SU1236561A1 - Pressure-seal cable feed-through - Google Patents

Abstract

Sealed cable entry allows for increased reliability at high hydrostatic pressures. The input contains a metal casing (K) 4, conductive elements in the form of sleeves 3, a sealing assembly 2, which is made of rubber and vulcanized to K 4 and the sheath of cable 1. On K 4 with its front sides there are ring grooves, which are located insulating elastic elements 6 and 7. In this case, elastic elements 6 and 7 interact with ledges 10. After passing the cable 1 wires through sleeves 3, they are pressed, put on electrical insulating sleeves 5 and inserted into K 4 together with elastic elements 6 and 7. The resulting node, along with the cable 1 vol aniziruyut side ledges 10. Sealing is provided by the input unit 2 and sealing press fit sleeves 3 in the elastic element 7 and the longitudinal smepdeni tube 3 retained shoulder 10 and nut yl I. I. F (Lj oo 05 sd 05

Description

The invention relates to electrical engineering, in particular to hermetic cable glands, operating at high hydrostatic pressures.

The purpose of the invention is to increase reliability.

The drawing shows a sealed cable entry, cut.

Hermetic cable gland contains cable 1, placed in sealing assembly 2 (rubber mass), conductive elements 3 in the form of sleeves, housing 4 and insulated from it by means of electrical insulating, sleeves 5, and elastic elements 6 and 7. Cable cores 1 without insulation passed through the sleeve 3 and pressed into them WITH; the sides of the sealing unit 2, which is made of rubber and vulcanized to the body 4 and the cable jacket 1. The body is made with grooves in which the sealing ring 8 and the copper gasket 9 are located, sealing the lead on its outer surface. Entry on the object is secured with a nut screwed onto the housing 4.

Sealed cable entry works as follows.

The cut wires of cable 1 are passed through sleeves 3. Thereafter, the operation of pressing the cable leads in sleeves 3 is performed. Then insulating sleeves 5 are put on the sleeves 3, insulating elastic elements 6 and 7 are inserted into the openings of the housing 4, and the sleeves with pressed veins are inserted that the wires go inside the object. After that, they screw up the nuts on the ends of the sleeves 3 and compress the assembled elements. The assembly prepared in this way, together with cable 1, is vulcanized from the side of the ledges 10. () The broken assembly is inserted into the object body and compressed by a nut 11 screwed onto the threads of the body 4.

Longitudinal sealing of the inlet when the water is supplied from the outside and the damage of the cable's hose sheath is provided for

the expense of the rubber mass 2 and the press fit of the part of the sleeves 3 in the elastic element 7. Longitudinal sealing of the input when the insulation of the cable cores is damaged

due to the crimping of the cable cores by shrinking the sleeve 3 from the side of the sealing unit 2. The axial forces acting on the cable are transmitted to the sleeves 3, which are kept from longitudinal displacement by a ledge 10 and a nut. The area of the support surfaces of the ledges and nuts is selected according to the allowable compressive stress for the material of the elastic elements 6 and 7. The compressive force of the flat annular edge is determined by the maximum pressure, the compressive force of the nut is the strength of the core. The cross section and liner material is selected from the condition of strength with the core. Sealed cable entry ensures reliable operation with a hydrostatic pressure of at least 630 kg / cm and axial force on

cable up to 1000 kg.

Claims (1)

Invention Formula Sealed cable gland containing a metal casing, a sealing assembly, conductive elements attached to the cable cores and electrically insulating sleeves located between the casing and the conductive elements, characterized in that it is provided along the ends of the casing elastic elements of insulating material and located on the housing from the side opposite to the sealing assembly, fixing assemblies of current-conducting elements, the housing with end sides is made with annular yemkami, conductive elements by the seal assembly formed with ledges, the elastic members disposed in the housing and interacting recesses / Procedure with ledges and fixing nodes.