RU56061U1 - MINE POWER CABLE - Google Patents

Abstract

The utility model relates to the cable industry, namely, cable designs for transmitting and distributing electrical energy in installations for a nominal alternating voltage of 1.14 and 6 kV with a frequency of 50 Hz and a voltage of up to 220 V on auxiliary conductors. These cables are designed for stationary and periodic laying on horizontal and inclined mine workings, and can also be used as an element of an electrical network connecting an electric power source and an object of industrial or civil construction.

Description

The utility model relates to the cable industry, namely, cable designs for transmitting and distributing electrical energy in installations for a nominal alternating voltage of 1.14 and 6 kV with a frequency of 50 Hz and a voltage of up to 220 V on auxiliary conductors.

These cables are designed for stationary and periodic laying on horizontal and inclined mine workings and can be used as an element of an electrical network connecting an electric power source and an object of industrial or civil construction.

The proposed power mine cable has the following design: copper conductors; PVC compound insulation; screen on insulated conductors made of copper tape or other equivalent material; armor from steel galvanized tapes or steel galvanized wires; outer sheath made of PVC compound. One of the main reasons for the widespread use of polyvinyl chloride plasticate in cable technology is, first of all, its ability to decay when removed from a flame. [one]

In addition, polyvinyl chloride plastic compound is highly resistant to most acids, alkalis and organic solvents. In this regard, its use as an outer shell is most justified.

Type of climatic modification UHL, category of placement 5 in accordance with GOST 15150.

Cables are designed for operation at an ambient temperature from minus 30 ° С to 50 ° С, relative air humidity up to 98% at a temperature up to 35 ° С, including for laying outdoors.

When operating the cable, the grounding conductor and armor must be connected to the grounding terminal of the electrical equipment.

The long-term permissible temperature for heating the cable conductors during operation should not exceed 70 ° C.

The most admissible temperature at short circuit currents is 160 ° C.

Permissible core heating in emergency mode 80 ° C.

Cables must be resistant to bending.

The minimum bending radius during installation should be at least 7.5 D _n , where D _n is the calculated outer diameter of the cable, mm.

The service life of the cables is at least 8 years, subject to the consumer observing the rules of transportation, storage, laying (installation) and operation specified in these specifications. The service life is calculated from the date of commissioning of the cables. The actual cable service life is not limited to the specified service life, but is determined by the technical condition of the cable.

Development benefits

In the mines in the cable there is always a grounding conductor and the use of a grounding conductor for this purpose in the place of armor is much more reliable.

Cables have an auxiliary core to control the integrity of the grounding core and provide reliable interlocks and protections.

The use of plastics makes it easier to design cables, simplify laying and installation, as well as laying on routes with a greater difference in levels. [2]

Information confirming the possibility of implementing a utility model.

In figures 1, 2 and 3, a power mine cable is shown, which contains three main conductors (1), an auxiliary core (2) and an earth conductor (3); the main and auxiliary cores are extruded by insulation (4) from PVC compound; insulated main conductors with a winding method imposed a screen (5) of copper tape with overlapping; shielded main, insulated auxiliary conductors and grounding conductor (s) are twisted into a core; when twisting the cable cores, contact between the shields and the ground wire (s) must be ensured; on top of twisted cores by extrusion, an inner shell of PVC compound (6) is applied with a simultaneous filling of the gaps between the cores; superposition of a two-layer inner shell is allowed,

moreover, the inner layer (7) is made of a rubber compound or any other equivalent material, and the outer one is made of polyvinyl chloride plastic compound (8); on top of twisted cores, instead of the inner sheath, it is allowed to impose a winding (9) from tapes of PVC film plastic compound and (or) tapes of polyethylene terephthalate film, or other equivalent material; when wrapping with tapes, the strand twisting should be with filling the gaps between the strands in the form of bundles (10) made of extruded PVC compound or rubber compound, or untreated cable yarn, or any other equivalent material compatible with the insulation material; on top of the inner shell or winding, the armor of two steel galvanized tapes or steel galvanized wires is applied by the winding method (11); on top of the armor, an outer shell (12) of polyvinyl chloride plastic compound must be applied by extrusion.

Literature:

1. Production of cables and wires using plastics and rubber, 1992, A. G. Grigoryan, D. N. Dickerman, I. B. Peshkov

2. Power cables and cable lines, 1984, Larina ET

Claims (1)

Power shaft cable, containing three conductive conductors of equal cross section twisted together, insulated with PVC compound and shielded with copper tape or other equivalent material, an auxiliary core insulated with PVC compound, and an uninsulated ground conductor; over twisted shielded main conductors, insulated auxiliary and non-insulated residential grounding, an inner sheath of PVC compound or rubber compound and PVC compound is applied; instead of the inner shell, a winding of tapes of a PVC film plastic compound and / or tapes of a polyethylene terephthalate film or other equivalent material may be applied; when wrapping with tapes, the twisting of the cores should be with filling the gaps between the cores in the form of bundles made of PVC compound or rubber compound, or untreated cable yarn, or other equivalent material compatible with the insulation material; on top of the inner sheath or winding, the armor is made of galvanized steel tapes or steel galvanized wires and the outer sheath is made of PVC plastic.