicone varnish. (Magazine “Cables and Wires” No. 2, 2002, p. 45).

The main disadvantages of this cable include the fact that it has low flexibility due to the high rigidity of the halogen-free sheath. In addition, the shell with a short-term temperature increase above 120 ° C loses its mechanical strength.

The prototype is a “ng (A) -FRLS” control cable containing copper conductive cores, each of which has a thermal barrier made of at least one mica-containing tape spirally applied, insulation from extruded low-risk PVC compound, insulated cores are twisted into a core, over which a winding is applied in the form of a tape of polyimide, polyamide or polyethylene terephthalate film, the outer shell made of extruded polyvinyl chloride plastic compound down constant flammability, on top of each insulated conductor screen in the form of a braid of tinned copper wire with a surface density of braiding ratio of not less than 70%, over the screen in winding a braid of tinned copper wire with a surface density of braiding ratio of not less than 70%. These cables have high performance, including flexibility. (Utility model RU No. 399868, IPC ⁷ Н01В 9/00, dated May 20, 2004).

However, at present, the specified cable does not comply with modern standards for light transmission during combustion.

The basis of this utility model is the task of creating such a design of a fire-resistant flexible control cable, in which due to the introduction of new elements, new materials and new connections, it would be possible to increase its operational characteristics, including flexibility, and also to ensure compliance with modern fire standards safety, including light transmission.

The task is achieved by the fact that in the fire-resistant flexible control cable, including copper flexible conductive cores, coated with fire-resistant insulation in the form of a winding with two glass mica, superimposed overlapping in opposite directions, and insulation from a polymeric material, twisted into pairs and / or triples, and then in the core separating the element from a synthetic film made of a halogen-free composition with reduced smoke and gas emission in the form of a winding with double overlap, at least one screen separating the reinforced element of a synthetic film made of a halogen-free composition with reduced smoke and gas emission, in the form of a two-layer multidirectional winding with overlapping, an armor-clad coating of steel wires, and a protective sheath made of a flame-retardant polymer material, with twisted pairs and / or triples have polymer insulation on individually shielded pairs or triples, and the screen and shell coating are filled with water-blocking material, according to a useful extruder model This polymer insulation of conductive conductors and separately shielded pairs or triples is made of a halogen-free composition with low smoke and gas emission, and the protective sheath is made of polyvinyl chloride plastic compound with low smoke and gas emission, the carapace made in the form of a winding with steel wires is fastened with a winding of evenly distributed synthetic threads, while the separating elements are made of a three-layer polypropylene film in which each layer is oriented in the same direction located at right angles to the previous oriented film layer.

The advantage of the proposed fire-resistant flexible control cable is that, due to the extruded insulation of conductive conductors and separately shielded pairs or triples of a halogen-free composition with low smoke and gas emission, and a protective sheath made of PVC with low smoke and gas emission, the shell shell made in the form of a winding with steel wires, fastened by a winding of uniformly distributed synthetic threads, while the separating elements are made of three-layer polypropylene film, in which each oriented in one direction layer is located at right angles to the previous oriented film layer, its performance characteristics, including flexibility, are significantly improved, and compliance with modern fire safety standards, including fire resistance and light transmission, is also ensured. .

Separating elements of a halogen-free material with reduced smoke and gas emission are made of a three-layer polypropylene film in which each layer oriented in one direction is located at right angles to the previous oriented film layer, which significantly increases its mechanical strength.

Filling the screen and the shell coating with a water-blocking material increases the service life of the screen and the shell coating by almost 2 times due to the elimination of oxidation of the metal of the conductor due to condensation and other moisture (for example, with longitudinal water leakage), while the cable’s flexibility does not decrease and its vibration resistance increases . In addition, due to the fact that the conductive conductors are twisted into pairs and / or triples having polymer insulation on individually shielded pairs or triples, the cable can be operated in modern digital control systems.

The screen is made in the form of a braid of copper wires superimposed on a separating element made in the form of a winding of synthetic film no lower than double overlap, which eliminates damage to the insulation by the screen wires and significantly increases the reliability and service life of the cable.

The winding of the carapace of synthetic threads can be made of three polyester threads.

The cable may have a common screen along the core and / or separately twisted module, which increases the noise immunity of the cable.

Polymer insulation in separately shielded pairs or triples can be made in the form of a winding from a three-layer polypropylene film and / or in the form of an extruded coating from a halogen-free composition with low smoke and gas emission.

Water-blocking material can be made on the basis of organosilicon paste.

The proposed utility model is schematically shown in cross section on the figure, where: 1-flexible conductive core; 2-fire-resistant insulation in the form of a winding with two glass mica, 3-polymer insulation, 4-twisted pair and / or triple, 5-separating element, 6-screen on twisted pair and / or triple in the form of a braid with filling from water blocking material, 7- polymer insulation in the form of an extruded coating or winding, 8-common screen in the form of a braid filled with water-blocking material, 9 - separating reinforced element, 10-shell coating made in the form of a winding with steel wires filled with water-blocking material, bonded winding of uniformly distributed filament, 11-containment.

The fire-resistant flexible control cable contains copper flexible conductive conductors 1, coated with fire-resistant insulation 2 in the form of a winding with two glass mica, overlapping in opposite directions, and insulation 3 made of polymer material, twisted into pairs and / or triples 4, and then into the core separating element 5 from a synthetic film made of a halogen-free material with reduced smoke and gas emission in the form of a double-overlap winding, at least one screen 6 separating the reinforced element 9 from synthetic lenok made of a halogen-free composition with reduced smoke and gas emission, in the form of a two-layer multidirectional winding with overlapping, shell coating 10 of steel wires, and a protective sheath 11 made of a flame-retardant polymer material, with twisted pairs and / or triples 4 have polymer insulation 7 on separately shielded pairs or triples 4, and the screen 6, 8 and the shell coating 10 are provided with a filling of water-blocking material. In the cable, extruded polymer insulation 3 conductive conductors 1 and insulation 7 for separately shielded pairs or triples 4 are made of a halogen-free composition with low smoke and gas emission, and the protective sheath 11 is made of low-smoke and gas emission PVC plastic compound, shell-like coating 10, made in the form of a winding with steel wires, fastened by a winding of uniformly distributed synthetic threads, while the separating elements 5 and 9 are made of a three-layer polypropylene film, in which each oriented in one direction, the layer is located at right angles to the previous oriented layer of the film.

Example. The fire-resistant flexible ng (A) -FRLS ”control cable shown in the figure contains 10 conductive conductors 1 each with a cross-section of 0.75 mm ² of a flexibility class of 5 according to GOST 22483 classification, coated with fireproof insulation 2 in the form of a winding with two glass mica, overlapping in opposite directions , and extruded insulation 3 from a halogen-free composition with low smoke and gas emission. Insulated cores 1 are twisted in pairs (triples) 4, each of which is sequentially covered with a separating element 5, which is made in the form of a winding with double overlap, and has a screen 6 along a twisted pair (three) 4 in the form of a braid of copper wires with a water blocking filling material made on the basis of organosilicon paste, and coated with polymer insulation 7 from an extruded halogen-free composition with low smoke and gas emission. Two pairs 4 and two triples 4 are twisted into a core coated with a separating element 5, made in the form of a winding with double overlap, and a common screen 8 in the form of a braid of copper wires filled with water-blocking material made on the basis of organosilicon paste.

Next, a separating reinforced element 9 is sequentially applied in the form of a two-layer multidirectional winding with an overlap of 5-10%, the armor coating 10 in the form of a winding with steel galvanized wires, equipped with a filling of a water blocking material made on the basis of organosilicon paste, fastened by a winding of uniformly distributed synthetic threads, namely, three polyester yarns laid in the opposite direction than the winding with steel wires, the separating element 5 in the form of a winding with overlapping 5 -10% and containment 11.

The separating elements 5 and 9 are made of a halogen-free material with reduced smoke and gas emission in the form of a three-layer polypropylene film having sufficiently high dielectric and mechanical properties, since each film layer oriented in one direction is located at right angles to the previous oriented film layer. The protective shell 11 is made of PVC with low smoke and gas emission, not spreading combustion.

Claims (5)

1. The control cable is fire-resistant flexible, including copper flexible conductive conductors, coated with fire-resistant insulation in the form of a winding with two glass mica, overlapping in opposite directions, and insulation made of polymeric material, twisted into pairs and / or triples, and then into the core separating element from a synthetic film made of a halogen-free composition with reduced smoke and gas emission, in the form of a winding with double overlap, at least one screen separating the reinforced element from synthetic a wire made of a halogen-free composition with reduced smoke and gas emission, in the form of a two-layer multidirectional winding with overlapping, an armor-clad coating of steel wires, and a protective shell made of a flame-retardant polymer material, and twisted pairs and / or triples have polymer insulation on separately shielded pairs or triples, and the screen and shell coating are equipped with a filling of water-blocking material, characterized in that the extruded polymer insulation of conductive fluids and separately shielded pairs and / or triples are made of a halogen-free composition with low smoke and gas emission, and the protective sheath is made of polyvinylchloride plastic compound with low smoke and gas emission, the shell-like coating made in the form of a winding with steel wires is fastened by a winding of uniformly distributed synthetic threads, while the separating elements are made of a three-layer polypropylene film in which each layer oriented in one direction is located at right angles to the previous one rientirovannomu film layer. 2. The cable according to claim 1, characterized in that the winding of the carapace of synthetic fibers is made of three polyester threads. 3. The cable according to claim 1, characterized in that it has a common screen along the core and / or separately twisted module. 4. The cable according to claim 1, characterized in that the polymer insulation for individually shielded pairs or triples is made in the form of a winding of a three-layer polypropylene film and / or in the form of an extruded coating from a halogen-free composition with low smoke and gas emission. 5. The cable according to claim 1, characterized in that the water blocking material is made on the basis of silicone paste.