SU1043775A1 - Cable lead-in - Google Patents

Abstract

CABLE INPUT, comprising a case located therein between the pressure elements, a sealing sleeve with longitudinal concentric incisions at the inner diameter, characterized in that, in order to increase reliability, it is provided with two washers located between the sealing sleeve and the pressure elements, the internal diameter of which exceeds the internal diameter of the sleeve , while the pressure elements are in contact with the washers on the part of the surface adjacent to their outer diameter. (L with

Description

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: The invention relates to electrical engineering 1ke, namely to cable glands, for example, terminal and connecting, couplings, explosion-proof electric apparatus, as well as shafts and tubular parts. Cable glands for sticking vulcanized rubber or polybutylene are known. clamped by pressure washers | jL. The bushings made in an explosion-proof electrical equipment are known, the sealing rings should have an inner diameter equal to the outer diameter of the cable and an outer diameter close to the diameter of the bore for ring 2. This requirement is caused by the difficulty of sealing the input with known pressure elements. .. The closest technical solution to the present invention is a small overall input device for explosion-proof electrical apparatus, comprising a notched rubber ring located between the cylindrical casing and the housing. When the cylindrical casing and housing come together, the compression ring, the rubber ring and the seal of the inlet 3 are compressed. The disadvantages of the known seals are the laboriousness of the pressure elements, the difficulty of ensuring tightness and the difficulty of installation. The aim of the invention is to increase reliability. The goal is achieved by the fact that the cable gland, comprising a housing located between the pressure elements of the sealing sleeve with concentric longitudinal cuts at the inner diameter, is provided with two washers located between the sealing sleeve and the pressure elements, the inner diameter of which exceeds the diameter of the sleeve. The pressure elements are in contact with the washers on the part of the surface that sticks to their outer diameter. .In FIG. 1 shows the entry to the press of the pressure elements in FIG. 2 the same, after compressing the pressure elements. The cable gland consists of an outer casing 1, into which flat deformable washers 2 and a sealing sleeve 3 with notches 4 are inserted. Between them a layer 5 of antifriction lubricant is applied. The planes of the pressure elements 6 and 7 are in contact with the washers 2 with only a part of their surface located at the outer diameter. The pressure elements 6 and 7 are fastened with bolts 8, after which the sealing sleeve 3 seals the cable 9 and the housing 1. The input works as follows. When mounting the corresponding holes in the clamping element 6 and the core .cel. bolts 8, which are fastened by uniformly screwing the nuts until the sealing sleeve 3 completely clenches the inner tubular body of the cable 9, abutting against the wall of the housing 1, and creates the necessary sealing. In case of bolts, due to the pressure of the sealing sleeve, the washers are deformed, giving the sleeve a trapezoidal shape. The deformable 1 and 2. And sealing sleeve 3 freely enter into the housing 1 with the least clearance (1-2 F). The gap between the cable and the sealing bushing is of greater importance (up to 5 mm) in order to compress the internal tubular bodies of various diameters. To increase the range of cable diameters, cut-outs 4, located around the inner bore of the grommet, are not made to its full thickness. When mounting. At the slits 4, a part of the sealing sleeve is removed, to increase its internal opening. The slits 4 are made no more than to the internal holes of the rigid deforming washers 2. Before the bolts 8 are compressed on the sealing sleeve 3, the cable 9 occupies any position inside the sealing sleeve 3, in particular, concerns the lower generatrix of it (l. Bottom). compressing it moves to the central axis. However, if the body of the cable 9 does not have to be displaced relative to its axis, for example, a rotating shaft, by its design, then it is prior to compression. must be installed coaxially with the housing 1. Due to the good sealing ability, the proposed insertion structure can be used not only for sealing rotating around its longitudinal axis or stationary, relative to the axis of tubular bodies having a circle in their cross section, but also for sealing non-moving tubular bodies that have an ellipse, rectangle, etc., in their cross section the figure is also sealed in the case when the tubular bodies move along its axis. The advantage of compaction is the simplicity of the design and the high hermeticity.

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Claims (1)

(54) (57) CABLE INPUT, comprising a housing, a sealing sleeve located in it between the pressure elements with longitudinal concentric cuts at the inner diameter, characterized in that, in order to increase reliability, two washers located between the pressure sleeve and pressure elements are provided, the inner diameter of which exceeds the inner diameter of the sleeve, while the pressure elements contact the washers on a part of the surface adjacent to their outer diameter.