RU71026U1 - CONTROL CABLE AND DATA TRANSFER - Google Patents

Abstract

The utility model relates to the field of electrical engineering, namely, to the construction of cables and wires intended for industrial data networks, control stations, alarm systems, control, regulation of electronic equipment, automation systems, for the installation of electrical installations.

The cable includes copper flexible conductive conductors coated with insulation from a polymeric material and twisted into a core, a separating element from a synthetic film, at least one screen, an armor-clad coating of steel wires placed between the inner and protective sheaths made of non-distributing polymeric materials 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.

The cable has an extended service life and provides the ability to work in modern digital control systems.

7 p. Formulas 1 illustration.

Description

The utility model relates to the field of electrical engineering, namely, to the construction of cables and wires intended for industrial data networks, control stations, alarm systems, control, regulation of electronic equipment, automation systems, for the installation of electrical installations.

Known cable assembly mark MKESH with a flexible core, with insulation and a sheath of PVC compound, shielded for voltage up to 500 V with a frequency of up to 400 Hz. ("Multicore mounting cables with plastic insulation." GOST 10348-80).

The disadvantage of the cable is a low transmission frequency, insufficient protection against damage.

Known control cable brand KUPV-P with a core of copper wires with polyethylene insulation in a sheath of PVC compound with shielded or non-shielded cores in a carapace of steel galvanized wires up to 250 V with a frequency of up to 1000 Hz. ("Control cables with polyethylene insulation in a sheath of PVC compound. GOST 18404.3-73").

The disadvantage of the cable is a low transmission frequency, insufficient cable flexibility, it does not meet the requirements for non-proliferation of combustion (fire resistance).

An analogue is also a mounting cable containing copper conductive conductors twisted in pairs with insulation made of PVC compound, a braided shield of copper wires with a density of at least 65%, a tape wrapped in polyethylene terephthalate film (spacer element), laid under the screen, and the pairs are twisted into the core. Each of the pairs can be shielded, the screen is made in the form of a braid of copper wires, and the winding with a tape of polyethylene terephthalate film is under the screen. The cable is equipped with galvanized steel wire armor, an additional winding of polyethylene terephthalate tape and a sheath of

polyvinyl chloride compound. (Useful Russian model №28407. M. Cl ^7. N01V 11/18 from 22.11.2002, the).

However, this cable has disadvantages. It has insufficient flexibility. In addition, during operation with numerous mounting bends, copper wires of a braided screen (common screen and / or screen in pairs) can damage the insulation, that is, pierce it to a conductive core, since winding in one layer with a tape of polyethylene terephthalate film does not provide the necessary mechanical strength for insulation made of PVC compound and the cable may fail.

The prototype is a control and data transmission cable, including copper conductive cores coated with insulation from a polymer material and twisted into pairs, a separating element from a synthetic film, at least one screen, an armor-clad coating of steel wires placed between the inner and protective sheaths made from polymer materials that do not spread combustion. Conductors made of increased flexibility of at least class 5 according to GOST 22483 classification, the separating element under the cable sheaths is made in the form of a winding with an overlap of 5-10%, and under the common screen in the form of a braid of copper wires, the separating element is made in the form of a winding no lower than with double overlap. (Useful Russian model №57505. M. Cl ^7. N01V 11/18 of 22.03.2007).

The disadvantage of this control cable is the insufficient service life of the screen and the shell coating due to their oxidation due to condensation and other moisture. In addition, the cable can not always be used in modern control systems.

The present utility model is based on the task of creating such a design of a control and data transmission cable in which due to the introduction of new elements and their new mutual arrangement, the cable service life would be increased and its operation in modern digital control systems would be ensured.

The problem is achieved in that in the control and data transmission cable, including copper flexible conductive cores coated with insulation from a polymer material and twisted into a core separating an element from a synthetic film, at least one screen, an armor-clad coating of steel wires, placed between inner and protective shells

made of non-combustible polymeric materials, according to a utility model, the conductive conductors are twisted into pairs and / or triples having polymer insulation in individually shielded pairs or triples, while the screen and the shell coating are additionally provided with a layer of water-blocking material.

The advantage of the proposed control and data transmission cable is that, due to the additional filling of the screen and the shell coating with a layer of water-blocking material, the service life of the screen and the shell coating is increased by almost 2 times due to the elimination of oxidation of the metal of the conductor due to condensation and other moisture (for example, longitudinal water leakage), while the flexibility of the cable 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 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 of synthetic film and / or in the form of an extruded coating.

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

Water-blocking material can be made on the basis of a hydrophobic gel.

The water-blocking material can be made on the basis of plastic polyolefins, for example, from polyisobutylene.

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

A synthetic film can be made of a material with high dielectric and mechanical properties, for example, polyethylene terephthalate.

The insulation and / or shells are made of polyvinyl chloride plastic compound or thermoplastic elastomer, not spreading combustion.

The proposed utility model is schematically shown in cross section on the figure, where: 1 - a flexible conductive core; 2 - insulation from thermoplastic material, 3 - twisted pair (triple), 4 - separating element, 5 - screen along twisted pair in the form of a braid, 6 - layer of water blocking material, 7 - polymer insulation in the form of an extruded coating or winding, 8 - a common screen in the form of a braid, 9 - an inner shell, 10 - an armor coating, 11 - a protective shell.

Control and data transmission cable, including copper flexible conductive conductors 1, coated with insulation 2 of polymer material and twisted into a core, separating element 4 of synthetic film, at least one screen 5, shell-like coating 10 of steel wires placed between the inner 9 and protective 11 shells made of polymer materials that do not spread combustion. In the cable, the conductive conductors are twisted into pairs 3 and / or triples having polymer insulation 7 on individually shielded pairs 3 or triples, while the shield 5.8 and the shell coating 10 are additionally provided with a layer 6 of water-blocking material.

Example. The control and data transmission cable shown in the figure contains ten conductive conductors 1 each with a cross section of 0.75 mm ² of a flexibility class of 5 according to GOST 22483 classification with extruded insulation 2 made of PVC compound (thermoplastic elastomer). Insulated cores 1 are twisted into pairs (triples) 3, each of which is sequentially covered with a separating element 4, which is made in the form of a winding with double overlap, and has a screen 5 along a twisted pair (three) 3 in the form of a braid of copper wires. The screen 5 along a twisted pair (triple) 3 is provided with a layer 6 of water blocking material made on the basis of organosilicon paste, and is coated with polymer insulation 7 from extruded PVC compound (thermoplastic elastomer). Two pairs of 3 and two triples 3 are twisted into a core covered with a separating element 4, made in the form of a winding with double overlap, and a common screen 8 in the form of a braid of copper wires. The screen 8 is provided with a layer 6 of water blocking material made on the basis of silicone paste.

Next, a separating element 4 is sequentially applied in the form of a winding with an overlap of 5-10%, the inner shell 9, the shell shell 10 in the form of a braid with steel galvanized wires, equipped with a layer of 6 of

a water-blocking material made on the basis of silicone paste, separating element 4 in the form of a winding with an overlap of 5-10% and a protective shell 11.

The separating element 4 is made of a polyethylene terephthalate film having high dielectric and mechanical properties. Insulation 2.7, inner 9 and protective 11 shells are made of polyvinyl chloride plastic compound (thermoplastic elastomer), not spreading combustion.

Claims (7)

1. The control cable and data transmission, including copper flexible conductive cores coated with insulation from a polymeric material and twisted into a core, separating a synthetic film element, at least one screen, an armor-clad coating of steel wires placed between the inner and protective sheaths, made of polymeric materials that do not spread combustion, characterized in that the conductive conductors are twisted into pairs and / or triples having polymer insulation on individually shielded pairs or triples, at The screen and the shell cover are additionally provided with a layer of water-blocking material. 2. The cable according to claim 1, characterized in that it has a common screen along the core and / or separately twisted module. 3. The cable according to claim 1, characterized in that the polymer insulation in separately shielded pairs or triples is made in the form of a winding from a synthetic film and / or in the form of an extruded coating. 4. The cable according to claim 1, characterized in that the water blocking material is made on the basis of silicone paste. 5. The cable according to claim 1, characterized in that the water blocking material is based on a hydrophobic gel. 6. The cable according to claim 1, characterized in that the water blocking material is made on the basis of plastic polyolefins, for example polyisobutylene. 7. The cable according to claims 1 and 2, characterized in that the screen is made in the form of a braid of copper wires.