SU1721684A1 - Lead-in unit - Google Patents

Abstract

The invention relates to electrical engineering and can be used in the hermetic passage through the openings of electrical devices. The purpose of the invention is to simplify the construction while reducing the overall dimensions and improving the reliability of fastening the conductive pin. For this purpose, the pressure elements 5 are located along the ends of the gasket 7 and are made of conductive material. The height of the gasket 7 exceeds the thickness of the containment 8. The diameter of the stud 1 exceeds the diameter of the aperture of the gasket 7. This embodiment allows the stud 1 to be installed in the containment 8 with the lowest labor costs, as well as to ensure its tightness and reliable fastening. 1 il.

Description

The invention relates to electrical engineering, in particular, to the hermetic passage of a conductive pin through the container wall of batteries, and can be used in various electrical devices for general industrial purposes.

Known bushings compacted using flat rubber gaskets are known. These entries have a large number of elements and increased overall dimensions due to the presence of shoulders on the sleeves.

As a prototype, a pass-through clamp was adopted for an explosion-proof shell containing two insulating sleeves installed with a gap relative to each other, along whose axis there is a gasket made of elastic insulating material with flame extinguishing channels. The ends of the sleeves facing each other facing each other. wives - annular projections having

triangular cross-sectional profile. The disadvantage of this node is the complexity of the design and too large dimensions.

The purpose of the invention is to simplify the design, while reducing the size and increasing the reliability of fastening the conductive stud.

The goal is achieved by those. that the input unit containing a gasket made of elastic insulating material located in the hole of the partition wall, passing through the through-hole of the wall, carries a pin c. fastening elements and pressure elements placed along the ends of the gasket with annular projections of the triangular profile in cross section on the sides. facing the gasket, made of conductive material. The conductor schz stud threaded section is located

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in the gasket hole, with the gasket thickness exceeding the thickness of the germpressor, and the diameter of the threaded portion of the stud exceeds the diameter of the gasket hole.

The invention makes it possible to hermetically seal the opening of the containment with the least labor costs, since the thickness of the gasket is made larger than the thickness of the thermal partition and does not require bushings, as in the prototype. The reliability of fastening of the conductive pin in the sealing element is achieved by the fact that the conductive pin is screwed into one of the gasket holes, the diameter of which is smaller than the hole diameter, and is thus fixed in it.

The drawing shows the input node, the cut.

The inlet assembly contains a gasket 2 made of an elastic insulating material located in the aperture of the sealed partition. The conductor pin 3 with fasteners 4-6. Passes through the through hole of the gasket 2. Along the ends of the gasket 2, pressure elements 7 are installed with annular protrusions 8 of a triangular profile in cross section on the sides facing the gasket 2. The pressure elements 7 are made of wire Conductive material. The conductor wire stud 3 of the threaded section is located in the hole of the gasket 2, while the thickness of the gasket 2 exceeds the thickness of the containment 1. And the diameter of the threaded section of the hairpin 3 exceeds the diameter of the gasket hole 2.

The input assembly is mounted as follows.

The gasket 2 is installed in the hole of the sealed partition 1. Then the stud 3 is screwed into the hole of the gasket 2. In

gasket 2 is self-threading. This leads to compaction and fastening of the conductive pin 3 in the gasket 2. After installing the pressure element 7 washers 4 and 5 on both sides, the bolt 3 is screwed on the pin 3, which compress the gasket 2 from the ends and thus additionally seal the opening of the thermopartment 1 and diameter studs 3,

The use of this transition clamp allows the installation of a conductive stud and its sealing and reliable fastening in the containment with the least labor costs. The straight-through clamp is easy to manufacture and operate; the number of elements in it is reduced by 8 units compared with the prototype, which is 55%. This reduces overall dimensions by 25% while reducing labor costs.

Formula bar and bushing Node of entry, containing a gasket made of elastic insulating material located in the opening of the containment section, a conductive pin with fasteners and pressure elements with annular elements that pass through the gasket through hole. the projections of the triangular profile in cross section on the sides facing the gasket, characterized in that, in order to simplify the construction while reducing the size and increase the reliability of fastening the conductive stud, elements are made of conductive material, conductive stud threaded portion positioned within the opening the gasket, the thickness of the gasket exceeds germoperegorodki thickness, and the diameter of the threaded portion of the stud exceeds the diameter of the gasket apertures. .

Claims (1)

Claim An input assembly comprising a gasket made of elastic insulating material 25 located in the opening of the gas barrier, passing through the gasket through hole, the conductive stud with fasteners, and pressure elements placed on the ends of the gasket with annular protrusions of a triangular profile in cross section on the sides facing the gasket, about characterized in that, in order to simplify the design while reducing the dimensions and increase the reliability of fastening the current35 conductive studs, the pressure elements are made of of the conductive material, the conductive stud with the threaded section is located in the gasket hole, while the thickness of the gasket exceeds 40 the thickness of the pressure barrier, and the diameter of the threaded stud section exceeds the diameter of the gasket hole.