RU2502145C2 - Sealed cable lead-in - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: cable lead-in includes a metal cylindrical housing with holes for electrical conductors, is equipped with current-carrying contact rods and their fixing nuts, insulating sleeves and centring sleeves. Each of the centring sleeves is welded into one of the holes of the metal cylindrical housing. To the hole of each centring sleeve there introduced is in insulating sleeve, into the hole of which there introduced and pressed is a current-carrying contact rod. Free space of the hole between each current-carrying rod and the metal cylindrical housing is filled with insulating compound.

EFFECT: invention improves sealing efficiency of a cable lead-in.

1 dwg

Description

Field and level of technology to which the invention relates

The present invention relates to the field of electrical engineering, including marine electrical installations, electrical communications systems, installations and devices using electrical connectors, glands, cable entries. Specifically, the proposal relates to sealed cable glands of electrical conductors in the electrical equipment of deep-sea vehicles.

Sealed connectors and bushings in the electrical engineering of surface and especially submarines is a widely used technique. Complicated sealing tasks. It is required to guarantee the reliable operation of electrical conductors of electrical equipment, the applicability of materials. The technologies for their production and use are rapidly developing, the level of development of the technology of sealed joints and bushings is increasing.

Hermetic water conduits according to OSTV5.8707-85 “Germovvody. Design, dimensions and specifications. ” The standard applies to pressure glands operating in an aqueous medium at hydrostatic pressure from 0 to 6.0 MPa. The standard is somewhat outdated, its requirements are lower than modern needs. Hermetic water inlets are needed, operating in the aquatic environment in a wider range of hydrostatic pressures up to 20.0 MPa and higher.

Known sealed cable entry according to patent RU No. 2224312 (analogue). The invention relates to electrical engineering and can be used to enter cables into ship's hull structures and fire hazardous rooms to ensure tightness of the cable entry in case of fire indoors and ship compartments. The hermetic cable entry contains a housing with an annular protrusion in the hole for cable passage, a sealing element, a washer and a pressure element. The cable entry contains a fire-resistant material, capable of changing its shape under pressure, located in the opening of the housing around the cable and enclosed between the inner and outer conical washers. The flame-retardant material is under pressure from a spring located between the annular protrusion of the housing opening and the inner conical washer, which is preloaded by the compression nut. Spherical quartz granules with a smooth surface can be used in the cable entry as a fire-resistant material capable of changing its shape under pressure. The disadvantages of this solution are the exclusion of the possibility of melting and burning of the cable in the area of its seal, maintaining the tightness of the cable entry in case of fire, which is important for fire-resistant cable entries and is a drawback for deepwater entries due to excessive unjustified costs.

The decision is known on the application No. JP 20080049384 20080229 (analogue) applicant SUKEGAWAELEC +. The solution provides resistance to moisture in the sleeve. It seems that such a solution may not provide the necessary depth of immersion of a deep-sea vehicle for several kilometers.

Known leakproof entries according to patents RU 2259608 from 11/27/2003 and No. 2291507 from 08/01/2005 g (prototype). The invention relates to hermetic bushings of electrical conductors in sealed rooms or volumes in nuclear power plants or other facilities. The essence of the invention lies in the fact that in a sealed cable entry containing a metal cylindrical body with flanges attached to its ends by an electric arc welding method, the ends of the cables are sealed with insulators made of oxide ceramic with spraying on insulators at the places of soldering of titanium and connecting the insulators to the metal sheath of the cable by the active method AgCuTi soldering in a vacuum oven.

Their main disadvantages are determined by the need to perform high-tech complex technological methods of welding and soldering in the conditions of non-serial shipbuilding production, which makes the input sealing process unnecessarily complicated.

The listed disadvantages of the prototype and analogues are eliminated in the proposed technical solution for a sealed cable entry.

A hermetic cable entry containing a metal cylindrical body with holes for electrical conductors, characterized in that it is equipped with conductive contact rods and fixing nuts, insulating sleeves and centering sleeves, each of the centering sleeves is welded into one of the holes of the metal cylindrical body, in the hole of each of the centering sleeve, an insulating sleeve is introduced, into the hole of which a conductive contact rod is inserted and pressed in, the free space of the hole between each conductive rod and the metal cylindrical body is filled with an insulating compound, and the conductive rods pressed into the insulating sleeve are fixed in the holes of the metal cylindrical body with nuts fixing the rods in the body.

In the proposed technical solution, the main distinguishing features of the sealed connector are formulated.

Signs

“It is equipped with conductive contact rods and nuts fixing them, insulating sleeves and centering sleeves ...” provide the ability to seal the contact connection when entering the cable through the boundary between the electrical circuits of the deep-sea apparatus and circuits beyond. A set of structurally simple rods, bushings, and nuts listed with which a sealed bushing is equipped (when fulfilling the prescribed simple requirements for assembling a pressure seal) ensures its tightness.

Signs

"Each of the centering sleeves is welded into one of the holes of the metal cylindrical body, an insulating sleeve is inserted into the hole of each centering sleeve, into the hole of which a conductive contact rod is inserted and pressed in, ..." with careful implementation of the proposed design solutions, it is possible to obtain a reliable sealed contact electrical connection on any depths of application of tight input. Tightness is ensured by hermetically sealing the centering sleeve into the hole of the metal casing, introducing and tightly pressing the contact rod into the insulating sleeve.

Signs

"The free space of the hole between each conductive rod and the metal cylindrical body is filled with an insulating compound, and the conductive rods pressed into the insulating sleeve are fixed in the holes of the metal cylindrical body with nuts, ..."

provide additional sealing by filling the insulating compound with the free space of the opening of the housing between each conductive rod and the metal of the cylindrical housing. In this case, the main sealing is ensured by pressing rods in an insulating sleeve, in which the conductive rods after pressing are fixed in the holes of the metal cylindrical body with nuts fixing the rods in the housing. Based on the use of standard materials for shipbuilding, technological methods and the use of original simple products without special expensive tools and sophisticated technologies, a sealed cable entry is proposed.

Therefore, the proposed sealed cable entry meets the criterion of "novelty", as it has distinctive features from the prototype, new structural elements, new connections between the elements and new materials used. The above properties do not coincide with the properties that are the hallmarks of the known technical solutions, and are not the sum of their properties, which allows us to consider the claimed solution to meet the criterion of "significant differences".

Description of the design of hermetic cable entry.

The figure shows a drawing of a sealed cable entry.

Sealed cable entry contains a metal cylindrical body 1 with holes 2 for electrical conductors. It is equipped with conductive contact rods 3 and their fixing nuts 4, insulating bushings 5 and centering bushings 6.

Each of the centering sleeves 6 is welded into one of the holes 2 of the metal cylindrical body 1. An insulating sleeve 5 is inserted into the hole 2 of each centering sleeve 6, into the hole of which a conductive contact rod 3 is inserted and pressed in. Free space 7 of the hole 2 between each conductive rod 3 and the metal cylindrical body 1 is filled with an insulating compound 8. The conductive rods 3 are fixed in the holes 2 of the metal cylindrical body 1 with nuts 4 with washers 9.

The basis of the guarantees of sealing is provided by the constructive solutions of the main units introduced into the design of the hermetic input, technological methods of their assembly. The tightness of the input ensures the pressing of the contact rods 3 into the insulating bushings 5. This operation is carried out by tightening the nut 4 and fixing it. Additional sealing is performed by filling with the insulating compound 8 the free space 7 of the opening 2 of the housing 1 between each conductive rod 3 and the metal cylindrical housing 1. The guarantee of sealing is determined by the combination of part designs, their materials and accuracy during assembly. Multiple tests confirm the guaranteed results of the tightness of the bushings with the apparent simplicity of the proposed solution.

Thus, the issues of electrical isolation of the rods 3 from each other, from the housing, from the environment are solved. The technology of sealed installation of the housing 1 of the sealed cable entry into the body of the underwater vehicle is repeatedly and constantly applied and does not require improvement.

Claims (1)

A hermetic cable entry containing a metal cylindrical body with holes for electrical conductors, characterized in that it is equipped with conductive contact rods and fixing nuts, insulating sleeves and centering sleeves, each of the centering sleeves is welded into one of the holes of the metal cylindrical body, in the hole of each of the centering sleeve, an insulating sleeve is introduced, into the hole of which a conductive contact rod is inserted and pressed in, the free space of the hole between each conductive rod and the metal cylindrical body is filled with an insulating compound, and the conductive rods pressed into the insulating sleeve are fixed in the holes of the metal cylindrical body with nuts fixing the rods in the metal cylindrical body.