RU171100U1 - CABLE INPUT - Google Patents

Abstract

A utility model relates to a cable entry through a protective shell of an atomic reactor installed in a plug pipe, hermetically welded to the metal lining of the shell of an atomic reactor by means of flanges. The cable entry is equipped with one or more modules with a medium-voltage electric conductor, which has cylindrical graphite seals at the ends of the module flanges, placed in a heat-shrinkable halogen-free tube made of a material providing an oxygen index of at least 33%, electric strength of at least 20 kV / mm , specific conductivity 10 μS / mm, sealed with a sealing ring made of graphite material, such as graphlex, and installed in the metal housing of the cable module input by tightening the nut into the body of the insulator. 1 ill.

Description

The utility model relates to cable glands of sealed electric medium voltage, designed to pass through the double protective sheath of the reactor building at nuclear power plants.

A number of cable entries for this purpose are known (USSR Author's Certificate No. 714944, class Н01В 17/26, 1981. TU 16-93IMZhK686351, 008, NLP "Electrofarfor", Prospectus of the company "AuxitrolElectric penetration", pp. 2 and 3, 1983).

Known cable gland sealed electric (VEG), containing a metal housing under pressure, sealed on both sides by flanges, a biological protection element inside the housing, sealed modules, soldered or welded to the end flanges of the housing. The modules are single or multi-strand cables with mineral insulation in a metal sheath, passed through the holes of the flanges and hermetically soldered or welded by end ceramic-metal insulators (AS SU 1833022). The disadvantage of the design is its unrepairability. In the event of failure of a certain part of the conductors, the entire cable must be dismantled.

Known sealed input of electrical circuits into the sealed area of the double protective shell of nuclear power plants, which contains located in the inner wall of the embedded pipe with a cable fixed inside the cable entry section. A coaxial nozzle is installed in the outer wall means for compensating for the relative movement between the cable and the outer wall. The compensating means has a pipe with a bellows on the outer end and a second similar bellows symmetrically mounted on the opposite end of the pipe at the inner surface of the outer wall. The free ends of both bellows are conical, the inner surfaces of which are supporting elements for the output section of the cable, which is freely located in the pipe with a gap relative to the inner surface of the pipe (RU 2557669, class H02G 3/22, publ. 07.27.2015).

This cable entry is used only for high voltage, while in nuclear power plants the share of hermetic cable entries for high voltage is about 10% and about 90% for hermetic cable entries for medium and low voltage.

Closest to the claimed utility model is a sealed electrical cable entry through the protective shell of an atomic reactor installed in a plug-in pipe, hermetically welded to the metal lining of the shell of an atomic reactor through flanges having a fitting with a pressure gauge for checking pressure welding, equipped with one or more modules with electrical conductors , graphite seals in the flange of the module and insulators of a heat-resistant material, such as polyethersulfone, offset to the center of the module, between torymi has a hole for the control module tightness. The electrical conductors placed inside the module are covered with mica insulation, on top of which a heat-shrink tube is placed (UI 142107, CL H2G 3/22, publ. 06/20/2014).

The technical result of the proposed utility model of cable entry is to provide resistance to radiation exposure and high temperatures both in normal use and in a beyond design basis accident and in case of fire at a nuclear power plant.

To achieve a technical result, it is proposed a cable entry of a sealed electric medium voltage through a protective shell of an atomic reactor installed in a embedded pipe, hermetically welded to the metal cladding of the shell of an atomic reactor, equipped with one or more modules with electrical conductors, with graphite seals in the module flange and heat-resistant insulators material, for example polyethersulfone, having a fitting with a pressure gauge for checking pressure welding, characterized in that it is sn It is equipped with one or several modules with a medium-voltage electric conductor, which is placed in a heat-shrinkable halogen-free tube made of a material that provides an oxygen index of at least 33%, electric strength of at least 20 kV / mm, specific conductivity of 10 μS / mm, sealed with an o-ring made of graphite material, such as graphlex, and installed in the metal housing of the cable entry module by tightening the nut into the body of the insulator.

In fig. 1 presents the inventive cable entry electrical tight, where 1 is the input; 2 - a protective shell; 3 - embedded pipe; 4 - metal cladding; 5 - flanges; 6 - fitting; 7 - pressure indicator; 8 - module; 9 - medium voltage conductor; 10 - flange; 11 - insulator; 12 - a nut; 13 - ring; 14 - a sealing ring; 15 - heat-shrink halogen-free tube.

To control the tightness of the cable entry, for the entire period of operation, a pressure indicator (7) is installed on it. In the cable entry, one or more modules (8) are installed with a medium voltage electric conductor (9). The module (8), by bolting the flange (10) to the housing (1), is sealed with a graphite sealing ring (13), for example from graphlex. The medium-voltage electric conductor (9) is placed in a heat-shrinkable halogen-free tube (15) and sealed with a sealing ring (14) made of graphite material, such as graphlex, and installed in the module housing by tightening the nut (12) into the insulator body (11).

The use of a sealing ring (14) ensures ease of installation of the module (8) in the cable entry housing (1), as well as its replacement if necessary.

The resistance of graphite rings and a heat-shrinkable halogen-free tube, in particular, to radiation exposure and high temperatures, makes it possible to maintain the tightness of the cable entry both in normal operation and in a beyond design basis accident and in case of fire at a nuclear power plant.

Claims (1)

Sealed electrical cable entry through the protective shell of an atomic reactor installed in a plug-in pipe, hermetically welded to the metal cladding of the nuclear reactor shell by means of flanges, having a fitting with a pressure gauge for checking pressure welding, characterized in that it is equipped with one or more modules with an electric medium-voltage conductor , which has cylindrical graphite seals at the ends in the flanges of the module, is placed in a heat-shrinkable halogen-free tube made of mat A series providing an oxygen index of at least 33%, an electric strength of at least 20 kV / mm, a specific conductivity of 10 μS / mm, is sealed with an o-ring made of graphite material, such as graphlex, and installed in the metal housing of the cable entry module by twisting nuts in the body of the insulator.

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