SU783861A1 - Explosion-proof lead-in - Google Patents

Description

The invention relates to electrical engineering, and more specifically to pass-through clamps of introductory flameproof compartments of explosion-proof electrical equipment, in particular liquid filled electric motors. A pass-through clamp with an insulating sleeve installed in the metal partition of the sheath 1 is known. This device allows the explosion-proof insertion of conductors from the lead-in box to the inside of the sheath. However, such clips do not provide airtightness, which excludes the possibility of their use for insertion of conductors from a blast-tight input device into a fluid-filled inner part of the shell, for example, an electric motor. A pass-through insulator is also known, comprising a case of electrically insulating material, a metal sleeve rigidly fixed inside the case, in the opening of which a conductive pin is mounted at the distance of the blast-tight gap, and a metal holder attached to the case 2j. The known pass-through insulator does not provide a sufficient level of tightness, dust, abrasive particles, condensate, etc. from the shells separated by these bushing insulators can get into the explosion-proof Eazors of the yogis, which generally makes it impossible to use them for cable entry from the flameproof enclosure. in a sealed enclosure filled with, for example, a dielectric fluid. The aim of the invention is to improve the reliability of the explosion-proof input. The goal is achieved by the fact that, in a known explosion-proof inlet in a sealed enclosure containing an insulating material installed in a casing, in a hole of which a current pin is located at the distance of the explosion-proof gap, the casing is installed at the distance of the explosion-proof clearance, the casing and gaps are filled with dielectric liquid, while the latter from the side opposite to the casing, sealed.

Claims (1)

Claim 5 Explosion-proof entry into a sealed enclosure containing a housing made of insulating material installed in the enclosure, in the opening of which a conductive stud is located at a distance of the flameproof gap, characterized in that, in order to increase reliability, the housing in the enclosure ^ ^{4 is} installed at a distance of the flameproof gap , the casing 15 and the gaps are filled with dielectric fluid, while the latter, on the opposite side of the casing, are sealed. 20 . Sources of information taken into account during the examination 1. Rules for the manufacture of explosion-proof and mine electrical equipment. M., Energy, 1969, p. 85. 2. Copyright certificate of the USSR ⁴³ No. 315213, cl. H 01, 17/26, 1966. Compiled by L. Masoltseva