KR102263762B1 - Insulation valve room with protecting structure of dew condensation - Google Patents

Abstract

The present invention provides an insulation valve chamber with a condensation prevention structure, which stably protects an expensive measuring instrument for measuring pressure or flow. According to the present invention, the insulation valve chamber (1000) with a condensation prevention structure (100) comprises a chamber (10), a manhole assembly (20), a collecting well (30), and a condensation prevention structure (100) installed on a wall (11) making up the chamber (10). The condensation prevention structure (100) includes: a perforated member (110) having perforated holes (111) formed to introduce internal humidity of the insulation valve chamber (1000), and nonwoven fabric (120) attached to the rear surface thereof; and a trough (130) having a ditch shape of which one side is opened to accommodate a humidity remover (s), forming an internal space (p) by hinge-coupling the lower free end (131A) of the opened portion to the perforated member (110), and having a discharge hole (132) to discharge a solution created as the internal humidity of the insulation valve chamber (1000) comes in contact with the humidity remover (s) in the internal space (p).

Description

Insulation valve room with protecting structure of dew condensation}

The present invention relates to a thermal insulation valve chamber in which a condensation prevention structure is installed, and more particularly, to a thermal insulation in which a condensation prevention structure is installed that can remove moisture generated inside the insulation valve chamber by installing it on the wall of the insulation valve chamber buried underground. It's about the valve chamber.

In general, a waterproofing sheet is installed on the outer surface of the wall to prevent water or moisture from penetrating into the wall of the valve chamber, which is buried underground, or a waterproofing agent such as watertight concrete is applied for waterproofing treatment. In this way, the waterproofing treatment of the wall of the building structure is to prevent damage to the interior material due to the penetration of water or moisture, to keep the inner wall surface aesthetically pleasing, as well as to secure the lifespan and safety of the valve chamber.

However, when the wall of the valve chamber is waterproofed using only a waterproofing sheet or a waterproofing agent as in the prior art, moisture is absorbed in the waterproofing sheet provided for waterproofing the wall, so it is always exposed to moisture, water, etc. Therefore, its lifespan may be shortened.

That is, if the waterproofing sheet or waterproofing agent is exposed to water or moisture for a long time, the waterproofing effect is remarkably reduced and water falls from the top to the bottom of the wall of the valve chamber or the water flows down from the side of the wall, so the flow rate and pressure of the pipeline There is a problem of damaging expensive instruments such as flowmeters and pressure gauges to measure the light.

Moreover, when water penetrates into the inside of the wall, it not only looks unsightly, but also cracks may occur on the wall due to the penetration of water, which may have a fatal impact on the safety of the valve chamber.

In Patent Document 0001, a valve is installed between an inlet pipe and an outlet pipe on one side of the inside, and both sides of the inlet pipe and the outlet pipe pass through a valve chamber body, an upward extension pipe installed upwardly on the upper part of the valve chamber body, and an upper side of the upward extension pipe in the lower part It describes a valve chamber having a downward extension pipe coupled with a fitting type and a manhole frame having a manhole cover engaging jaw formed on the upper side of the downward extension pipe, and capable of vertical adjustment between the upper part of the valve chamber body and the manhole frame, and more detailed an upper plate forming an upper surface of the height adjusting device and having the downward extension pipe on the lower surface; at least two or more upper and lower sliding tubes provided on one side of the lower surface of the rim of the upper plate and having threads formed on the inner surface of the lower end; a height adjustment shaft inserted into the vertical sliding tube and having a screw thread to move the vertical sliding tube up and down by rotation in the axial direction; a sprocket installed at the lower end of each of the height adjustment shafts and protruding outward; a chain connecting each of the sprockets and rotating in engagement with the protrusions; and a vertical adjustment handle coupled to the lower end of at least one of the height adjustment shafts to rotate the height adjustment shaft based on the longitudinal axis of the height adjustment shaft to move the chain to rotate the entire height adjustment shaft; Including, by rotating the upper and lower adjustment handle, the height adjustment shaft is rotated as a whole, the upper and lower sliding pipe moves up and down, and at the same time the upper plate and the manhole frame move up and down. There is a description regarding a valve chamber having a.

Korean Patent No. 10-1329095 (Title of the invention: valve chamber with height adjustment function and waterproof function)

The technical problem to be achieved by the technical idea of the present invention is to stably protect a valve for regulating the flow rate of the pipe together with the pipe in the insulating valve chamber in an insulating valve chamber buried underground, and an expensive instrument for measuring pressure or flow rate In order to do this, it is to provide a thermal insulation valve chamber having a function of removing moisture and preventing condensation by installing a condensation preventing structure on the wall of the thermal insulation valve chamber.

In order to achieve the above technical object, the thermal insulation valve chamber 1000 installed with the anti-condensation structure 100 according to the present invention includes a chamber 10; manhole assembly (20); and a water collecting well 30; and comprising a condensation preventing structure 100 installed on the wall 11 constituting the chamber 10, wherein the condensation preventing structure 100 includes an insulating valve chamber ( A perforated hole 111 is formed so that the internal moisture of 1000) is introduced, and a perforated member 110 to which the nonwoven fabric 120 is attached to the rear surface thereof; It is made in the form of a ditch with one side open to accommodate the moisture remover (s), and the lower free end 131A of the open part is hinged with the perforated member 110 to form an internal space (p), and the inner space (p) is formed. and a trough 130 having a discharge hole 132 so that the moisture inside the heat insulating valve chamber 1000 comes into contact with the dehumidifier s in the space p to discharge the generated solution.

In the insulated valve chamber 1000 provided with the anti-condensation structure 100 according to the present invention, the dehumidifier (s) is calcium chloride (CaCl ₂ ), silica gel, magnesium sulfate (MgSO ₄ ), calcium oxide (CaO) and sodium carbonate (Na ₂ CO ₃ ) It is characterized in that it comprises any one or two or more compounds selected from the group consisting of.

In the heat insulation valve chamber 1000 in which the anti-condensation structure 100 according to the present invention is installed, the perforated member 110 is disposed on the side of the perforated member 110 so as to be inclinedly opened into the inside of the heat insulation valve chamber 1000 . It is characterized in that it further includes; a stopper 115 which is formed to protrude to limit the rotation angle θ of the perforated member 110 with respect to the lower free end 131A of the trough 130 .

According to the present invention, by installing the anti-condensation structure 100 on the wall of the insulated valve chamber 1000, the generation of water that may be formed on the wall of the insulated valve chamber 1000 is prevented, and the water falls to the bottom or Since water does not flow down from the side of the wall, there is an effect that can stably protect a valve for controlling the flow rate of the pipe together with the pipe in the heat insulation valve chamber 1000 and an expensive instrument for measuring pressure or flow rate.

1 is a cross-sectional view for illustrating a structure of a thermal insulation valve chamber 1000 in which a condensation preventing structure 100 according to an embodiment of the present invention is installed.
FIG. 2 is an enlarged cross-sectional view to illustrate the structure of the anti-condensation structure 100 of FIG. 1 .
3 is an enlarged cross-sectional view to illustrate another structure of the anti-condensation structure 100 of FIG. 1 .

Hereinafter, the present invention will be described in detail. The embodiments and drawings introduced below are provided as examples in order to sufficiently convey the spirit of the present invention to those skilled in the art. In addition, unless there is another definition in the technical and scientific terms used in the present invention, it has the meaning commonly understood by those of ordinary skill in the art to which this invention belongs, and in the following description and accompanying drawings, the present invention Description of known functions and configurations that may unnecessarily obscure the gist of will be omitted.

1 is a cross-sectional view for illustrating a structure of a thermal insulation valve chamber 1000 in which a condensation preventing structure 100 according to an embodiment of the present invention is installed.

As shown in FIG. 1 , the insulation valve chamber 1000 in which the anti-condensation structure 100 according to an embodiment of the present invention is installed is buried in the ground, and a valve (not shown) for controlling the flow rate of the pipe, pressure or By having a meter (not shown) for measuring the flow rate, the anti-condensation structure 100 is inserted and installed in the wall 11 constituting the chamber 10 of the insulating valve chamber 1000 .

In detail, the thermal insulation valve chamber 1000 basically includes a valve (not shown) for controlling the flow rate of a pipe, and a chamber 10 buried in the ground to protect a pressure or flow rate measuring instrument; a manhole assembly 20 coupled to the upper portion of the chamber 10 so that a person can be withdrawn into the chamber 10; and a water collecting well 30 coupled to the lower portion of the chamber 10 so as to collect the solution discharged to the anti-condensation structure 100 .

FIG. 2 is an enlarged cross-sectional view illustrating the structure of the anti-condensation structure 100 of FIG. 1 .

As shown in FIG. 2 , in the thermal insulation valve chamber 1000 in which the anti-condensation structure 100 according to an embodiment of the present invention is installed, the anti-condensation structure 100 is basically a perforated member 110; non-woven fabric 120; and a trough 130;

The perforated member 110 is characterized in that the perforated hole 111 is formed so that the internal moisture of the above-described heat insulating valve chamber 1000 is introduced.

The nonwoven fabric 120 is attached to the rear surface of the perforated member 110 to guide moisture flowing in from the front of the perforated member 110 to the inner space p of the trough 130. .

In addition, the nonwoven fabric 120 also serves to prevent the powdered moisture remover (s) from leaking into the insulating valve chamber 1000 through the perforated hole 111 of the perforated member 110 .

The trough 130 is formed in the form of a ditch with one side open to accommodate the dehumidifier (s), that is, a “c” shape, and the lower free end 131A of the open portion is formed with the perforated member 110 and a hinge. Combined to form an internal space (p).

At this time, the upper free end 131B of the trough 130 is inserted and coupled to the binding groove 112 formed on the rear surface of the perforated member 110 .

In addition, the upper free end 131B and the lower free end 131A of the trough 130 are formed to protrude into the heat insulating valve chamber 1000 to facilitate coupling with the perforated member 110 .

According to an embodiment of the present invention, the solution generated by contacting the moisture remover (s) inside the heat insulating valve chamber 1000 in the internal space (p) is discharged through the discharge hole (132), and the discharged solution is discharged through the discharge hole (132). The solution is collected into the water collecting well 30 described above via the solution discharge pipe 133 .

On the other hand, the discharge hole 132 may be formed anywhere, such as the lower end of the trough 130, the side, if the discharge hole 132 is formed on the side of the trough 130, the outside of the wall 11 A solution discharge pipe 133 may be installed along the line to collect the discharged solution into the water collecting well 30 described above.

According to an embodiment of the present invention, the dehumidifier (s) is any one selected from the group consisting _{of calcium chloride (CaCl 2} ), silica gel, magnesium sulfate (MgSO ₄ ), calcium oxide (CaO) and sodium carbonate (Na ₂ CO _{3 )} It may include one or two or more compounds. In a preferred embodiment, the dehumidifying agent (s) may be calcium chloride.

3 is an enlarged cross-sectional view to illustrate another structure of the anti-condensation structure 100 of FIG. 1 .

As shown in FIG. 3 , in the heat insulation valve chamber 1000 in which the anti-condensation structure 100 according to the embodiment of the present invention is installed, the perforated member 110 is inclinedly opened into the insulation valve chamber 1000 . A stopper 115 that is formed to protrude from the side surface of the perforated member 110 to limit the rotation angle θ of the perforated member 110 with respect to the lower free end 131A of the trough 130; may include more.

For example, in a valve chamber installed underground, the upper point of the insulating valve chamber 1000 close to the ground has a temperature difference compared with the lower point of the insulating valve chamber 1000, so that a convection phenomenon due to the temperature difference may occur. can When the convection phenomenon occurs, the internal moisture (moisture) of the adiabatic valve chamber 1000 is naturally circulated. At this time, the perforated member 110 according to the present invention is formed to be inclinedly opened into the inside of the heat insulation valve chamber 1000 to improve contact with the moisture inside the heat insulation valve chamber 1000, so that the moisture removal efficiency can be further increased. can

As described above, the heat insulation valve chamber 1000 in which the condensation prevention structure 100 according to the present invention is installed, by installing the condensation prevention structure 100 on the wall 11 of the insulation valve chamber 1000, the insulation valve chamber 1000 Prevents the generation of moisture and water that may be formed on the upper part of the wall 11 of the It has the advantage of stably protecting a valve that controls the flow rate and an expensive instrument that measures pressure or flow.

The embodiments described in this specification and the accompanying drawings are merely illustrative of some of the technical ideas included in the present invention. Accordingly, since the embodiments disclosed in the present specification are for explanation rather than limitation of the technical spirit of the present invention, it is obvious that the scope of the technical spirit of the present invention is not limited by these embodiments. Modifications and specific embodiments that can be easily inferred by a person of ordinary skill in the art within the scope of the technical idea included in the specification and drawings of the present invention are included in the scope of the present invention. will have to be interpreted.

s : Dehumidifier
p : internal space
10: chamber
11: wall
20: manhole assembly
30: house fix
100: anti-condensation structure
110: perforated member
111: perforated hole
112: binding groove
115: stopper
120: non-woven fabric
130: trough
131A: lower free end
131B: upper free end
132: discharge hole
133: solution discharge pipe
1000: adiabatic valve chamber

Claims (3)

chamber 10; manhole assembly (20); and a water collecting well (30); and comprising a condensation preventing structure (100) installed on the wall (11) constituting the chamber (10),
The anti-condensation structure 100,
A perforated hole 111 is formed so that the internal moisture of the heat insulation valve chamber 1000 flows in, the perforated member 110 to which the nonwoven fabric 120 is attached to the rear surface;
It is made in the form of a ditch with one side open to accommodate the dehumidifier (s), and the lower free end 131A of the open portion is hinged with the perforated member 110 to form an internal space p, and the interior A trough 130 having a discharge hole 132 so that the moisture inside the heat insulation valve chamber 1000 comes into contact with the dehumidifier s in the space p to discharge the solution generated;
Insulated valve chamber 1000 in which the anti-condensation structure 100 is installed.
According to claim 1,
The dehumidifier (s) includes any one or two or more compounds selected from the group consisting _{of calcium chloride (CaCl 2} ), silica gel, magnesium sulfate (MgSO ₄ ), calcium oxide (CaO) and sodium carbonate (Na ₂ CO _{3 )} Insulated valve chamber (1000), characterized in that the anti-condensation structure (100) is installed.
According to claim 1,
The perforated member 110 is
The angle of rotation of the perforated member 110 with respect to the lower free end 131A of the trough 130 by protruding from the side surface of the perforated member 110 so as to open obliquely into the heat insulating valve chamber 1000 ( θ) to limit the stopper 115; characterized in that it further comprises, the anti-condensation structure 100 is installed insulated valve chamber (1000).

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