SU1617511A1 - Sealed cable lead-in - Google Patents

Abstract

The invention relates to electrical engineering, in particular to devices for the hermetic insertion of cable bundles through the shells of deep-sea apparatuses. The aim of the invention is to increase the input resource under cyclic loading. To this end, a third membrane 11 is added to the two adjacent membranes 1 and 2, coaxial holes 3 and 4 are made in the membranes, through which the cables 5 pass. Each cable is covered by sealing units 6, the sleeves 7 of which are installed in the holes 3 and are made with inner diameters larger than the diameter of the holes 4. Such an insertion, due to the elastic response of the membrane 11, makes it possible to weaken the mechanical stresses arising at the place of cable attachment when the membrane is deformed. 1 il.

Description

The invention relates to electrical engineering, and in particular to devices for introducing bundles of cables through the shells of deep-sea vehicles.

The aim of the invention is to increase the resource under cyclic loads by reducing the micro-deformation of the sealant when moving the membranes relative to each other.

The drawing shows a sealed 1 input, section.

The input consists of adjacent to each other elastic membrane 1 and a rigid body 2, through coaxial holes 3 and 4 of which cables 5 pass. Each cable 5 1 is covered by sealing units 6, bushings 7 of which are installed in holes 3 and are made with inner diameters exceeding the diameter of the holes 4, Technological gaps between the cable sheaths 5 and the bushings 7 are filled with asbestos cord 8 impregnated in a polymerizable sealant, extending outside the sleeve 7 in the form of a cone covered by a rubber cover 9. The remaining strips under the rubber cover 9 is filled with sealant 10.

The second elastic membrane 11 is adjacent to the housing 2 along the plane, in the openings 12 of which are installed bushings 7 of the sealing units 6, similar to those installed in the membrane 1.

In the manufacture of a sealed input due to deviations from the non-flatness of their parts, as well as due to the leash of the membranes during welding, gaps όι and 02 are formed. When exposed to hydraulic pressure from the side of the membrane 1, the latter is pressed against the housing 2 and the gap decreases to an extremely small value. The membrane 11 is fed away from the membrane by the gap όι. Since the membrane 1 is pressed against the housing 2, the pressure acting on it is not transmitted to the adhesion surface of the cable sheaths 5 with the asbestos cord impregnated with the sealant 8. The elastic reaction of the membrane 11 through the cables 5 slightly reduces mechanical stresses from the influence of the hydraulic pressure of the tending to push the cables 5 through the input .

Alternatively, it is possible to install elastic cut-off gaskets or rings from a dry cord, covering cables 5 and adjacent to the housing 2 in the cavity of the sleeve 7, however, the small gap between the membranes and the housing and the low fluidity of the sealant, even without these measures, do not allow filling the gap cavity. Therefore, the layer of impregnated asbestos cord sealant adjacent to the membranes is compressed when exposed to pressure, being distributed into the cavity of the gaps, slightly deforming the plane of membranes 1 and 11.

By reducing the magnitude of the mechanical stresses acting on the surface of the cable sheaths, the adhesion of the sealant to them under cyclic loads during operation is maintained, which leads to an increase in the life of the hermetic cable entry.

The invention can be used for laying cables through the hulls of deep-sea vehicles that experience alternating cyclic loads during the development of the marine shelf. This is also facilitated by the symmetry of the structure, which provides resistance to alternating pressure magnitudes.

Claims (1)

Claim A hermetic cable entry containing a membrane adjacent to the rigid body with coaxial holes, cables passing through the holes and covering each cable sealing nodes installed in the membrane holes, characterized in that, in order to increase the resource during cyclic loads, it is equipped with an additional membrane adjacent to the body with holes coaxial with the holes of the housing, while in the holes of the additional membrane installed sealing nodes similar to the nodes installed in the main membrane not.