RU59331U1 - END COUPLING - Google Patents

Abstract

The invention relates to cable technology, namely to sleeves designed for terminating paper-insulated power cables. The coupling contains lugs installed on the cable conductors, covering the insulation of the conductors with oil-resistant polymer cords, a cable sealing sleeve, a copper conductor, a grounding sheath and cable armor, a heat-shrinkable plastic glove installed at the cable cutting site, external heat-shrinkable polymer tubes, insulating cable ends and cable tips and layers of sealant located under each heat-shrinkable tube. The technical result is an increase in the tightness of the coupling.

Description

The invention relates to cable technology, namely to sleeves designed for terminating power cables with impregnated paper insulation, used for transmission and distribution of electrical energy at an alternating voltage of 1-10 kV with a frequency of 50 Hz.

Known end sleeve for multi-conductor cable with paper insulation, containing cable lugs installed on the cable cores and terminating them, polymer oil-resistant tubes covering the insulation of the cores, an element that seals the cable cut, made in the form of a winding polymer tape, a copper conductor, grounding the sheath and cable armor, a tip installed on a copper conductor by crimping, a heat-shrinkable plastic glove, installed at the cable cutting site, external heat-shrink polymeric pipes, insulating ends of cores, heat-shrinkable polymeric pipes, insulating cable lugs, sealant layers located under external heat-shrinkable tubes and heat-shrinkable pipes, insulating cable lugs (Technical documentation for couplings for power cables with paper and plastic insulation up to 10 kV M., ed. "Energoservice", 2002, p. 310-313).

However, the known sleeve does not provide sufficient sealing of the cable cutting site.

The task was to develop the design of the end sleeve of the power cable with paper insulation with a high degree of sealing of the cable while simplifying the technology of its installation.

The technical result is achieved by the fact that in the end sleeve for a multi-conductor cable with paper insulation, containing cable lugs installed on the cable cores and terminating them, polymer oil-resistant tubes covering the insulation of the cores, an element that seals the cable cut, a copper conductor, grounding sheath and armor cable, the tip is installed on a copper conductor by crimping, heat-shrinkable polymer glove, installed at the point of cutting the cable, external heat-shrinkable polymer pipes, insulating ends of cores, heat-shrinkable polymer tubes, insulating cable lugs, sealant layers located under heat-shrinkable tubes, the element that seals the cable cutting place is made in the form of a sleeve installed by the method of laying.

In the presence of increased fire safety requirements, all heat-shrinkable tubes and heat-shrinkable glove can be made of a radiation-resistant, halogen-free composition based on polyolefins, radiation-modified and having an oxygen index in the range of 28-30.

The sealant may be made of silicone sealant.

Cable lugs can be installed on the cable cores by crimping or equipped with contact screws with heads breaking off when tightened.

A utility model is shown in the drawing, in which a sectional view of a sleeve mounted on a power cable is shown.

The end sleeve contains cable lugs 1 installed on the cable cores, polymer oil-resistant tubes 2, a sleeve 3, a copper conductor 4, a grounding sheath and armor of the cable, a tip 5 mounted on a copper conductor 4, a heat-shrinkable polymer glove 6, installed in the place of cutting the cable, external heat-shrinkable polymer tubes 7, insulating cable conductors, heat-shrinkable polymer tubes 8, insulating cable lugs 1, sealant layers 9 under the outer heat-shrinkable tube 10.

The proposed coupling is mounted on a cable according to the known technology described in the above information source.

The implementation of the sealing material in the form of a cuff allows to increase the reliability of the cuff due to the high tightness and the absence of air inclusions that are possible when using the known cuff. At the same time, the cuff assembly technology is greatly simplified.

Claims (5)

1. The end sleeve for paper-insulated multicore cable, containing cable lugs installed on the cable cores and terminating them, oil-resistant polymer tubes covering the core insulation, cable sealing place, copper conductor, grounding sheath and cable armor, cable lug on a copper conductor by crimping, a heat-shrinkable polymeric glove installed at the cable cutting site, external heat-shrinkable polymeric tubes, insulating conductors, heat-shrink s polymer tube insulating cable lugs, the sealant layers located under each of said heat-shrinkable tube, characterized in that the element seals the cable termination is formed as a cuff mounted overlay method. 2. The end sleeve according to claim 1, characterized in that the heat-shrinkable tubing and heat-shrinkable glove are made of a radiation-resistant, halogen-free composition based on polyolefins, radiation-modified and having an oxygen index in the range of 28-30. 3. The end sleeve according to claim 1, characterized in that the sealant is made of an organosilicon composition. 4. The end sleeve according to claim 1, characterized in that the cable lugs are installed on the cable cores by crimping. 5. The end sleeve according to claim 1, characterized in that the cable lugs mounted on the cores of the cable are equipped with contact screws with torn off when tightening the heads.