KR102303853B1 - Valve Room with Porous Heat Transfer Unit - Google Patents

Abstract

The present invention relates to a valve chamber having a porous heat transfer unit.
The present invention is buried at a predetermined depth from the ground surface, the valve chamber consisting of a valve chamber body in which the upper frame is formed; a manhole frame and a manhole cover provided on an upper portion of the valve chamber body; and a porous heat transfer part provided on the inner upper surface of the valve chamber body,
The porous heat transfer unit may be provided with a valve chamber, characterized in that it is removed by absorbing the dew condensation generated inside the valve chamber body.

Description

Valve Room with Porous Heat Transfer Unit

The present invention relates to a valve chamber having a porous heat transfer unit for removing dew condensation formed inside the valve chamber.

In order to protect facilities such as water valves connected in the middle of the underground water and sewage pipes, etc., it is common to bury the valve chamber at the location where facilities such as water drain valves are installed for safe and convenient maintenance of these facilities. .

A manhole is installed on the upper side of the valve chamber to allow workers to enter and exit from the ground, and this manhole is usually composed of a manhole cover for opening and closing the manhole, and a manhole frame provided on the upper side of the valve chamber so that the manhole cover can be seated. .

The manhole cover provided on the upper side of the valve chamber becomes high temperature by sunlight, especially in summer, and this high temperature may be transferred to the inside of the valve chamber to be heated.

The hot air inside the valve chamber is concentrated toward the upper frame and becomes hotter, and the outer surface of the upper frame is buried underground to a predetermined depth.

When such dew condensation falls, various electronic circuit components installed inside the valve chamber may be damaged.

Republic of Korea Patent No. 10-1766413 (Registration Date: August 02, 2017)

An object of the present invention is to provide a valve chamber having a porous connection transfer unit capable of removing dew condensation occurring inside the valve chamber.

The present invention is buried at a predetermined depth from the ground surface, the valve chamber consisting of a valve chamber body in which the upper frame is formed; a manhole frame and a manhole cover provided on an upper portion of the valve chamber body; and a porous heat transfer part provided on the inner upper surface of the valve chamber body,

The porous heat transfer unit may be provided with a valve chamber, characterized in that it is removed by absorbing the dew condensation generated inside the valve chamber body.

The valve chamber buried underground has a structure in which only the manhole cover is exposed to the ground surface. Especially in summer, the ground surface and the manhole cover are heated by the hot sunlight to heat up, and this heat is transferred to the inside of the valve chamber and the inside of the valve chamber is heated. can

At this time, since the outside of the valve chamber is buried underground, it may be in a relatively low temperature state, and accordingly, condensation may occur inside the valve chamber due to the temperature difference between the inside and the outside of the valve chamber. In this case, it may damage the electronic circuit components provided inside the valve chamber.

According to the present invention, by providing a porous heat transfer unit on the upper surface of the valve chamber to absorb the dew condensation, it is possible to prevent the dew condensation from falling from the upper surface inside the valve chamber.

In addition, in the present invention, when the porous heat transfer unit absorbs dew condensation, hot air inside the valve chamber can move in and out of the micropores of the porous heat transfer unit to dry the absorbed dew condensation.

The present invention provides a condensation receiving member at the lower portion of the porous heat transfer unit, so that when the absorption amount of the dew condensation of the porous heat transfer unit is large and flows down, it can be received and guided to the side of the valve chamber to be discharged.

The condensation receiving member may be formed in a trench structure including a first inclined surface and a second inclined surface, and a discharge path formed between the first inclined surface and the second inclined surface, and the dew condensation falling from the porous heat transfer unit is formed between the first inclined surface and the second inclined surface. If it falls on a slope, it may naturally collect into the discharge path.

Since the condensation receiving member has a structure inclined in one direction, the condensation collected in the discharge path may flow down in one direction and may be guided to the lower portion along the inner side of the valve chamber to be discharged.

Therefore, according to the present invention, it is possible to absorb and remove the condensation generated in the upper part of the valve chamber, and even if it flows, it can be blocked by the condensation receiving member, thereby preventing damage to the electronic circuit components due to the drop of the condensation.

1 is a schematic cross-sectional view showing an installation state of the present invention.
FIG. 2 is a schematic cross-sectional view showing a structure in which a dew condensation receiving member is provided in FIG. 1 .
3 is an enlarged view of part A of FIG. 2 .
FIG. 4 is a side cross-sectional view of FIG. 2 .

Hereinafter, specific contents for carrying out the present invention will be described in detail based on the accompanying exemplary drawings.

1 is a cross-sectional view showing an installation state of the present invention. Referring to FIG. 1 , the valve chamber 100 buried in the basement 1 is provided in the valve chamber body 110 , the pipe 120 provided inside the valve chamber body 110 , and the pipe 120 . It may be made of a water drain valve 130 or the like.

A manhole frame 140 and a manhole cover 150 may be provided on the upper portion of the valve chamber body 110 .

The valve chamber body 110 may include an upper frame 112 , a side frame 114 , and a lower frame 116 , and a porous heat transfer unit 160 may be provided on the inner surface of the upper frame 112 . have.

The pipe 120 may be, for example, a water supply pipe.

The porous heat transfer unit 160 may be, for example, a metal sponge having good thermal conductivity.

The manhole cover 150 is heated together with the ground surface due to hot sunlight, especially in summer, and this heat may be transferred to the inside of the valve chamber body 110 as it is.

The inside of the valve chamber body 110 may be heated by transferring the heat of the heated manhole cover 150 .

However, since the upper frame 112 and the side frame 114 of the valve chamber body 110 are buried at a predetermined depth D from the ground surface, the heat of the heated ground surface is blocked, so that the relatively low temperature state is can be

Accordingly, condensation may occur in the inside of the valve chamber body 110 due to a temperature difference between the outside and the ground.

Condensation occurring inside the valve chamber body 110 is not a problem because it flows down the side surface of the valve chamber body 110 and flows down, but the upper inner surface (upper frame) of the valve chamber body 110 . (112) Condensation falling from the inner surface) may fall and damage various electronic circuit components (not shown) provided below.

In the present invention, since the porous heat transfer unit 160 is provided on the upper inner surface of the valve chamber body 110 , the dew condensation occurring on the upper inner surface of the valve chamber body 110 is absorbed by the porous heat transfer portion 160 and moves downward. may not fall off.

In addition, when the porous heat transfer unit 160 absorbs dew condensation, the upper frame 112 and the porous heat transfer unit 160 can dry the dew condensation by the internal heat of the valve chamber body 110 .

In other words, the internal heat of the valve chamber body 110 dries the absorbed condensation while moving in and out through the micro-holes formed in the porous heat transfer unit 160, and in this process, the upper part inside the porous heat transfer unit 160 The inner surface of the frame 112 may also be heated and dried.

Meanwhile, referring to FIG. 2 , in the present invention, a plurality of condensation receiving members 170 may be provided under the porous heat transfer unit 160 at intervals therebetween.

The condensation receiving member 170 may be inclined in one side direction of the valve chamber body 110 , and the first inclined surface 171 , the second inclined surface 172 formed higher than the first inclined surface 171 , the first The discharge path 173 may be formed between the inclined surface 171 and the second inclined surface 172 .

The first inclined surface 171 and the second inclined surface 172 may be inclined toward the discharge path 173 so that dew condensation naturally gathers toward the discharge path 173 .

The discharge path 173 is formed along the longitudinal direction of the condensation receiving member 170, and may be formed in the form of a groove.

When the condensation receiving member 170 is inclined toward one side of the inner side of the valve chamber body 110 , it may be preferable to be disposed in a direction that is deviated from the installation direction of the pipe 120 .

Since the dew condensation receiving member 170 receives the dew condensation from falling directly on the pipe 120 and guides it to the side so that it flows down, the dew condensation falls from the pipe 120 by installing it opposite the installation direction of the pipe 120 . can be avoided as much as possible.

A plurality of the condensation receiving members 170 may be disposed at intervals therebetween, and a passage portion 174 through which air may flow may be formed between the condensation receiving members 170 .

When the passage portion 174 is formed with a gap between the plurality of condensation receiving members 170 , the high temperature air inside the valve chamber body 110 can be communicated through the passage portion 174 , and the high temperature that is communicated It is possible to smoothly dry the moisture absorbed by the porous heat transfer unit 160 by the air.

The condensation receiving member 170 may be formed of, for example, a synthetic resin material.

Even if there is a case where the amount of dew is absorbed after the dew is absorbed by the porous heat transfer unit 160 and some dew is leaked out, since the dew receiving member 170 is provided at the lower part, the dew that flows out is lowered. It can be discharged by being guided to the side through the condensation receiving member 170 without falling immediately.

The condensation receiving member 170 has a structure in which a first inclined surface 171 and a second inclined surface 172 having different heights are formed, and a discharge path 173 is formed therebetween, and an upper porous heat transfer unit ( When the dew condensation falls from the 160 , when it falls on the first inclined surface 171 and the second inclined surface 172 , it may naturally gather toward the discharge path 173 .

Of course, the falling dew condensation may fall directly to the discharge path 173 .

Condensation collected in the discharge path 173 may flow down in one direction as if flowing down a ditch.

Since the condensation receiving member 170 has a structure that is inclined in one direction of the valve chamber body 110, the condensation collected in the discharge path 173 flows in one direction and naturally goes down, then the valve chamber body 110. It meets the inner side of the side frame 114 of the, and can flow down to the bottom on the inner side.

1: underground
100: valve chamber 110: valve chamber body
112: upper frame 114: side frame
116: lower frame 120: piping
130: water valve 140: manhole frame
150: manhole cover 160: porous heat transfer unit
170: dew condensation receiving member 171: first inclined surface
172: second slope 173: discharge path
174: passage D: depth

Claims (5)

a valve chamber embedded at a predetermined depth from the ground surface and comprising a valve chamber body in which an upper frame is formed;
a manhole frame and a manhole cover provided on an upper portion of the valve chamber body;
a porous heat transfer unit provided on the inner surface of the upper frame of the valve chamber body;
a dew condensation receiving member provided under the porous heat transfer unit to receive and discharge dew condensation falling from the porous heat transfer unit;
including,
The porous heat transfer unit absorbs and removes dew condensation generated on the inner surface of the upper frame of the valve chamber.
According to claim 1,
The porous heat transfer part is a valve chamber, characterized in that the micro-pore is formed and made of a metal sponge having thermal conductivity.
According to claim 1,
The condensate receiving member is a valve chamber, characterized in that provided with a plurality of dew condensation receiving member is formed with a passage portion through which the air inside the valve chamber communicates at intervals.
According to claim 1,
The condensation receiving member includes a first inclined surface, a second inclined surface formed higher than the first inclined surface, and a discharge path formed between the first inclined surface and the second inclined surface.
According to claim 1,
The dew condensation receiving member is a valve chamber, characterized in that disposed inclined toward one side of the inner side of the valve chamber body.

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