KR20180000020U - Drain plug - Google Patents

Abstract

The disclosed subject matter relates to a drain plug.
According to one embodiment, an expandable refractory coating is coated to initiate a drain plug in which, when a fire occurs, the flow path is closed by the expanded refractory coating.
More specifically, the drain plug is a drain plug installed in an explosion-proof material. The drain plug includes: a body portion having a first flow path vertically formed therein and having an outer surface coated with an expandable refractory material; And a fastening part provided on the body part so that the body part can be coupled to the explosion-proof material and having a second flow path communicating with the first flow path, wherein when the fire is generated, And the first flow path is closed.

Description

Drain plug {DRAIN PLUG}

The present disclosure relates to a drain plug, and more particularly to a drain plug provided in an explosion-proof material for discharging internal condensation of an explosion-proof material (explosion-proof casing, explosion-proof conduit, etc.).

Generally, the drain plug is installed under the explosion-proof material such as EXPLOSION PROOF ENCLOSURE and EXPLOSION PROOF CONDUIT BODY, and functions to discharge the condensation generated inside the explosion-proof material to the outside.

An example of this is disclosed in the following publication of Japanese Laid-Open Utility Model Publication No. 20-2012-0003316 entitled " Prior Art ", hereinafter referred to as " drain plug having drain condensation and ventilating function for explosion-proof equipment.

The prior art has a cylindrical shape, a threaded portion is formed on the upper portion to be coupled with the explosion-proof material, and an 'L' -shaped flow path is formed therein to discharge condensation.

The reason why the flow path is formed in an L shape instead of a vertical direction is to prevent the flame from spreading to the inside of the explosion-proof material through the flow path when a fire occurs from the outside.

However, in the prior art, there is a problem that the point where the L-shaped channel breaks is frequently clogged due to condensation containing impurities. (Condensation usually generated in the explosion-proof material often contains a certain amount of impurities and is therefore often solidified)

Further, since the flow path is always open in the prior art, there is a problem that the flame can not be completely blocked when a fire occurs.

It is an object of the disclosed subject matter to provide a drain plug which is free from clogging of the flow path due to condensation and can effectively prevent the flame from spreading inside the explosion-proof material when a fire occurs.

According to one embodiment, a drain plug is proposed in which an expandable refractory coating is coated such that, in the event of a fire, the flow path is closed by the expanded refractory coating.

More specifically, the drain plug is a drain plug installed in an explosion-proof material. The drain plug includes: a body portion having a first flow path vertically formed therein and having an outer surface coated with an expandable refractory material; And a fastening part provided on the body part so that the body part can be coupled to the explosion-proof material and having a second flow path communicating with the first flow path, wherein when the fire is generated, And the first flow path is closed.

Further, the expandable refractory coating material may be 'CHARTEK 7'.

The diameter of the second flow path may be larger than the diameter of the first flow path, and the upper portion of the first flow path may be formed in a funnel shape so that the first and second flow paths are naturally connected.

Also, the fastening part may be detachably coupled to the body part so that the body part can be easily coated during the manufacturing process.

In the drain plug shown in the previous section, the first and second flow paths are formed vertically so that the flow path is not clogged due to condensation.

In addition, when a fire occurs, the expandable refractory material is expanded by the heat, and the first flow path is closed, thereby preventing the flame from spreading into the explosion-proof material.

1 (a) is a plan view of a drain plug 100 according to one embodiment,
1 (b) is a perspective view of a drain plug 100 according to an embodiment,
FIG. 2 is a cross-sectional view taken along line AA 'of FIG. 1 (a)
3 is a use state diagram of the drain plug 100 according to an embodiment,
4 is a view showing that the body portion 110 and the fastening portion 120 of the drain plug 100 can be separated.

Hereinafter, one embodiment will be described in detail with reference to the accompanying drawings.

Examples of explosion-proof materials used in the present specification include wiring or electrical devices, which are provided in the form of a housing or a housing such as an explosion-proof enclosure and an explosion-proof enclosure body, to be protected from flame or sparks therein Is used as a generic term for explosion-proof equipment.

1 (a) is a plan view of a drain plug 100 according to an embodiment, FIG. 1 (b) is a perspective view of a drain plug 100 according to an embodiment, and FIG. 2 is a cross- Section.

Referring to FIG. 1, the drain plug 100 includes a body 110 and a fastening part 120.

The body 110 has a first flow path 112 vertically formed therein, and an outer surface thereof is coated with an expandable refractory coating 130 that expands when a fire occurs. The outer surface of the body 110 includes the inner circumferential surface of the first flow path 112 and the first flow path 112 is formed to have an appropriate diameter that can be closed by the inflating refractory 130 .

When the body 110 is made of a refractory material, the inflating refractory 130 may be applied only to the inner circumferential surface of the first flow path 110. However, when the entire body 110 is coated, the heat is quickly transferred to the inner circumferential surface of the first flow path 110 during the fire.

A representative example of the expandable refractory coating 130 is 'CHARTEK 7'. CHARTEK 7 is a high performance epoxy expandable fire resistant (fireproof) paint developed by lNTERNATIONAL, UK and certified by the classification agencies (LR, DNV, ABS and BV).

3, the fastening part 120 is provided on the upper part of the body part 110 so that the body part 110 can be coupled to the explosion-proof material EP, A second flow path 122 communicating with the second flow path 112 is formed.

When the diameter of the second flow path 122 is formed to be larger than the diameter of the first flow path 112 and the upper portion of the first flow path is formed into a funnel shape, condensation is naturally discharged to the outside.

After the fastening part 120 is coupled to the explosion-proof material EP, the outer circumferential surface of the fastening part 120 is preferably closed with a sealant S for firm coupling.

Referring to FIG. 4, the fastening part 120 may be detachably coupled to the body 110. In this case, the body part 110 and the fastening part 120 are made of different materials, and manufacturing cost can be reduced, and the body part 110 can be easily coated in the manufacturing process.

In the drain plug 100 constructed as described above, the first and second flow paths 110 and 120 are vertically formed, and the flow path is not clogged due to condensation. In addition, when the fire occurs, the expandable refractory 130 is expanded by the heat and the first flow path 110 is closed, thereby preventing the flame from spreading into the explosion-proof material EP.

In the foregoing, one embodiment has been specifically described with reference to the accompanying drawings.

However, the illustrated embodiment is merely an example, and various modifications may be made by those skilled in the art without departing from the technical idea of the invention described in the claims.

Therefore, the scope of the right of disclosure is not limited to the specific embodiment but should be broadly considered based on the contained technical idea.

100: drain plug
110:
112: First Euro
120: fastening portion
122:
130: Expansive refractory coating
S: Sealant
EP: Explosion proof material

Claims (5)

In a drain plug installed in an explosion-proof material,
A body portion having a first flow path formed perpendicularly to the inside thereof and having an outer surface coated with an inflating refractory paint; And
And a fastening part provided on the body part so that the body part can be coupled to the explosion-proof material, and a second flow path communicating with the first flow path is formed in the body part,
Wherein when the fire occurs, the refractory paint expands and the first flow path is closed.
The method according to claim 1,
Wherein said refractory coating is " CHARTEK 7 ".
The method according to claim 1,
Wherein the diameter of the second flow path is larger than the diameter of the first flow path,
Wherein an upper portion of the first flow path is formed in a funnel shape so that the first and second flow paths are naturally connected to each other.
The method according to claim 1,
And the outer circumferential surface of the fastening portion is closed with a sealant after the fastening portion is coupled to the explosion-proof material.
The method according to claim 1,
Wherein the fastening part is detachably coupled to the body part so that the body part can be easily coated during the manufacturing process.

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