RU53509U1 - CLUTCH END INSTALLATION - Google Patents

Abstract

The utility model relates to cable technology, namely, to couplings for terminating single-core cables with cross-linked polymer insulation. The sleeve contains a cable lug, a cable termination, an internal heat-shrinkable polymer tube, a second lug attached to the cable wire screen, sealant layers for sealing the external tube made of a radiation-resistant organosilicon composition, and an external heat-shrinkable tube made of a radiation-resistant halogen-free polyolefin composition with index 28-30.

The technical result is an increase in fire resistance and to the effects of radiation.

Description

The utility model relates to cable technology, namely, to couplings intended for terminating single-core power cables with cross-linked polymer insulation, used to transfer electrical energy in stationary electrical installations at an alternating voltage of 6 and 10 kV at a frequency of 50 Hz, at an ambient temperature of minus 50 ° C to plus 60 ° C and relative humidity up to 98% at a temperature of plus 35 ° C.

Known end coupling of indoor installation for a single-core cable with XLPE insulation, containing a cable lug installed on the cable core and terminating it, an internal heat-shrinkable polymer tube installed on the cable insulation with a step on the step of the electrically conductive screen, a second lug installed on the cable wire screen , an external heat-shrinkable polymer tube of a copolymer of ethylene and vinyl acetate, an external heat-shrinkable tube, layers of sealant, for example silicone a, located under the outer heat-shrinkable tube (TU 3599-009-04001953-00 "Couplings and terminations for cables with plastic insulation 10 kV").

However, this coupling does not meet the fire safety and radiation resistance requirements.

The task was to develop the design of the coupling of the terminal indoor unit, which does not spread combustion and is resistant to special influences - radiation resistance, temperature in emergency mode at least 150 ° C for 10 hours

The technical result is achieved by the fact that in the end sleeve for a single-core cable with cross-linked polyethylene insulation containing a cable end,

installed on the cable core and terminating it, an internal heat-shrinkable polymer tube, installed on the cable insulation with a step on the step of the electrically conductive screen, a second lug installed on the cable’s wire screen, an external heat-shrinkable polymer tube, sealant layers located under the external heat-shrinkable tube, the latter is made of a radiation-resistant halogen-free composition based on polyolefins, radiation modified and having an oxygen index in the range of 28-30.

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

The cable end of the end sleeve can be installed on the cable core by crimping.

Also, the cable lug can be equipped with contact screws with torn off when tightening the heads,

A utility model is presented in the drawing, which shows the end sleeve (general view) mounted on a single-core cable.

The sleeve contains a copper cable lug 1, sealant 2, an internal heat-shrinkable tube 3, an external heat-shrinkable tube 4 of a radiation-resistant polymer radiation-modified halogen-free composition with an oxygen index of at least 30, and a second tip 5.

The following is information confirming the feasibility of the utility model.

As the material of the outer tube, a radiation-modified polyolefin composition containing no halogens, reduced flammability with an oxygen index of 28-30, resistant to radiation, was used.

Radiation modification of the composition is carried out, for example, by irradiating it with a stream of accelerated electrons.

As polyolefins, in particular, polyethylene and its copolymers can be used.

As the sealant material, a polymer composition is used that is resistant to the effects of radiation, preferably from an organosilicon composition.

The polymer compositions used for the manufacture of tubes and sealant are commercially available.

Heat-shrinkable tubes are manufactured on extrusion equipment, traditionally used in the cable industry.

The coupling is mounted on the cable installation site by cutting the cable end (sequential removal of cable elements at a certain length, except for the metal screen 6, the wires of which are bent to the opposite end of the cable), installations with subsequent shrinkage of the internal heat-shrinkable tube 3, which regulates the electric field strength at the cut conductive screen 7, termination of the core 8 of the cable with the tip 1, the application of sealant 2 on the tip and the step 9 of the cable sheath and the installation of external heat shrink 4 tubes.

Samples of the proposed coupling (oxygen index of the radiation-modified composition 28-30) were tested for non-proliferation of combustion according to GOST 12176-89 and for resistance to special effects (radiation, thermal aging).

The results are shown in the table.

In contrast to the known one, the proposed end sleeve withstands impact without impact for 300 hours, absolute pressure up to 0.17 MPa at an absorbed radiation dose rate of 1.0 Gy / hour and a temperature of 90 ° C.

COUPLING CHARACTERISTICS Name of characteristic Technical requirements Cable product Famous clutch Clutch offered 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 200 mm, corresponds - the degree of reduction of light transmission during combustion and decay according to IEC 61034-1 and IEC 61034-2 no more than 40% 35% corresponds to Damage Resistance to special influences Irradiation to an absorbed dose of 3.5.10 ⁵ Gy; Thermal aging at (135 ± 2) ° C for 306 hours; The mode of "small leak" for 300 hours at 90 ° C, 1.7.105 Pa with simultaneous irrigation with a deactivating composition. (cracks) in the heat-shrinkable tube are absent. The coupling withstood 40 kV, 10 min. Corresponds. No damage. 40 kV test for 10 min

Claims (4)

1. The end sleeve for a single-core cable with cross-linked polyethylene insulation, containing a cable lug mounted on a cable core and terminating its inner heat-shrinkable polymeric tube installed on the cable insulation with a step on the step of the electrically conductive screen, a second lug mounted on the cable wire screen , an external heat-shrinkable polymer tube, layers of sealant located under the external heat-shrinkable tube, characterized in that the external heat-shrinkable tube is made of p radiation-resistant, halogen-free compositions based on polyolefins, radiation modified and having an oxygen index in the range of 28-30. 2. The end sleeve according to claim 1, characterized in that the sealant is made of radiation-resistant organosilicon composition. 3. The end sleeve according to claim 1 or 2, characterized in that the cable lug is installed on the cable core by crimping. 4. The end sleeve according to claim 1 or 2, characterized in that the cable lug is equipped with contact screws with heads breaking off when tightened.