RU142107U1 - CABLE INPUT - Google Patents

Abstract

1. A sealed electric cable entry through a protective shell of an atomic reactor installed in a 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 gaskets in the flange the module and insulators of a heat-resistant material, for example, polyethersulfone, offset to the center of the module, between which there is an opening for tightness control module. 2. The hermetic electrical cable entry according to claim 1, wherein the electrical conductors placed inside the module are coated with mica insulation, on top of which a heat-shrink tube is placed.

Description

The utility model relates to the field of electrical equipment, and specifically to cable glands intended for hermetic cable entry, used to enter electrical energy in nuclear power plants, nuclear ships, and other structures in which there are nuclear reactors.

A number of cable entries for this purpose are known (USSR Author's Certificate N 714944, class H01B 17/26, 1981. TU 16-93IMZhK686351, 008, NLP Electrofarfor. Prospectus of the company Auxitrol Electric penetration, pp. 2 and 3, 1983).

Cable entries consist of a housing having a connecting thread for fastening in the housing of an electrical apparatus, a sealing gasket made of rubber and a threaded nut, which, when twisted, acts on the friction washer and compresses the gasket. The design of these elements does not apply to the description of this utility model.

Known penetration tight cable entry / a.s. SU 1833022 /, comprising a metal casing under pressure, sealed on both sides by flanges, a biological protection element inside the casing, sealing modules soldered or welded to the end flanges of the casing, which are single or multicore cables with mineral insulation in a metal sheath, passed through openings flanges and hermetically soldered or welded by end ceramic-metal insulators. The advantage of this design is the presence of only non-combustible, heat-resistant and radiation-resistant materials, as penetration consists of metals and ceramics, as well as maintaining the integrity of the penetration as a whole in case of leakage in one of its nodes.

The disadvantage of the design is its non-repairability: in the event of failure of a certain part of the conductors, it is necessary to dismantle the entire penetration.

Known hermetic cable penetration of hermetic cable entry related to penetrations of electric hermetic low and medium voltage, used to enter electrical energy into sealed rooms, for example, in nuclear power plants with VVER reactors, nuclear ships, subways, etc. In a sealed cable penetration consisting of a steel cylindrical penetration case with end penetration flanges with openings, single or stranded cables in mineral insulation with a metal sheath, biological protection, guide tubes with sealed multi-cable modules installed in them are fixed in the penetration case coaxially with the flange openings, threaded nuts fixed in the holes of the flanges of the penetration, and sealed with metal gaskets of soft metal, consisting of a cylindrical the module housing with notches at the points of contact with the gaskets, the end flanges of the module with holes through which cables are passed, the metal shell of which is inseparably connected to the surface of the end flanges of the module and the end of the ceramic-metal insulator, the second end of the insulator is inseparably connected to the cable conductor.

The design drawback, despite ensuring its maintainability, in the event of failure of a certain part of the conductors, is the difficulty of dismantling the modules and the entire penetration (RU 2484567, class H02G 3/22, published on June 10, 2013).

The task of developing this utility model is to provide repair (replacement) and installation of modules with minimal time and material costs, maintaining operability under any operating conditions, even in a fire on both sides of the containment (“clean” and “dirty” zones) and in conditions design and beyond design basis accidents, while maintaining two airtightness barriers.

To solve this problem, an airtight electrical cable entry through the protective shell of an atomic reactor installed in the embedded pipe, hermetically welded to the metal cladding of the atomic reactor shell through flanges having a fitting with a manometer for checking pressure welding, equipped with one or more modules with graphite electric conductors is proposed seals in the flange of the module and insulators of a heat-resistant material, for example, polyethersulfone, offset to the center of the module, between which eetsya hole for the control module tightness.

Electrical conductors placed inside the module are covered with mica insulation, on top of which a heat-shrink tube is placed.

The essence of the utility model is illustrated in Fig. 1, fig. 2 and fig. 3.

In fig. 1 shows a longitudinal section through a cable gland of an electric pressurized one, where the input - 1 through the protective shell of an atomic reactor - 2, is installed in a plug-in pipe - 3, is welded to the metal lining - 4 shells of an atomic reactor through flanges - 5, having a nozzle - 6 for checking pressure welding is equipped with one or more modules - 7 with electrical conductors, the sealing of the modules in the input is provided with graphite gaskets - 8, on the input housing 1 there is a hole for attaching a pressure indicator - 9, which ensures tightness control awns.

Fig. 2 shows an electrical tight cable entry module, which is equipped with insulators - 10 made of heat-resistant material, for example polyethersulfone, offset to the center of the module, one or more electrical conductors - 11, placed inside the module and coated with mica insulation - 12, on top of which heat-shrinkable tube - 13, on the module case-14 there is a hole-15 providing tightness control.

In fig. 3 schematically shows the layout and arrangement of thermocouples T ₁ , T ₂ , T ₃ , T ₄ , T ₅ , T ₆ , with temperatures during testing of this design in fire conditions.

The operability of the cable gland electrical tight with modules of this design in a fire on the inside of the protective sheath was tested at t = 1000 ° C for 1.5 hours in a certified center on a model simulating a protective sheath 9, cable gland electric tight 8, module 14 conductors 3 and heat-resistant insulators 1.

The proposed design of the cable gland of a sealed electric, in which there are no special screw nuts, notches for sealing gaskets allows you to:

- to replace modules with minimal time and material costs due to easily removable heat-resistant graphite seals;

- heat-resistant mica insulation prevents a short circuit of conductors in case of fire or high temperature in the mode of design and beyond design basis accidents;

- heat-resistant insulators shifted to the center of the module provide two barriers to the tightness of the sealed electrical input.

Claims (2)

1. A sealed electric cable entry through a protective shell of an atomic reactor installed in a 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 gaskets in the flange the module and insulators of a heat-resistant material, for example, polyethersulfone, offset to the center of the module, between which there is an opening for tightness control module. 2. The hermetic electric cable entry according to claim 1, wherein the electrical conductors placed inside the module are coated with mica insulation, on top of which a heat-shrink tube is placed.

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