RU208640U1 - Power cable with polypropylene insulation - Google Patents

Abstract

The utility model relates to cable technology, namely to the structures of power cables with plastic insulation, designed for the transmission and distribution of electrical energy mainly in stationary installations for a rated alternating voltage of up to 3000 V, as well as for operation in direct voltage networks. EFFECT: increased current carrying capacity of power cables with plastic insulation. The cable contains at least one conductive core (1) with insulation (2) and an outer protective sheath (6). Insulation (2) is made of polypropylene having a specific volume resistance of at least 1 1015 Ohm m and elongation at break of at least 650%. More than one core (1) is twisted into a core fastened with tape (3). 2 w.p. f-ly.

Description

Technical field

The utility model relates to cable technology, namely to the structures of power cables with plastic insulation, designed for the transmission and distribution of electrical energy mainly in stationary installations for a rated alternating voltage up to 3000 V with a frequency of up to 100 Hz, as well as for operation in direct voltage networks.

Power cables with plastic insulation are known (patent RU 162464, published on September 11, 2015, cables according to GOST 31996-2012). At the same time, cables, the plastic insulation of which is made of polyvinyl chloride compound, allows an increase in the operating temperature of the cores up to 70 ° C, and cables with plastic insulation made of cross-linked polyethylene - up to 90 ° C, with a corresponding limitation of the cable bandwidth. This limitation is a disadvantage of the known power cables with plastic insulation.

Essence of the utility model The objective of the claimed utility model is to develop the design of a power cable with plastic insulation, allowing during operation an increase in the temperature of long-term heating of the conductive core up to 110°C.

The claimed technical result consists in increasing the current carrying capacity of a power cable with plastic insulation.

This technical result is achieved by the fact that in a power cable containing at least one conductive core with plastic insulation and an outer sheath, the insulation is made of polypropylene having a volume resistivity of at least 1 10 ¹⁵ Ohm m and elongation at break not less than 650%.

The utility model has development.

One of them is that more than one insulated conductive wires are twisted into a core, fastened with a tape. The twist ensures the flexibility and compactness of the cable.

Another development is that the outer sheath is made of a low fire hazard plastic or a halogen-free polymer composition.

Conductors can be copper or aluminum.

The core fastening tape may be glass-containing, in flame retardant construction.

In a multi-core shielded cable, over the insulation, an inner sheath layer made of polyvinyl chloride plastic compound, low fire hazard plastic compound or a halogen-free polymer composition can be placed, which protects the core insulation from punching when a screen made of copper tapes or copper wires is applied.

The cable over the inner sheath may contain armor made of galvanized steel wires or galvanized steel tapes.

In cables with a core cross section in the range of 1.5-300 mm ^{2, the} thickness of the polyethylene insulation is 0.6-2.4 mm.

Implementation of the utility model

The utility model, taking into account its developments, is illustrated by a drawing, which shows a cross-section of a cable using an example of a structure with five conductive cores 1. The drawing also shows polypropylene insulation 2, tape 3, inner sheath 4, metal screen 5 and outer sheath 6.

The comparative table shows data on the current capacity (continuous current load) of the declared cable and the prototype cable (with XLPE insulation) for the cases of single-core and multi-core (of five copper cores) cables of the same cross section for a voltage of 1 kV.

As can be seen from the table, the implementation of polypropylene insulation according to paragraph 1 of the claimed patent formula allows you to increase the current carrying capacity by 11% for single-core cables and 1.3-1.5 times for multi-core cables and, thus, achieve the claimed technical result.

The design of the cable with the declared set of features according to paragraph 1 of the patent formula is not known from the prior art, which allows us to conclude that the utility model meets the criterion of "novelty".

The claimed technical solution meets the criterion of patentability "industrial applicability", since its implementation is possible using known means of production and technologies.

Polypropylene insulation is applied on extrusion lines.

The twisting of the core is carried out on twisting equipment such as Drum Twister.

Coating is carried out on extrusion lines with two extruders.

Claims (3)

1. A power cable containing at least one conductive core with plastic insulation and an outer sheath, characterized in that the insulation is made of polypropylene having a specific volume resistance of at least 1 10 ¹⁵ Ohm m and elongation at break of at least 650% . 2. Power cable p. 1, characterized in that more than one insulated conductive wires are twisted into a core fastened with a tape. 3. Power cable according to claim 1, characterized in that the outer sheath is made of plastic compound of reduced fire hazard or a halogen-free polymer composition.

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