RU168021U1 - MOUNTED FIRE RESISTANT MOISTURE PROTECTED CABLE - Google Patents

Abstract

The utility model relates to mounting cables for industrial automation systems. The technical task is to protect the cable from high humidity. The cable contains insulated conductive conductors 1. The insulation of conductive conductors is made of polyvinyl chloride (PVC) plastic compound 2 with low smoke and gas emission or from a polymer compound that does not contain halogens. Under the plastic compound 2, a flame-retardant winding of two mica-containing tapes 3 was applied to the cores 3. Between the cores were laid longitudinally 4 threads of water-blocking material (VBM). The cores 1 are twisted together with threads 4 into bundles 5. Shields 6 of alumoflex are superimposed on the bundles. The bundles are twisted into a core 7. A tape 8 made of polyethylene terephthalate (PET) is applied to the core. On tape 8 is applied tape 9 of VBM, longitudinally or by winding with overlapping. On the tape 9 superimposed a common screen 10 of alumoflex. A screen 11 is coated with a shell 11 made of PVC compound with low smoke and gas emission or from a halogen-free polymer compound. Armor 12 is applied to the shell. The armor is made of two steel strips wound with a gap, or of corrugated steel tape laid longitudinally with an overlap of 20-30% or of galvanized steel wires. A protective hose 13 of PVC compound with low smoke and gas emission or of a halogen-free polymer compound is applied to the armor. The cable is equipped with a tinned copper contact wire 14. 5 cp f-ly, 1 ill.

Description

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

Known control cable according to the patent of the Russian Federation on PM No. 141681, containing conductive wires wrapped with heat-resistant mica tapes. The specified cable has no moisture protection. Known control cable according to the patent of the Russian Federation on PM 117706, the conductive wires of which are coated with fireproof insulation in the form of a winding with two glass mica. This cable contains moisture protection in the form of a water-blocking silicone paste applied to the screen and armor. This cable is difficult to manufacture, since applying organosilicon paste to the cable elements is a rather time-consuming operation.

Closest to the proposed PM is, in our opinion, the control cable according to the patent of the Russian Federation on PM No. 136915 - prototype. The specified cable contains insulated conductive conductors wrapped under insulation with fire-resistant mica tape. Conductors are twisted into a core, on which a belt insulation of polyethylene terephthalate (PET) film is applied. Moisture protection is made in the form of a winding of non-woven water-blocking tape wound around the waist insulation.

The disadvantage of the prototype is that the winding in the form of a water blocking tape does not adequately protect the cores inside the cable from high humidity.

The technical task is to protect the cores of the cable mounting fire-resistant from high humidity.

The technical result is achieved by the fact that the fire-retardant mounting cable contains a sheath of polyvinyl chloride (PVC) plastic compound, water blocking material (VBM), including VBM tape, insulated conductive conductors, under the insulation of which a winding of mica-containing tapes and a low-smoke PVC layer are applied and gas evolution or a halogen-free polymer compound layer, a belt insulation comprising a winding of polyethylene terephthalate (PET) is characterized in that it contains EBM strands laid longitudinally with t with the surrounding conductors and twisted together with the indicated conductors in the core, the EBM tape is laid on top of the PET winding longitudinally or with overlapping winding, while the insulation of the conductive conductors and the sheath are made of PVC compound with low smoke and gas emission or from a polymer compound that does not contain halogens .

The cable differs in that a common screen of alumoflex or copper tape or in the form of a braid of tinned copper or copper tapes is superimposed on the VBM tape. The cable differs in that it is equipped with steel armor in the form of two galvanized tapes superimposed by a winding with a gap, or steel galvanized wires, or from corrugated polyethylene laminated tape imposed longitudinally with overlap. The cable differs in that a protective hose made of PVC compound with low smoke and gas emission or a polymer compound that does not contain halogens is applied to the armor.

The cable is characterized in that the conductive conductors are twisted two or three in bundles, including at least one thread from the VBM, equipped with individual shields of alumoflex or copper tape or in the form of a braid of tinned copper or copper wires. The cable is characterized in that it is equipped with a tinned copper contact wire, laid under the common screen.

The utility model is illustrated in the drawing, which schematically shows a cross section of the proposed cable.

In a specific example, the cable contains insulated conductive conductors 1 (conductors). Core insulation includes a layer of PVC compound 2 with low smoke and gas emission or a polymer compound that does not contain halogens. Under the plastic compound 2 a fire-resistant layer of two mica-containing tapes 3 is applied. The conductors 1 can be single-wire, from annealed soft copper wire, or multi-wire, twisted from thin copper or tinned copper wires. Between the veins laid longitudinally 4 threads of water blocking material (VBM). The cores 1 are twisted in pairs together with the filaments 4 into bundles 5 so that the filaments 4 are in the bundle. Individual screens 6 of alumoflex or copper tape or in the form of a braid of tinned copper or copper wires are superimposed on the bundles. The bundles are twisted into a core 7. A tape 8 made of polyethylene terephthalate (PET) is applied to the core. On tape 8 is applied tape 9 of VBM, longitudinally or by winding with overlapping. Tapes 8 and 9 constitute a belt insulation, wherein the VBM tape is laid over the PET tape. A common screen 10 of alumoflex or copper tape or in the form of a braid of tinned copper or copper tinned wires is superposed on the tape 9. A screen 11 is coated with a shell 11 made of PVC compound with low smoke and gas emission or in the form of a halogen-free polymer compound. Armor 12 is applied to the shell. The armor is made of two galvanized steel tapes wound with a gap, or galvanized steel wires, or a corrugated steel tape laminated with polyethylene, laid longitudinally with an overlap of 20-30%. A protective hose 13 of PVC compound with low smoke and gas emission or a polymer compound that does not contain halogens is applied to the armor. The cable is equipped with a tinned copper contact wire 14.

New in the assembly cable is that protection from increased moisture in the conductors is provided by VBM threads, which block moisture inside the bundles of cable conductors. In this case, the VBM tape protects the core from the outside. This solution significantly enhances the protection of the installation cable from high humidity. Threads are made from VBM in advance, stored in the form of coils. In the manufacture of cable, threads from VBM are wound from coils using a machine, like an ordinary VBM tape. This solution improves manufacturability, simplifies production. Thus, the proposed utility model, being more technological, provides enhanced protection of the cable cores from high humidity.

According to the scheme described above, the applicant’s enterprise manufactured a number of prototypes of a fire-resistant, moisture-proof mounting cable for use in industrial electrical systems at voltages up to 500 V and relative air humidity up to 98% (at a temperature of + 35 ° C). Tests showed a good result. At the applicant’s enterprise, the formation of a portfolio of orders for cable products of this type has begun.

The cable is used in accordance with the Electrical Installation Rules and design documentation for the industrial automation system.

The new fire-resistant, moisture-proof mounting cable described above is proposed for legal protection by a utility model patent.

Claims (6)

1. Fire-retardant, moisture-proof mounting cable, containing a protective sheath made of polyvinyl chloride (PVC) plastic compound, water blocking material (VBM), including VBM tape, insulated copper single-wire or copper or copper tinned multi-wire conductive conductors, under whose insulation a winding of two mica-containing tapes is applied, belt insulation, including a winding of polyethylene terephthalate (PET), characterized in that it contains threads from VBM, laid longitudinally with conductive cores and twisted together with the specified with the cores in the core, the VBM tape is laid longitudinally over the PET winding or with a overlapping winding, while the insulation of the conductive cores and the sheath are made of PVC plastic with low smoke and gas emission or a polymer compound that does not contain halogens. 2. The cable according to claim 1, characterized in that a common shield of alumoflex or copper tape or as a braid of tinned copper or tinned wires is superimposed on the VBM tape. 3. The cable according to claim 1, characterized in that it is equipped with steel armor in the form of two galvanized tapes superimposed by a winding with a gap, or from galvanized steel wires, or from corrugated polyethylene laminated tape imposed longitudinally with overlapping. 4. The cable according to claim 3, characterized in that a protective hose is made of armor made of PVC compound with low smoke and gas emission or of a polymer compound that does not contain halogens. 5. The cable according to claim 1, characterized in that the conductive conductors are twisted two or three by two into bundles, including threads from VBM, bundles equipped with individual shields of alumoflex or copper tape or twisted from brass or tinned copper wires, twisted into the core. 6. The cable according to claim 1, characterized in that it is equipped with a tinned copper contact wire laid under a common screen.

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