KR20210147293A - Explosion-proof cable bushing device - Google Patents

Abstract

The present invention relates to an explosion-proof cable bushing device, which can maintain explosion-proof performance of cables for power supply, communication, and signal processing through a standardized penetration fuselage of a size that exactly matches a perforated opening on one side of a transmitter requiring an internal pressure explosion and hard silicon or epoxy filled inside through the penetration fuselage and can greatly decrease time and costs for assembling and installation through a simple structure.

Description

Explosion-proof cable bushing device {EXPLOSION-PROOF CABLE BUSHING DEVICE}

The present invention relates to an explosion-proof cable bushing device, and more specifically, to a standardized through-body of a size exactly identical to an opening drilled on one side of a transmitter requiring pressure-explosion-proof, and hard silicone or It relates to an explosion-proof cable bushing device that can maintain explosion-proof performance of power, communication, and signal processing cables through epoxy, and can significantly reduce assembly, installation time and cost through a simple structure.

In general, when supplying power to an electric circuit or an electric signal in an electric device that requires explosion-proof explosion proof, it is better to drill an arbitrary through hole in the transmitter and use it.

However, although the hole size varies every time, the manufacturing quality is inconsistent and manufacturing takes a lot of time and money.

However, since these arbitrary through-holes act unfavorably to pressure-resistant explosion-proof, a structure capable of sufficiently supporting pressure-resistant explosion-proof according to the formation of precise and uniform through-holes and through-hole formation is required for a portion requiring pressure-resistant explosion-proof.

Korean Patent Publication No. 10-2004-0079986

The present invention is to solve the above problems, a through body of a standardized size exactly matching the opening drilled on one side of the transmitter that requires explosion proof pressure, and a power supply through a hard silicone or epoxy filled inside the through body, An object of the present invention is to provide an explosion-proof cable bushing device that can maintain the explosion-proof performance of communication and signal processing cables and can significantly reduce assembly, installation time and cost through a simple structure.

Explosion-proof cable bushing device according to an embodiment of the present invention is fitted into an opening perforated on one side of the transmitter, a through body having an inner side, and a second body that is fitted to the inner end of the through body, and forms a space apart from each other 1 and second support plates, a pair of supports for connecting and supporting the first and second support plates, and filling means filled between the first and second support plates, respectively, to the first and second support plates The cable is inserted through the perforated through hole, and the through body may be characterized in that it supports the explosion-proof pressure applied to the opening.

In one embodiment, the through body may be characterized in that a stainless steel (SUS) material is applied.

In one embodiment, the first and second support plates are fitted in the cross-sectional direction at both end portions of the inner side of the through body, and may be characterized in that a plastic or epoxy material is applied.

In one embodiment, the pair of supports may be characterized in that both end portions are fitted into the holes for fitting formed in the first and second support plates, respectively, and a plastic or epoxy material is applied.

According to one aspect of the present invention, through a through body of a size exactly matching the opening drilled on one side of the transmitter requiring explosion proof pressure, and hard silicone or epoxy filled in the through body, the power, communication, and signal processing cables It is possible to maintain explosion-proof performance, and also has the advantage of significantly reducing assembly, installation time and cost through a simple structure.

1 is a view showing the configuration of an explosion-proof cable bushing device 100 according to an embodiment of the present invention.
FIG. 2 is a view showing the overall assembly shape of the explosion-proof cable bushing device 100 shown in FIG. 1 .

Hereinafter, preferred examples are presented to help the understanding of the present invention. However, the following examples are only provided for easier understanding of the present invention, and the content of the present invention is not limited by the examples.

1 is a view showing the configuration of an explosion-proof cable bushing device 100 according to an embodiment of the present invention, FIG. 2 is a view showing the overall assembly shape of the explosion-proof cable bushing device 100 shown in FIG. It is a drawing.

1 and 2, the explosion-proof cable bushing device 100 according to an embodiment of the present invention is largely a through body 110, first and second support plates 120 and 130, a pair of supports 140 ) and a filling means (not shown).

First, the through body 110 is fitted in a shape that exactly matches the opening punched on one side of the electrical device or signal transmission device (eg, a transmitter, etc.), and first and second support plates ( 120, 130), the role of the space in which the pair of supports 140 and the filling means are accommodated, and the role of the passage of the cable passing through the inside, and serves to support the explosion proof pressure of the transmitter. Here, the cable may mean a power cable or a communication cable.

More specifically, the through body 110 has a circular pipe shape that exactly matches the opening, and as the material is stainless steel (SUS), it has strong explosion-proof performance.

One end of the through body 110 is prevented from entering the inside of the through body 110 itself as the locking protrusion is formed in the outward direction.

In addition, as a thread is formed along the outer circumferential surface of the other end of the through body 110, if a thread is formed in the opening of the transmitter, the thread formed at the other end of the through body 110 engages with the thread formed in the opening and is screwed can be

The through body 110 has a hollow pipe shape, and the first and second support plates 120 and 130, a pair of supporters 140 and filling means can be accommodated inside.

The first and second support plates 120 and 130 may be respectively fitted to both end portions inside the through body 110 in the cross-sectional direction. At this time, the first and second support plates 120 and 130 are spaced apart from each other through a pair of supporters 140 to form a space for filling the filling means therein.

The first and second support plates 120 and 130 are made of a plastic or epoxy-based material, and as the filling means filled inside is filled in the space between the first and second support plates 120 and 130, the penetrating body 110 It is possible to more stably fix and support the cable passing through the .

In particular, the first and second support plates 120 and 130 also serve to prevent the filling means filled therein from leaking out of the through body 110 .

Each of the pair of supporters 140 has both end portions fitted to the first and second support plates 120 and 130 , and serves to space the first and second support plates 120 and 130 apart from each other. The pair of supports 140 may be made of a plastic or epoxy-based material.

The filling means serves to more stably fix and support the cable passing through the through body 110 by filling the space formed between the first and second support plates 120 and 130 . The material of the filling means may be a silicone or epoxy resin material.

Through the above configuration, the present invention can provide a standardized bushing device according to the opening of the transmitter, so that the manufacturing quality can be consistent and the assembly and installation time and cost can be significantly reduced. In addition, the structure of the penetrating body exactly matching the opening has the advantage of stably protecting the cable and maintaining the explosion-proof performance in an electric device that requires strong explosion-proof protection.

Although the above has been described with reference to the preferred embodiment of the present invention, those skilled in the art will be able to variously modify and change the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. You will understand that you can.

100: explosion-proof cable bushing device
110: penetrating body
120: first support plate
130: second support plate
140: support

Claims (5)

a through body fitted into an opening perforated on one side of the electric device and having an inner side;
first and second support plates fitted to the inner end of the through body and forming a space apart from each other;
a pair of supports for connecting and supporting the first and second support plates; and
a filling means filled between the first and second support plates; and
A cable is inserted through each of the through holes punched in the first and second support plates, and the through body supports the explosion-proof explosion-proof applied to the opening, the explosion-proof cable bushing device.
According to claim 1,
The penetrating body,
An explosion-proof cable bushing device, characterized in that stainless steel (SUS) material is applied.
According to claim 1,
The first and second support plates are
Explosion-proof cable bushing device, characterized in that it is fitted in the cross-sectional direction at both ends of the inner side of the through body, and a plastic or epoxy material is applied.
According to claim 1,
The pair of supports,
Explosion-proof cable bushing device, characterized in that both end portions are fitted into the fitting holes formed in the first and second support plates, respectively, and a plastic or epoxy material is applied.
According to claim 1,
The electric device is
Explosion-proof cable bushing device, characterized in that it is a transmitter.

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