RU62301U1 - COUPLING - Google Patents

Abstract

The utility model relates to cable technology, namely, to couplings for connecting power cables with plastic insulation. The coupling contains connecting sleeves, heat-shrinkable tubes insulating them, a copper wire connecting the cable armor, a roller spring, an external heat-shrinkable tube, an insulating place for the conductor to be attached to the cable armor, layers of sealant located under the outer heat-shrinkable tube. Heat-shrinkable tubes are made of a radiation-resistant, halogen-free composition based on polyolefins, radiation-modified and having an oxygen index of 28-30. The technical result is an increase in the combustibility of the coupling.

Description

The utility model relates to cable technology, namely, to couplings designed to connect power cables with cross-linked polyethylene insulation, used for transmission and distribution of electrical energy at an alternating voltage of 1-10 kV with a frequency of 50 Hz.

A known coupling for a multicore cable with XLPE insulation containing sleeves connecting the cores of two cables, heat-shrinkable polymer tubes, insulating connecting sleeves, a copper wire connecting the armor of two cables, an external heat-shrinkable polymer tube, an insulating place to attach the copper wire to the cable armor, sealant layers located under an external heat-shrinkable tube (Technical documentation for couplings for power cables with paper and plastic insulation up to 10 kV. M., ed. Energoservice, 2002, p. 314-316).

However, the known coupling does not satisfy the fire safety requirements. In addition, the attachment of the copper wire to the cable armor is not reliable enough, which can lead to premature failure of the coupling.

The task was to develop a design of a flame retardant coupling, while increasing its reliability in operation.

The technical result is achieved by the fact that the connection sleeve for a multicore cable with XLPE insulation, containing sleeves connecting the conductors of two cables, heat-shrinkable polymer tubes, insulating sleeves, a copper wire connecting the armor of two cables, an external heat-shrinkable polymer tube, an insulating place for attaching a copper core to the cable armor, the sealant layers located under the external heat-shrinkable tube are equipped with two roller springs fixing the copper wire on the armor of each cable, and in eshnyaya heat-shrinkable tube made of radiation resistant, halogen-free compositions based on polyolefins radiatsionnomodifitsirovannoy and having an oxygen index in the range of 28-30.

The coupling may also be provided with a tape of non-combustible material wound under the tubes insulating the connecting sleeves and under the outer tube.

It is preferable to make a sealant from a radiation-resistant organosilicon composition.

The connecting sleeves are installed on the cable core by crimping or supplied with contact heads breaking off when tightened.

The utility model is illustrated in the drawing, which shows in section a connection sleeve mounted on a power cable.

The coupling contains sleeves 1, heat-shrinkable polymer tubes 2, insulating sleeves 1, copper wire 3, roller spring 4, external heat-shrinkable tube 5, sealant layers 6 located under the tube 5, tape 7 made of non-combustible material.

The coupling is mounted on the cable according to the well-known technology described in detail in the above source of information.

As the material of the outer tube, industrially produced materials are used - a radiation-modified halogen-free composition based on polyolefins with an oxygen index of 28-30.

As a sealant, it is preferable to use organosilicon compositions of reduced flammability class B1, also produced in industry.

Heat-shrinkable tubes are made on traditional extrusion equipment.

Samples 1-3 of the proposed coupling tested for non-proliferation of combustion according to GOST 12176-89.

In sample 1, a composition with KI = 28 was used for the manufacture of a heat-shrinkable tube, in sample 2, KI = 29, and sample 3, KI = 30.

The results are shown in the table.

Table
Coupling characteristic Name of characteristic Technical requirements Cable product Famous clutch The proposed coupling (samples 1-3) Compliance of the coupling with the fire safety requirement: - non-proliferation of combustion in accordance with GOST 12176-89 The distance from the lower edge of the core tip to the charred part is at least 50 mm Completely charred 1st sample 200 mm, corresponds to 2nd sample 232 mm, corresponds to 3rd sample 197 mm, corresponds

As can be seen from the data presented, the proposed coupling, unlike the known one, satisfies the fire safety requirements.

The proposed coupling has an increased service life by increasing the reliability of attaching copper wire to the armor of the cable.

Claims (5)

1. Coupling for a multicore cable with cross-linked polyethylene insulation, containing sleeves connecting the conductors of two cables, heat-shrinkable polymer tubes, insulating sleeves, a copper wire connecting the armor of two cables, an external heat-shrinkable polymer tube, insulating the place where the copper core is attached to the armor of the cable, sealant layers located under the external heat-shrinkable tube, characterized in that it is equipped with roller springs fixing the copper wire on the armor of each cable, and the external heat-shrinkable I tube made of radiation resistant, halogen-free compositions based on polyolefins, radiation and having a modified oxygen index in the range of 28-30. 2. The coupling according to claim 1, characterized in that under the tubes insulating the connecting sleeves and the outer tube is wound a tape of non-combustible material. 3. The coupling according to claim 1, characterized in that the sealant is made of radiation-resistant organosilicon composition. 4. The connection sleeve according to claim 1, characterized in that the connecting sleeves are installed on the cable core by crimping. 5. The coupling according to claim 1, characterized in that the connecting sleeves are equipped with contact screws with torn off when tightening the heads.