KR20120126170A - System and Method For Preventing Condensing In The Underground Space - Google Patents

Abstract

PURPOSE: An apparatus and a method for preventing underground space condensation are provided to prevent condensation in underground spaces by guiding the condensation beforehand and to increase efficiency for inducing the condensation. CONSTITUTION: An apparatus for preventing underground space condensation comprises an external wall(110), a space wall(120), an air inducing passage(130), a condensation inducing member(200), a discharge unit, and a drain(160). The space wall is installed to maintain a predetermined gap from the external wall. The air inducing passage is formed between the external wall and the space wall to guide the inflow of humid air. The condensation inducing member is installed in the air inducing passage. The discharge unit discharges condensation liquid water induced by the condensation inducing member. The drain collects and discharges the condensation liquid water discharged to the discharge unit. [Reference numerals] (AA) Dry air; (BB) Humid air

Description

System and Method For Preventing Condensing In The Underground Space

The present invention relates to a device and a method for preventing condensation in an underground space, such as an underground parking lot, and more particularly, a device capable of preventing condensation occurring on an outer wall or the like by inducing condensation in an underground space, such as an underground parking lot. And to a method.

Underground spaces, such as underground car parks, are usually constructed of structures underground. At least any one or more of the walls and the ceiling of the underground structure constituting the underground space directly contact the ground. Underground, unlike the ground, is always about 10? Maintain a constant temperature of 15 ° C. These underground temperatures have an absolute effect on the internal surface temperature of underground structures that directly contact them.

The underground space built with underground structures creates a warm environment in winter and a cool environment in summer. Generally, the temperature varies depending on the depth of the basement, but if it is above a certain depth, the temperature of the underground space is much higher than the outside temperature in winter, so there is little concern about the condensation in winter. However, in summer, condensation occurs as hot and humid air containing a lot of moisture at a high temperature of 30 ° C. or higher enters the underground space through an entrance or a gap of the underground structure. In other words, the hot and humid ground air introduced into the underground space is directly in contact with the inner surface of the underground structure to maintain a relatively low temperature.

In this process, the absolute amount of water vapor does not change, but the temperature of the incoming ground air is lowered due to the low temperature of the underground space. At this time, if the internal surface temperature of the underground structure is lower than the dew point temperature, condensation will occur. When condensation is generated on the inner surface of the underground structure, mold and the like are generated by the condensation, resulting in odor. Therefore, the environment of the underground space is worsened.

The present invention is to solve the above problems, an object of the present invention is to provide a condensation prevention device and method for underground space to prevent condensation occurring in the underground space by inducing condensation in advance.

Another object of the present invention to provide a condensation prevention device and method for underground space that can increase the efficiency of inducing condensation when inducing condensation.

Underground condensation preventing device according to the present invention for achieving the above object is formed between the outer wall, the space wall spaced apart from the outer wall and a predetermined interval, and formed between the outer wall and the space wall to induce moist air flows in. A drain for collecting and discharging an air induction flow path, a condensation induction member provided on the air induction flow path, a condensation water guided by the condensation induction member, and a condensation water discharged to the discharge means. It includes.

At this time, the space wall is filled with a heat insulating material inside, the outside is provided with an outer shell that condensation water does not penetrate.

On the other hand may further include a connecting member for connecting the outer wall and the condensation inducing member to transfer the cold air of the outer wall to the condensation inducing member.

Meanwhile, the condensation inducing member may be formed of copper or aluminum having excellent thermal conductivity, and the condensation inducing member may be a water repellent coating.

Meanwhile, the condensation inducing member may be formed of a cylindrical or polygonal tube.

The discharge means is a condensation water discharge passage for dropping the condensation water formed on the surface of the condensation guide member to the inside of the condensation guide member.

Meanwhile, the condensation inducing member may be formed of a plurality of metal thin plates formed in a zigzag form.

In this case, a metal plate may be attached to the outer wall.

Meanwhile, a dehumidifier may be provided in the air induction passage.

The underground space condensation prevention method according to the present invention for achieving the above object comprises the steps of forming an air induction passage through which the wet air is introduced, introducing the wet air through the air induction passage, the air induction passage Condensing the wet air introduced through the condensation induction member to form a condensation water, and may include the step of discharging the condensation water through a passage different from the surface on which the condensation water is generated.

In this case, the condensation inducing member may further comprise the step of applying a water repellent coating on the surface of the condensation water is generated.

According to the underground condensation prevention apparatus and method according to the present invention can prevent the moisture contained in the humid air in the underground space such as underground parking lot in advance to prevent the condensation water on the outer wall of the underground space such as underground parking lot. Can be.

In addition, by providing a condensation water to be discharged from the condensation induction member to induce condensation can exhibit the effect of increasing the condensation generation efficiency in the condensation induction member.

1 is a cross-sectional view of an underground space condensation preventing apparatus according to an embodiment of the present invention.
FIG. 2 is an enlarged view of the condensation inducing member in FIG. 1. FIG.
Figure 3 is a cross-sectional view of the underground space condensation preventing apparatus according to another embodiment of the present invention.
Figure 4 is a flow chart showing a method of preventing underground condensation in accordance with an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings for the underground condensation preventing apparatus and method according to an embodiment of the present invention will be described in detail.

1 is a cross-sectional view of an underground space condensation preventing apparatus according to an embodiment of the present invention.

As shown in FIG. 1, an apparatus for preventing underground condensation in an underground space according to an embodiment of the present invention includes an outer wall 110, a space wall 120 spaced apart from the outer wall 110 by a predetermined interval, and the outer wall 110. And an air induction flow path 130 formed between the space wall body 120 to guide the inflow of wet air, and a condensation induction member 200 installed on the air induction flow path 130.

The outer wall 110 is in contact with the ground, unlike the ground, regardless of the change of the season is always about 10? A temperature of 15 ° C. can be maintained.

In addition, the space wall 120 is filled with a heat insulating material 121 therein, the outside is provided with an outer shell 122 that does not penetrate condensation water. As the heat insulating material is filled in the interior of the space wall 120, condensation water is prevented from occurring in the space wall 120, and the exterior wall 120 is provided with an outer shell 122 through which condensation water does not penetrate the space wall 120. Even if condensation water occurs, the condensation water may be prevented from contacting the heat insulating material 121.

In the summer, a blowing fan 140 is installed in the air induction flow path 130 and sucks air so that hot and humid air including much moisture at a high temperature of 30 ° C. or higher is guided to the air induction flow path 130.

In the present embodiment, the blowing fan 140 is shown installed on the outlet 132 side of the air induction flow path 130, the blowing fan 140 is on the inlet 131 side of the air induction flow path 130. It may be installed. When the blower fan 140 is installed in the air guide passage 130, a gap between the blower fan 140, the outer wall body 110, and the space wall body 120 is closed to cover the air guide passage 130. Make a strong suction force.

As such, the hot and humid air including a lot of moisture by the blowing fan 140 installed on the air induction passage 130 is sucked to the inlet 131 side of the air induction passage 130 and then discharged to the outlet 132 side.

On the other hand, a condensation induction member 200 is installed on the air induction flow path 130 to remove moisture in the hot and humid air flowing through the air induction flow path 130. The condensation inducing member 200 is kept at a lower temperature than air flowing through the air induction passage 130 to condense moisture in the air flowing through the air induction passage 130.

Underground, unlike the ground, is always about 10? It maintains a constant temperature of 15 ℃, the outer wall 110 in direct contact with the ground is also about 10? Maintain a constant temperature of 15 ° C. In this way, the temperature of the condensation induction member 200 is 10? The connection member 150 may be installed to connect the outer wall 110 and the condensation induction member 200 to maintain a constant temperature of 15 ° C.

In the present embodiment, the condensation inducing member 200 has been shown to be formed of a cylindrical or polygonal tube, but may be formed in various forms. In addition, the condensation induction member 200 may be formed of copper or aluminum having excellent thermal conductivity. The reason for this is that not only the low temperature of the outer wall body 110 is easily transmitted, but also the condensation is well induced by increasing heat exchange efficiency with humid air flowing through the air induction flow path 130.

In this way, the condensation induction member 200 is 10? Since the temperature of 15 ° C. can be maintained, the air induction path 130 may have a temperature of 30 ° C. or more and condensation of moisture in humid air.

In this embodiment, the condensation inducing member 200 is connected to the outer wall body 110 by the connection member 150 to maintain the same temperature as the outer wall body 110, but one side of the condensation induction member 200 is the outer wall body ( The geothermal heat acts as a cold heat source by contacting the condensation 110, and may have a structure for continuously supplying cold heat to the condensation inducing member 200.

Meanwhile, a dehumidifier 135 is installed on the air guide passage 130. The dehumidifier 135 may be installed at the inlet 131 or the outlet 132 of the air induction passage 130. The dehumidifier 135 removes moisture in the air by condensing moisture contained in the air by lowering the temperature of the air passing through the air induction passage 130. The dehumidifier 135 uses electric energy to condense moisture in the air.

In the present embodiment, since the condensation induction member 200 installed on the air induction flow path 130 removes a predetermined portion of moisture in the air flowing on the air induction flow path 130, even if the dehumidifier 135 has a small capacity, The moisture in the space can be completely removed. In addition, the electrical energy consumed through the dehumidifier 135 may be reduced to 1/4 or less.

Next, the condensation inducing member provided on the air induction passage 130 will be described.

FIG. 2 is an enlarged view of a condensation inducing member generating condensation in FIG. 1.

As shown in FIG. 2, if the condensation generated by the condensation inducing member 200 adheres to the surface of the condensation inducing member 200, the condensation prevents heat exchange between the condensation inducing member 200 and humid air. The condensation inducing member 200 is provided with a discharge means for guiding the induced condensation water to the drain 160 formed in the lower portion of the air induction passage 130.

The discharge means may be formed as a condensation water discharge passage 210 for dropping the condensation water formed on the surface of the condensation inducing member 200 into the condensation inducing member 200.

In addition, the condensation inducing member 200 may be a water repellent coating 220 so that the condensation water generated on the surface of the condensation inducing member 200 flows well. Therefore, after the condensation water formed on the surface of the condensation inducing member 200 flows along the surface of the condensation inducing member 200, the condensation water is collected in the drain 160 through the condensation water discharge passage 210 and then discharged to the outside.

3 is a cross-sectional view of the underground space condensation preventing apparatus according to another embodiment of the present invention. Hereinafter, in describing the underground condensation preventing apparatus according to another embodiment of the present invention, the same reference numerals are used for the same configuration as the above-described embodiment, and a detailed description thereof will be omitted.

3 shows that the condensation induction member 300 is formed of a plurality of metal thin plates formed in a zigzag shape with each other in the underground space condensation preventing apparatus according to the present invention.

As described above, the condensation inducing member 300 is formed of a plurality of metal thin plates formed in a zigzag form, so that the air flowing through the air induction passage 130 can be increased in contact with the condensation inducing member 300, thereby increasing the area of the air induction passage 130. The temperature of 30 ° C. or more can increase the efficiency of condensation of moisture in humid air.

On the other hand, the temperature of the outer wall 110 is 10? Since the air is maintained at 15 ° C., air flowing through the air induction flow path 130 is cooled not only by the condensation induction member 300 but also by the outer wall body 110 to remove moisture in the air.

Alternatively, a metal plate 115 may be attached to the outer wall 110 so as to transfer heat of the outer wall 110 well. In this case, the metal plate 115 may be copper or aluminum having excellent thermal conductivity. By allowing the metal plate 115 to contact the outer wall body 110, the cold heat of the outer wall body 110, which serves as a cold heat source, is continuously transmitted to the metal plate 115, thereby removing moisture in the air flowing through the air induction flow path 130. Done.

At this time, the condensation water is formed on the surface of the condensation guide member 300 is provided with a discharge means for guiding the drain 160 formed in the lower portion of the air induction flow path (130).

The discharge means may be formed as a condensation water discharge passage 310 for dropping the condensation water formed on the surface of the metal thin plate forming the condensation inducing member 300 to the space formed between the plurality of metal thin plates.

Next, the underground condensation prevention method will be described.

Figure 4 is a flow chart showing a method of preventing underground condensation.

As shown in FIG. 4, the method for preventing the underground space condensation of the present invention may include forming an air induction flow path 130 through which wet air is introduced (S110), and introducing wet air through the air induction flow path 130. Step S120 and condensation of the wet air introduced through the air induction passage 130 using the condensation inducing members 200 and 300 to form condensation water (S130) and the surface on which the condensation water is generated. And discharging the condensation water through another passage (S140).

In this way, by quickly discharging the condensation water through a surface different from the surface where the condensation water is generated, it is possible to prevent the condensation water from interfering with the heat exchange between the condensation inducing members 200 and 300 and humid air.

On the other hand, the condensation inducing members 200 and 300 may further include a step of applying a water repellent coating on the surface where the condensation water is generated. By doing in this way, the dew condensation water can be prevented from remaining on the surfaces of the condensation inducing members 200 and 300 for a long time, thereby increasing the efficiency of generating condensation.

In the above description of the underground condensation preventing apparatus and method according to an embodiment of the present invention, the spirit of the present invention is not limited to the embodiments presented herein. And those skilled in the art to understand the spirit of the present invention can easily suggest other embodiments by the addition, modification, deletion, addition, etc. within the scope of the same idea, but this also falls within the scope of the invention something to do.

110: outer wall 120: space wall
130: air induction flow path 200: condensation induction member
210: dew condensate discharge passage 220: water repellent coating

Claims (12)

Exterior walls,
A space wall spaced apart from the outer wall by a predetermined distance;
An air induction flow path formed between the outer wall and the space wall to guide the inflow of wet air;
A condensation inducing member provided on the air induction passage;
A discharge means for discharging the condensation water induced by the condensation inducing member;
Underground condensation prevention device including a drain to collect and discharge the condensation water discharged to the discharge means. The method of claim 1,
The space wall is filled with a heat insulating material therein, the outside is an underground condensation prevention device, characterized in that the outer surface has a shell which does not penetrate condensation water. The method of claim 1,
And a connecting member connecting the outer wall and the condensation inducing member to transfer the cool air of the outer wall to the condensation inducing member. The method of claim 1,
The condensation inducing member is underground space condensation preventing device, characterized in that formed of copper or aluminum having excellent thermal conductivity. The method of claim 1,
The condensation inducing member is underground condensation preventing device, characterized in that the water-repellent coating. The method of claim 1,
The condensation inducing member is underground condensation preventing device, characterized in that the cylindrical or polygonal tube. The method according to claim 6,
And the discharge means is a condensation water discharge passage for dropping the condensation water formed on the surface of the condensation inducing member into the condensation inducing member. The method of claim 1,
The condensation induction member is underground condensation prevention device, characterized in that the plurality of metal thin plates are formed in a zigzag form. The method of claim 8,
Underground condensation preventing device, characterized in that the outer wall body is attached to the metal plate. The method of claim 1,
Underground condensation prevention device, characterized in that the air induction passage is provided with a dehumidifier. Forming an air induction flow path through which wet air is introduced,
Introducing humid air through the air induction passage;
Condensing wet air introduced through the air induction passage using a condensation inducing member to form condensation water;
Condensation prevention method comprising the step of discharging the condensation water through a passage different from the surface on which the condensation water is generated. 12. The method of claim 11,
And a water repellent coating on the surface from which the condensation water is generated in the condensation inducing member.

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