KR20160068450A - Cable gland used in flameproof electric wire piping - Google Patents

Abstract

The present invention relates to a flameproof cable gland filled with an epoxy compound and a method of filling the flameproof cable gland with the epoxy compound. More specifically, a linker (20) inserted into a back part of a body (10) and a compound housing (40) inside a fitting bushing (30) coupled to a back part of the linker are filled with a proper amount of epoxy compound to improve flameproof performance. Since the epoxy compound is squeezed out after filling the linker (20) and the compound housing (40), the remaining epoxy compound may be easily removed, contamination of a joint surface which is a crucial element for the flameproof performance may be avoided, and the linker and the fitting bushing are fixed by adhesive power of the epoxy compound. Accordingly, user reliability may be improved.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an explosion-proof cable gland and an explosion-proof cable gland,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an explosion-proof cable gland filled with an epoxy compound therein and a method of filling an epoxy compound of the explosion-proof cable gland. More specifically, the present invention relates to a linker inserted in the rear of a body, The epoxy compound is filled in the compound housing inside the bushing in an appropriate amount to improve the explosion-proof performance. Since the epoxy compound is filled in the linker and the compound housing and then pushed into the gap, the residual epoxy compound can be easily removed, To an explosion-proof cable gland in which the linker and the fitting bushing are fixed until the epoxy compound is hardened by the adhesion of the epoxy compound as well as the contamination of the joint surface, which is an important element, and an epoxy compound filling method of the explosion-proof cable gland.

Generally, facilities such as a factory constructed in an area for handling hazardous materials or a factory plant constructed in a general industrial area are provided with piping facilities for various conduits, and various piping components are used for the work of such piping facilities.

Especially, piping facilities such as buildings constructed in areas handling hazardous materials such as petroleum or chemical substances that are dangerous to explosion, such as gas, are strictly observed and implemented in order to prevent explosion by various firearms In addition, to prevent various safety accidents, explosion-proof cable glands are used for pipe connection of conduit pipes and the like.

The present applicant has filed a number of patent applications relating to explosion-proof cable glands and the like in Patent Registration No. 10-861686.

Such an explosion-proof cable gland mainly comprises a compound housing and a bushing which are coupled to a body into which a cable is inserted, and after the compound housing is coupled, the compound is filled into an inner space through a hole of the compound housing, It is to bind in a filled state.

However, in the above case, when filling through the hole of the compound housing or filling the compound housing in a state of being filled in the compound housing, the compound vacancy area is generated and the explosion efficiency is lowered.

Particularly, when the compound housing is coupled to the compound housing, the compound can not be sufficiently filled into the inside of the body to which the compound housing is coupled, and the compound is pushed during the movement of the compound housing along the cable, There is a problem that the explosion efficiency is lowered because the vacant area is generated and the compound is not filled to cover the entire cable.

Further, since the residual epoxy compound pushed out to the outside when the body and the compound housing are coupled with each other causes the joint surface to be contaminated, the explosion-proof performance is deteriorated and the epoxy compound can not be removed, and the epoxy compound must be decomposed by the adhesive force of the epoxy compound The parts are adhered to each other, and disassembly becomes impossible.

Patent Document 1: Patent Registration No. 10-861686

Disclosure of Invention Technical Problem [8] The present invention has been made to solve the above problems of the prior art, and it is an object of the present invention to provide a compound housing in a fitting bushing, which is inserted into a rear portion of a body, The purpose is to make it.

In the present invention, since the epoxy compound is filled in a manner that the epoxy compound is cylindrically adhered to the inside of the linker and inserted into the compound housing, the amount of the epoxy compound is small, The object of the present invention is to prevent contamination in the pipe.

The epoxy compound is filled in the linker and the compound housing and then pushed into the gap between the linker and the compound housing to easily remove the residual epoxy compound and to prevent contamination of the joint surface which is an important factor of the explosion proof performance, The linker and the fitting bushing are fixed until the epoxy compound is hardened by the glaze, so that the use reliability is excellent.

According to the present invention, a front step portion is inserted into a step groove at the rear of a body through which a wire passes through an inner insertion hole, thereby coupling a linker filled with an epoxy compound into the inside, and a fitting bushing and a fitting bushing A front end of a compound housing inserted into an inner stepped groove and filled with an epoxy compound therein is inserted and press-fitted into a cap nut screwed to the body,

Wherein the linker is configured to insert an O-ring into an O-ring groove formed in an outer circumferential edge of a front stepped portion so that the O-ring is engaged with an inner wall surface of a stepped groove in the rear of the body, .

The fitting bushing and the compound housing have a protruding portion that protrudes a length of the tip end of the compound housing inside the outer side of the fitting bushing so that the tip end of the compound housing protrudes further forward from the stepped portion at the rear of the linking member toward the fitting bushing The epoxy compound that the protrusion of the compound housing is pushed outward like a blade during the bonding process is prevented, and the epoxy compound sandwiched in the gap separates the linker and the fitting bushing until the cap nut is engaged before the bonding. Thereby protecting the epoxy compound filling structure.

The present invention is characterized in that a forward step is inserted into a step groove at the rear of a body through which a wire passes through an inner insertion hole to join the linker and then the fitting bushing is inserted into the inner step groove of the fitting bushing The front side of the housing is inserted and pressed and fixed by a cap nut screwed to the body,

In the inside of the linker, the epoxy compound is cylindrically adhered to the outer side of the electric wire located inside the compound housing, and then the compound housing is inserted to prevent the contamination in the piping due to the vacancy And a method of filling an epoxy compound of an explosion-proof cable gland.

The present invention has the effect of significantly improving the explosion-proof performance by filling an appropriate amount of the epoxy compound into the linker inserted into the rear of the body and the compound housing inside the fitting bushing which is coupled to the rear of the linker.

Particularly, since the epoxy compound is filled in a manner that the epoxy compound is adhered to the outer side of the linker in a cylindrical shape and then the compound housing is inserted, the amount of the epoxy compound is small, Thereby preventing the contamination from occurring.

Further, after the epoxy compound is filled in the linker and the compound housing, the epoxy compound is pushed out into the gap between the linker and the compound housing to easily remove the residual epoxy compound. In addition to preventing the contamination of the joint surface, The linker and the fitting bushing are fixed until the epoxy compound is cured by the glaze, so that the use reliability is excellent.

BRIEF DESCRIPTION OF THE DRAWINGS Fig.
Fig. 2 is a cross-sectional view of the main part of the present invention. Fig.
3 is an enlarged cross-sectional view of the portion "A"
4 is an exploded sectional view of Fig.
5 is a cross-sectional view showing a coupling process of FIG. 2;
6 is a cross-sectional view showing another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 5, the explosion-proof cable gland of the present invention has a stepped portion 21 at the front in a stepped groove 12 at the rear of the body 10 through which the electric wire 60 passes, through the internal insertion hole 11, And the linkage 20 to which the epoxy compound 5 is filled is coupled to the stepped portion 22 at the rear of the linker 20 so that the fitting bushing 30 and the inner stepped groove 31 of the fitting bushing 31 And inserted into the front of the compound housing 40 into which the epoxy compound 5 is filled, and is press-fixed to the cap nut 50 screwed to the body 10,

The linker 20 inserts the O-ring 23 into the O-ring groove 21a formed at the outer circumferential edge of the front step portion 21 so that the O-ring is elastically contacted with the inner wall surface of the step groove 12 at the rear of the body So as to be separated from each other.

Particularly, the fitting bushing 30 and the compound housing 40 have protrusions 42 which are longer than the tip ends of the fitting bushings 30 on the inner side of the outer side of the compound housing 40, The protruding portion 42 of the compound housing in the coupling process forms a clearance T as much as the protruded length of the tip of the compound housing 40 toward the front of the fitting bushing 30 in the portion 22, The epoxy compound attached to the separation gap T is adhered to the linker 20 and the fitting bushing 30 until the cap nut 50 is coupled with the epoxy compound filling structure to prevent the epoxy compound filling structure .

6, the threadedly engaging portion 35 is formed on the inner peripheral edge of the rear portion of the fitting bushing 30 as compared with the above-described embodiment, Or other coupling bushings are screwed to each other, and the degree of simple structural change is attributed to the scope of the present invention.

Hereinafter, the operation and operation of the explosion-proof cable gland of the present invention constructed as above and the epoxy compound filling method of the explosion-proof cable gland will be described.

First, the step portion 21 in front of the linker 20 is inserted and coupled to the step groove 12 in the rear of the body 10 inserted in the electric wire 60.

The O-ring 23 inserted into the O-ring groove 21a formed at the outer periphery of the front step portion 21 of the linker 20 is tightly engaged with the inner wall surface of the step groove 12 at the rear of the body, The linker 20 is engaged with the stepped groove 12 in the rear of the body so as to be prevented from slipping off.

After the linker 20 is coupled to the step groove 12 at the back of the body as described above, the epoxy compound 5 is adhesively molded in the cylindrical shape to the outside of the electric wire 60 located inside the compound housing in the linker 20 5).

After the epoxy compound 5 is adhered and molded, the fitting bushing 30 and the inner stepped groove 31 of the fitting bushing are inserted into the stepped portion 22 at the rear of the linker 20 to form the compound housing 40, And is fixed to the body 10 by a cap nut 50 threadedly engaged with the body 10.

The interior of the linker 20 and the interior of the compound housing 40 are filled with the epoxy compound 5 by this process.

Particularly, since the epoxy compound 5 is cylindrically adhered to the outer side of the electric wire 60 located inside the compound housing in the linker 20 as described above, and the compound housing 40 is connected, a proper amount of the epoxy compound is filled The amount of the epoxy compound is small and the amount of vacancy generated is large, so that contamination in the piping is prevented, and the epoxy compound (5) effectively covers the outside of the wire (60) .

The fitting bushing 30 and the inner stepped groove 31 of the fitting bushing are inserted into the stepped portion 22 at the rear of the linker 20 and the front of the compound housing 40 is inserted into the compound housing 40 The protruding portion 42 protruding from the tip end of the epoxy compound 5 protruding between the linker 20 and the compound housing 40 is removed as well as the blade and the contamination of the joint surface, The explosion-proof performance is improved.

Since the stepped portion 22 at the rear of the linker forms a clearance T between the fitting bushing 30 and the length of the protruding length of the tip of the compound housing 40 in front of the fitting bushing 30 The epoxy compound filling structure is protected by bonding the linker 20 and the fitting bushing 30 until the remaining epoxy compound pushed outward is caught in the clearance T and before the cap nut 50 is coupled.

10: Body 11: Inner inserting hole
12: screw engaging portion 13: stepped groove
20: Linker 21, 22, 31:
23: O-ring 30: Fitting bushing
40: compound housing 42:
50: Cap nut 60: Wires

Claims (3)

In an explosion-proof cable gland filled with an epoxy compound,
The step portion 21 at the front is inserted into the step groove 12 at the rear of the body 10 through which the electric wire 60 passes through the internal insertion hole 11 and the linker 20 And the compound housing 5 is inserted into the stepped portion 22 of the linker 20 at the step 22 and inserted into the inner stepped groove 31 of the fitting bushing 30 and filled with the epoxy compound 5, And a cap nut (50) screwed to the body (10) by inserting the front of the body (40)
The linker 20 inserts the O-ring 23 into the O-ring groove 21a formed at the outer circumferential edge of the front step portion 21 so that the O-ring is elastically contacted with the inner wall surface of the step groove 12 at the rear of the body So as to be separated from each other.
The method according to claim 1,
The fitting bushing 30 and the compound housing 40 are formed with protrusions 42 which are longer than the tip ends of the outer fitting bushings 30 at the inner side of the compound housing 40, The protruding portion 42 of the compound housing is pushed outward like a blade in the fitting process by forming a clearance T as long as the tip end of the compound housing 40 protrudes further forward of the fitting bushing 30 The epoxy compound is removed and the epoxy compound sandwiched in the clearance T is bonded to the linker 20 and the fitting bushing 30 until the cap nut 50 is coupled to protect the epoxy compound filling structure Explosion-proof cable gland that features.
A front step portion is inserted into the step groove at the rear of the body through which the electric wire is passed through the inner insertion hole to join the linker and then inserted into the inner step groove of the fitting bushing and the fitting bushing in the stepped portion at the rear of the linker, And then press-fitted with a cap nut screwed to the body,
In the inside of the linker, the epoxy compound is cylindrically adhered to the outer side of the electric wire located inside the compound housing, and then the compound housing is inserted to prevent the contamination in the piping due to the vacancy Of the cable gland. ≪ RTI ID = 0.0 > 8. < / RTI >

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