RU173258U1 - Shielded power cable - Google Patents

Abstract

The utility model relates to the field of electrical engineering, namely to the design of power shielded cables with a flexible copper conductive core, with optimal electromagnetic compatibility properties, designed to connect electric motors to frequency converters for a rated voltage of 0.66 / 1 kV AC with a frequency of up to 400 Hz or constant voltage up to 1.5 kV. Shielded power cable contains copper conductive conductors with insulation, between which a split insulated ground conductor is symmetrically located. The combined screen is made of foil and braid with wires, and the inner and outer shells are made of polymer material. EFFECT: increased cable service life. 13 s.p. f-ly, 1 ill.

Description

Technical field

The utility model relates to the field of electrical engineering, namely to the design of power shielded cables with a flexible copper conductive core, with optimal electromagnetic compatibility properties, designed to connect electric motors to frequency converters for a rated voltage of 0.66 / 1 kV AC with a frequency of up to 400 Hz or constant voltage up to 1.5 kV, including in underground workings hazardous in gas and dust. Cable control conductors are designed to transmit electrical signals from control sensors with a rated voltage of up to 0.5 kV alternating current with a frequency of up to 400 Hz or a constant voltage of up to 0.75 kV.

State of the art

Known cable power shielded flexible (patent RU No. 77721, publ. 10/27/2008), which includes three main insulated conductors with elastic conductive screens, a ground conductor, a protective sheath. Conducting conductors are made of increased flexibility of at least class 5 according to the classification of GOST 22483 and additionally contain a braid of copper wires over the elastic conductive screen of each main conductor.

Shielded power cables are known, manufactured according to GOST 31996 - 2012, which consist of copper conductive cores with insulation made of cross-linked polyethylene, a shield and an outer sheath of polyethylene.

A disadvantage of the known technical solutions is the short service life and insufficient electromagnetic compatibility of the cable elements if they are used to connect to frequency converters due to imperfect designs and materials used in the cables.

Utility Model Essence

The technical problem to which the utility model is directed is to develop the design and select materials that together increase the electromagnetic compatibility of the elements.

The technical result of the implementation of the utility model is to increase the service life of the cable.

The technical result is achieved in that in a shielded power cable, including copper conductive conductors with insulation, a shield and an outer sheath, according to the proposed solution, a split insulated ground conductor is symmetrically located between the conductive conductors, the shield is made of foil and braid wires combined, the inner and outer sheaths are made from polymeric material.

Insulation of conductive conductors can be made of cross-linked ethylene-propylene rubber.

Insulation of conductive conductors can be made of crosslinked polyolefin.

Conductors and ground conductors can be made of tinned copper wire.

The power cable can additionally be equipped with insulated control conductors twisted in pairs, symmetrically located in the space between the main conductors and the earth ground.

A protective layer of a polymer film and a foil screen can be applied over twisted pairs of control cores.

The inner and outer shells can be made of low flammability polyvinyl chloride plastic compound.

The inner and outer shells can be made of polyvinyl chloride plastic compound of reduced fire hazard with low smoke and gas emission.

The inner and outer shells can be made of a halogen-free polymer composition.

The inner and outer shell can be made of polyurethane elastomer.

As a shielding foil, copper or aluminum foil can be used.

Flexible shielding aluminum-polymer or copper-polymer tapes can be used as a shielding foil.

The braid can be made of tinned copper or copper wire.

Between the combined screen and the outer sheath, a polymer substrate made of a material similar to the material of the inner shell and the armor imposed by the braid method of galvanized steel wires or windings of two galvanized steel strips can be located.

A utility model is illustrated in the drawing, in which a cable is shown in section.

Utility Model Implementation

The power cable contains copper flexible conductive conductors 1 with insulation 2 of cross-linked ethylene-propylene rubber. Conductors have a flexibility class in accordance with GOST 22483-2012 of at least 5. A split insulated ground conductor 3 is symmetrically located between conductive conductors 1. Conductors and ground conductors can be made of tinned copper wire. The inner sheath 4 is made of a polymer material, on top of which a combined screen 5 of foil and braid with copper wires is superimposed, over which an outer sheath 6 of polymer material is superimposed. As the material for the outer shell 6, use is made of a polyvinyl chloride plastic compound or a low flammability polyurethane elastomer, a low fire hazard polyvinyl chloride plastic compound with low smoke and gas emission, a halogen-free polyurethane elastomer or polymer composition, or the above materials in an oil-resistant and / or cold-resistant design. For the inner shell 4, a material compatible with the material of the outer shell 6 is used.

Insulation of conductive conductors from cross-linked ethylene-propylene rubber or cross-linked polyolefin, providing a symmetrical arrangement of conductive conductors and a split ground conductor allows you to equalize capacitive currents in phase and eliminates cable overheating at high frequencies. The combined shield provides protection against internal and external electromagnetic interference due to 100% shielding of the cable with foil and minimizes electrical resistance with a wire braid along the entire length of the cable, which ensures effective grounding of the screen along the length of the cable. The combination of essential features allows you to increase the life of the cable.

Claims (14)

1. Shielded power cable, including copper conductive conductors with insulation, a shield and an outer sheath, characterized in that a split insulated ground conductor is symmetrically located between the conductive wires, the shield is made of foil and braid wires combined, the inner and outer sheaths are made of polymer material. 2. Shielded power cable according to claim 1, characterized in that the insulation of the conductive conductors is made of cross-linked ethylene-propylene rubber. 3. Shielded power cable according to claim 1, characterized in that the insulation of the conductive conductors is made of cross-linked polyolefin. 4. Shielded power cable according to claim 1, characterized in that the conductive conductors and ground conductors are made of tinned copper wire. 5. Shielded power cable according to claim 1, characterized in that it is additionally equipped with insulated control conductors twisted into pairs, symmetrically located in the space between the main conductors and the ground conductor. 6. Shielded power cable according to claim 5, characterized in that a protective layer of a polymer film and a foil screen are applied over twisted pairs of control cores. 7. Shielded power cable according to claim 1, characterized in that the inner and outer shells are made of low flammability polyvinyl chloride plastic compound. 8. Shielded power cable according to claim 1, characterized in that the inner and outer sheaths are made of polyvinylchloride plastic compound of reduced fire hazard with low smoke and gas emission. 9. Shielded power cable according to claim 1, characterized in that the inner and outer shells are made of a halogen-free polymer composition. 10. Shielded power cable according to claim 1, characterized in that the inner and outer shells are made of polyurethane elastomer. 11. Shielded power cable according to claim 1, characterized in that copper or aluminum foil is used as the shielding foil. 12. Shielded power cable according to claim 1, characterized in that flexible combined aluminopolymer or copper-polymer tapes are used as a shielding foil. 13. Shielded power cable according to claim 1, characterized in that the braid is made of tinned copper or copper tinned wire. 14. Shielded power cable according to claim 1, characterized in that between the combined screen and the outer sheath there is a polymer substrate made of a material similar to the material of the inner sheath and armor applied by braiding from galvanized steel wires or windings from two galvanized steel strips.

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