RU155936U1 - EXPLOSION CABLE INPUT - Google Patents

Abstract

1. Explosion-proof cable entry comprising a housing with a cylindrical through hole provided with a thread and a support surface, a nozzle installed in the hole, a pressure ring and a sealing ring located between the end part of the fitting, the pressure ring and the support surface of the housing, characterized in that the support surface of the housing made in the form of a truncated cone, the housing on the side opposite to the fitting is equipped with an annular stop lying in a plane perpendicular to the axis of the housing, with a fastening shank with a threaded mounted thereon and the fixing gaykoy.2. Explosion-proof cable entry according to claim 1, characterized in that the thread of the mounting shank is tapered or cylindrical. 3. The explosion-proof cable entry according to claim 1, characterized in that a sealant and an antifriction washer are placed between the ring stop and the fixing nut. Explosion-proof cable entry according to claim 1, characterized in that the seal is made in the form of rings. 5. Explosion-proof cable entry according to claim 1, characterized in that the mounting shank is provided with an annular groove adjacent to the annular stop. 6. Explosion-proof cable entry according to claim 1, characterized in that the base of the sealing ring adjacent to the supporting surface of the housing has the shape of a truncated cone. 7. Explosion-proof cable entry according to claim 1, characterized in that the base of the sealing ring adjacent to the supporting surface of the housing is perpendicular to the axis of the cable entry. Explosion-proof cable entry according to claim 1, characterized in that the base of the sealing ring adjacent to the supporting surface of the housing is made of

Description

The invention relates to cable glands intended for sealing and fixing flexible unarmoured cables with rubber and plastic insulation of circular cross section when they are inserted into stationary, mobile or portable electrical equipment.

Known cable entry of the explosion-proof lamp (US Pat. RF №132861, IPC F21V 25/12, publ. 12/29/2011), made in the first embodiment in the form of an input chamber consisting of a housing with a cylindrical through hole provided with a thread and a supporting surface, covers and threaded sleeves with pipe threads made of aluminum alloy, a terminal block installed in the input chamber, and rubber gaskets are installed to seal the cable in the input chamber. In another embodiment, the cable entry is made in the form of a junction box, into which two fittings with sealing gaskets and nuts are screwed on, and cables pass through the holes in the fittings and gaskets.

Features common to the proposed explosion-proof cable entry:

a housing with a cylindrical through hole provided with a thread and a supporting surface, fittings with nuts installed in it, gaskets.

The disadvantage of this cable entry of the explosion-proof lamp is its low reliability and safety, due to the possibility of skewing the threaded sleeve and extruding the gasket along the through hole when tightening the threaded sleeve in the first embodiment and tightening the fittings in the second embodiment. The disadvantages should also include the large overall dimensions and dimensions of the installation position, greatly limiting the possibility of using the cable entry autonomously, separately from the lamp.

Known cable entry explosion-proof lamp (US Pat. RF No. 2269716, IPC F21V 25/12, publ. 02/10/2006), comprising a housing with a cylindrical through hole provided with a thread and a tapered abutment surface, a fitting and a seal installed therein, through holes in which the cable passes.

Features common to the proposed explosion-proof cable entry:

a housing with a cylindrical through hole provided with a thread and a tapered abutment surface, a fitting and a seal installed therein. A disadvantage of the known cable entry of the luminaire is also the low reliability and safety and the inability to use the cable entry autonomously, in the installation position located outside the luminaire.

Known (http://www.velan-td.ru/catalog/s/107, free access) cable entries VK-X-VEL4 containing the input housing, lock nut, gasket, cable seal, pressure ring, spacer sleeve, nut and pressure collet.

When tightening the nut in the specified cable entry, the collet is compressed, which presses the seal to the cable, which provides sealing and fixation of the cable.

Features common to the proposed explosion-proof cable entry:

a housing with a cylindrical through hole provided with a thread, a seal installed in it.

A disadvantage of the known cable entries is low reliability and safety, due to the fact that the compression of the seal is carried out by insufficient force on the side of the collet.

Closest to the proposed explosion-proof cable entry is the cable entry of the electric explosion-proof heater adopted for the prototype (US Pat. RF No. 68220, IPC H05B 3/00, H05B 3/48, H05B 3/50, publ. 10.11.2007), comprising a housing with a cylindrical through hole provided with a thread and a supporting surface, a fitting, a nut, a pressure ring and an o-ring located between the end part of the fitting, a pressure ring and a supporting surface of an annular shape lying in a plane perpendicular to si through hole.

Signs common with the claimed explosion-proof cable entry: a housing with a cylindrical through hole provided with a thread and a support surface, a fitting, a nut, a pressure ring and an o-ring located between the end part of the fitting, the pressure ring and the support surface installed in the hole.

The disadvantage of the prototype is the low reliability and safety due to the annular shape of the supporting surface lying in a plane perpendicular to the axis of the through hole, which does not provide a tight crimp cable seal. The disadvantages should also include the inability to use the cable entry autonomously, in the installation position separately from the heater.

The main objective of the claimed utility model is to create an explosion-proof cable entry with high reliability and safety.

The technical result, which is achieved by the claimed utility model, is to increase reliability and safety by providing a tight crimp cable seal.

An additional technical result is the possibility of autonomous installation of the cable entry in the desired installation position.

The technical result is achieved in that in an explosion-proof cable entry containing a body with a cylindrical through hole provided with a thread and a support surface, a fitting installed in the hole, a pressure ring and a sealing ring located between the end part of the fitting, the pressure ring and the supporting surface, the support surface is made in the form of a truncated cone, the housing on the side opposite to the fitting is equipped with an annular stop lying in a plane perpendicular to the axis of the housing with a fixing shank with thread and mounting nut installed on it.

The mounting shank can be made with a cylindrical thread.

It is rational to place a sealant and an antifriction washer in an explosion-proof cable entry between the ring stop and the fixing nut.

It is recommended that in the explosion-proof cable entry the sealant be made in the form of rings mounted on both sides of the mounting hole.

The mounting shank of the explosion-proof cable entry can be made with an annular groove adjacent to the annular stop.

The base of the o-ring adjacent to the supporting surface of the housing may be in the form of a truncated cone.

The base of the o-ring adjacent to the supporting surface of the housing may be perpendicular to the axis of the cable entry.

The base of the o-ring adjacent to the supporting surface of the housing may be made rough or toothed.

The execution of the supporting surface of the housing in the form of a truncated cone allows you to set the material of the o-ring in compression, providing a tight crimp cable, tightness, reliable fixation of the cable, protect it from pulling and transmitting tensile and twisting forces through it to the contact terminals, which contributes to a significant increase in reliability and cable entry security.

The execution on the body from the opposite side of the fitting of an annular stop lying in a plane perpendicular to the axis of the housing, the execution of a mounting shank with a thread and a fixing nut mounted on it also increase reliability and safety, by ensuring that the annular stop is pressed tightly against the mounting surface.

The installation between the ring stop and the fixing nut of the seal made in the form of rings installed on both sides of the mounting hole and the antifriction washer, the execution of the fixing shank with a groove adjacent to the ring stop allows for additional tightness of the joint of the ring stop with the mounting surface.

The execution on the housing from the side opposite the fitting of an annular stop lying in a plane perpendicular to the axis of the housing, as well as the execution of a mounting shank with a thread and a mounting nut mounted on it, provide, in addition to increasing reliability and safety, the possibility of autonomous installation of the cable entry in the desired installation position.

The utility model is illustrated by drawings, where:

in FIG. 1 shows a sectional explosion-proof cable entry;

in FIG. 2 shows the design of an explosion-proof cable entry with seals on the mounting shank.

Explosion-proof cable entry (Fig. 1) consists of a housing 1 with a cylindrical through hole provided with a thread, a fitting 4 installed in the opening of the housing 1, a pressure ring 3 and a sealing ring 2 located between the end part of the union 4, the pressure ring 3 and the supporting surface case 6, made in the form of a truncated cone. The base of the sealing ring 2 adjacent to the supporting surface of the housing 1 may be in the form of a truncated cone.

The base of the sealing ring 2 adjacent to the supporting surface of the housing 1 may be located perpendicular to the axis of the cable entry.

The base of the sealing ring 2 adjacent to the supporting surface 6 of the housing 1 may be made rough or toothed.

The housing 1 from the side opposite to the fitting 4 is provided with an annular stop 8 lying in a plane perpendicular to the axis of the housing 1, a fixing shank 7 with a thread and a fixing nut 5 mounted on it.

The thread of the mounting shank 7 can be made both cylindrical and conical in shape. The conical shape of the thread provides more reliable sealing of the butt joint of the annular stop 8 and the mounting wall 12, on which the explosion-proof cable entry is installed.

In the case of installing an explosion-proof cable entry in a thin-walled structure, additional sealing of the joint of the ring stop 8 with the surface of the mounting wall 12, on which the explosion-proof cable entry is mounted, due to (Fig. 2) installation between the ring stop 8 and the fixing nut 5 of the seal 10, can be provided. made mainly in the form of rings mounted on both sides of the mounting hole in the mounting wall 12, and an anti-friction washer 11. To ensure sealing by more dense filling plotnitelem gap 10 formed by the fastening shank 7 and the inner surface of the insertion hole mounting wall 12, in which the cable entry is set, a fixing shank 7 may be provided with an annular groove 9 adjacent to the annular abutment 8.

In the case of installing the inventive cable entry with a cylindrical thread on the mounting shank 7 and the accuracy of the thread of the hole of the mounting wall 12 meets the requirements of the standards for threaded joints of explosion-proof equipment, silicone-based thread sealant can be used for additional sealing and fixing the threaded connection. Anaerobic sealant can be used for rigid fixation and non-separable connection.

Explosion proof cable entry works as follows.

Previously, the fastening nut 5 is screwed from the mounting shank 7 and the housing 1 is installed in the installation position. For this, the mounting shank 7 is inserted into the mounting hole of the mounting wall (not shown in Fig. 1), and the fastening nut 5 is screwed onto it on the other side of the mounting wall. When tightening the fastening nut 5, the cable entry is sealed and explosion-proof with the internal space of the device. Next, the end of the cable (not shown) is threaded through the hole of the fitting 4, the pressure ring 3, the sealing ring 2 and inserted through the hole in the housing 1 into the internal cavity of the device, after which the fitting 4 is screwed into the threaded hole of the housing 1. When tightening the fitting 4, the sealing ring 2, made of elastic material, is compressed by the cone-shaped supporting surface 6 of the housing in the radial and axial directions, tightly fills the gap between the housing 1 and the cable surface, tightly compresses The outer surface of the cable, which provides sealing and explosion-proof cable entry.

In a variant of additional sealing of the joint of the annular stop 8 with the surface of the mounting wall 12 (Fig. 2) when installing the cable entry, the fixing shank 7 with the seal 10 is inserted into the installation hole of the mounting wall 12, the second seal 10 is put on it on the other side of the wall 12, the antifriction washer 11 and the fastening nut 5 is screwed. When tightening the fastening nut 5, the seals 10 made of plastic elastic material are deformed, fill the gap formed by the annular groove 9 of the fastening shank 7 and the inner surface of the insertion hole mounting wall 12, which is installed in the cable entry, which ensures sealing and explosion compound of the cable entry to the internal space of the device. The process of sealing the junction of the cable and the inner surface of the fitting 4 is described above.

The implementation of the supporting surface 6 of the housing in the form of a truncated cone allows you to set the material of the sealing ring 2 in compression, ensure tight crimping of the cable, protect it from pulling and transmitting tensile and twisting forces through it to the contact terminals, and thereby significantly increase the reliability and safety of the cable entry.

The execution of the shank 7 with a thread, an annular stop 8 and a fixing nut 5, provides the ability to install the cable entry in the desired installation position.

The proposed utility model contributes to the creation of explosion-proof cable entry with high reliability and provides the possibility of autonomous installation of the cable entry in the desired installation position.

Claims (8)

1. Explosion-proof cable entry comprising a housing with a cylindrical through hole provided with a thread and a support surface, a nozzle installed in the hole, a pressure ring and a sealing ring located between the end part of the fitting, the pressure ring and the support surface of the housing, characterized in that the support surface of the housing made in the form of a truncated cone, the housing on the side opposite to the fitting is equipped with an annular stop lying in a plane perpendicular to the axis of the housing, with a fastening shank with a threaded mounted thereon and the fixing nut. 2. Explosion-proof cable entry according to claim 1, characterized in that the thread of the mounting shank is tapered or cylindrical. 3. Explosion-proof cable entry according to claim 1, characterized in that a sealant and an antifriction washer are placed between the ring stop and the fixing nut. 4. Explosion-proof cable entry according to claim 1, characterized in that the seal is made in the form of rings. 5. Explosion-proof cable entry according to claim 1, characterized in that the mounting shank is provided with an annular groove adjacent to the annular stop. 6. Explosion-proof cable entry according to claim 1, characterized in that the base of the sealing ring adjacent to the supporting surface of the housing has the shape of a truncated cone. 7. Explosion-proof cable entry according to claim 1, characterized in that the base of the sealing ring adjacent to the supporting surface of the housing is perpendicular to the axis of the cable entry. 8. Explosion-proof cable entry according to claim 1, characterized in that the base of the sealing ring adjacent to the supporting surface of the housing is made rough or toothed.

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