RU212963U1 - INSTALLATION CABLE, ARMORED - Google Patents

Abstract

The utility model relates to armored mounting cables for industrial automation systems. The technical task is to increase the strength of the cable by increasing the rigidity of the armor while maintaining the flexibility of the cable. The cable contains multi-wire insulated conductive conductors 1. The conductors are twisted into triples, which are twisted into a core 3. Belt insulation 4 is applied to the core, including tape 5 made of polyethylene terephthalate and tape 6 made of water-blocking material. An inner shell 7 is superimposed on the belt insulation. Armor 8 is superimposed on the shell 7, made in the form of a steel welded corrugated tube, the corrugations of which are located across the axis of the tube. Due to the bending of the corrugations, the extensibility of the steel armor in the axial direction is ensured. This gives the cable the flexibility needed for installation and for coiling during transport. A protective hose 10 made of polymer material is applied to the armor. 9 w.p. f-ly, 2 ill.

Description

The proposed utility model (PM) relates to cable technology, specifically to armored cables for installation in industrial automation systems.

Known cable according to the patent of the Russian Federation for PM No. 205559, including an aluminum corrugated outer sheath. The shell is made of an aluminum tube by pressing, while the extruded corrugations are made with rounded protrusions and depressions. As tests have shown, corrugated aluminum tube is not strong enough as armor. So, when laying a cable in the specified sheath underground, the aluminum material easily breaks when the earth layers move and the sheath loses its protective properties.

The closest to the proposed PM is, in our opinion, the cable according to the RF patent for PM No. 169973, the prototype. This cable contains an armor of two galvanized steel tapes wound on a polymer sheath, insulated copper conductors, belt insulation, including a water-blocking material in the form of a tape, and a protective hose.

The disadvantages of the prototype include the fact that the armor of steel tapes wound on a shell of polymer does not provide sufficient mechanical strength from lateral compressive loads. Such rigidity is necessary, for example, when installing a cable underground, where there may be movements of soil layers in directions across the cable route. At the same time, the design of the cable must provide sufficient flexibility for installation in areas with bends.

The technical task is to increase the strength of the cable by increasing the rigidity of the armor while maintaining the flexibility of the cable by providing longitudinal elongation of the armor.

The technical result is achieved by the fact that the installation cable, armored, containing insulated multi-wire copper conductors twisted into a common core of insulated conductors, pairs or triples, on which belt insulation is applied, including a tape of polyethylene terephthalate and a tape of water-blocking material, an inner sheath of polymer , armor made of steel, protective hose made of polymer, is characterized in that said armor is made in the form of a steel welded corrugated tube, in which the corrugation ribs are located across the axis of the tube.

In the cable, the insulation of the cores can be made of polyvinyl chloride plastic compound. In the cable, the core insulation can be made of a halogen-free polymer compound or a low fire hazard polymer material with low smoke and gas emission. In a cable, the combined core insulation can consist of two layers, the first of which is a fire-resistant mica-containing tape, the second layer is made of a halogen-free polymer compound or a low fire hazard polymer material with low smoke and gas emission. In the cable, the inner sheath can be made of polyvinyl chloride plastic compound, including low flammability. In the cable, the inner sheath can be made with a filling of polyvinyl chloride plastic compound, including low flammability. In the cable, the inner sheath can be made of a halogen-free polymer compound or a low fire hazard polymer material with low smoke and gas emission. In the cable, the inner sheath can be filled with a polymer compound that does not contain halogens, or filled with a polymer material of reduced fire hazard with low smoke and gas emission. In the cable, the protective hose can be made of PVC, including low flammability. In the cable, the protective conduit can be made of a halogen-free polymer compound or a low fire hazard polymer material with low smoke and gas emission.

The utility model is illustrated by drawings. In FIG. 1 schematically (not to scale) shows a cross-section of a cable. In FIG. 2 shows a partial cut of the cable.

In a specific example, the cable contains multi-wire conductors 1. The conductors are covered with insulation 2, which is a fire-resistant combination of mica tapes and a layer of polymer compound that does not contain halogens. The insulated cores are twisted into triples, which are twisted into a common core 3. Belt insulation 4 is applied to the core, including tape 5 of polyethylene terephthalate and tape 6 of water-blocking material. The belt insulation is overlaid with an inner sheath 7 made of a halogen-free polymer compound.

Armor 8 is superimposed on sheath 7. Armor 8 of the cable is made in the form of a welded steel corrugated tube. Corrugations 9 armor are located across the axis of the tube. Due to the bending of the corrugations, the armor is stretched in the axial direction. This feature gives the cable the flexibility required during installation and when winding the cable into a coil for transportation. A protective hose 10, made of a halogen-free polymer compound, is superimposed on the armor.

The cable is produced according to traditional technology on conventional factory equipment. Armor is made from steel tape by bending the tape into a tube, welding the edges along the contact line, and corrugating the welded tube using a special machine. The design of the machine is a matter of know-how. The view of the armor 8 is shown in detail in Fig. 2.

The cable is used in accordance with the rules for the installation of electrical installations and project documentation in terms of laying the installation cable during the installation of industrial automation systems.

According to the scheme described above, the Applicant's enterprise produced samples of twelve types of armored mounting cable, which differ in polymeric materials, from which the core insulation, inner sheath and protective hose are made. Tests have shown that armor in the form of a steel corrugated tube reliably protects cable cores from transverse compressive loads. At the same time, the bends of the corrugations provide the armor with sufficient extensibility, which gives the cable the flexibility necessary for winding into a coil during transportation, as well as when installing the cable in industrial automation systems in areas with turns at an angle of up to 90 °.

The proposed cable has an advantage in comparison with analogues. Corrugations of steel armor reliably protect cable cores from transverse compressive loads. At the same time, due to the bends of the corrugations, a certain extensibility of the steel armor is achieved, which provides the necessary flexibility to the installation cable. The water-blocking material protects the cable cores from moisture. Mica-containing tapes provide fire resistance of the insulation of the conductors of the cable. Polyvinylchloride compound of reduced fire hazard significantly reduces smoke in the room in the event of a fire, which allows you to safely evacuate personnel and extinguish the fire. The cable does not use scarce materials, almost all cable elements are produced by the domestic industry.

The Applicant has begun forming a portfolio of orders for the types of installation cable described above with steel armor of increased rigidity.

The new, industrially applicable armored installation cable device described above is proposed for legal protection by a utility model patent.

Claims (10)

1. Installation cable, armored, containing insulated stranded copper current-carrying conductors, twisted into a core of insulated conductors, pairs or triples, on which belt insulation is applied, containing a tape of polyethylene terephthalate and a tape of water-blocking material, an inner sheath of polymer, steel armor, protective hose made of polymer, characterized in that said armor is made in the form of a steel welded corrugated tube, in which the corrugation ribs are located across the axis of the tube. 2. The cable according to claim 1, characterized in that the core insulation is made of polyvinyl chloride plastic compound. 3. The cable according to claim 1, characterized in that the core insulation is made of a polymer compound that does not contain halogens, or of a polymer material of reduced fire hazard with low smoke and gas emission. 4. The cable according to claim 1, characterized in that the core insulation is combined and consists of two layers, the first of which is a fire-resistant mica-containing tape, and the second layer is made of a halogen-free polymer compound or a polymer material of reduced fire hazard with low smoke and gas emission. 5. Cable according to claim 1, characterized in that the inner sheath is made of polyvinyl chloride plastic compound, including low flammability. 6. The cable according to claim 1, characterized in that the sheath is made of polyvinyl chloride plastic compound, including low flammability. 7. The cable according to claim. 1, characterized in that the specified sheath is made of a polymer compound that does not contain halogens, or of a polymer material of reduced fire hazard with low smoke and gas emission. 8. The cable according to claim. 1, characterized in that the sheath is made with a filling of a polymer compound that does not contain halogens, or with a filling of a polymeric material of reduced fire hazard with low smoke and gas emission. 9. The cable according to claim 1, characterized in that the protective hose is made of PVC compound, including low flammability. 10. The cable according to claim 1, characterized in that the protective hose is made of a halogen-free polymer compound or a low fire hazard polymer material with low smoke and gas emission.

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