KR101027076B1 - Degassing device to reduce radon gas flowing into building interior - Google Patents

Abstract

When building houses or public facilities based on rock or soil with high uranium content in Korea, the indoor radon content of the basement level should be lowered below the environmental standard.
Rather than trying to reduce the radon indoor air content after the construction, the simple facility at the time of construction can easily prevent the entry of radon.
If the basement floor is cracked or a gap is found in the lower part of the building, radon gas existing in the ground or soil rises, so installing radon exhaust pipe near the house or building reduces the indoor radon content.
That is, the present invention is to install a radon gas degassing device in the ground or soil layer as part of measures to reduce the radon gas content in the building interior.

Description

Degassing system of Radon gas infiltrating into indoor space

The present invention is a technique for preventing the inflow of radon gas from the lower side of the ground into the interior of the building, the porous intake pipe embedded in the lower ground near the building, and extending upward from the upper portion of the porous intake pipe And a degassing unit positioned at an upper portion, and a degassing unit for reducing an air pressure of a porous intake pipe embedded at an upper portion of the degassing tube. It is about.

It was only twenty years ago that radon (Rn-222), which gave humans the greatest radiation exposure among environmental radiation, was known to be radiation exposure by radon that could be sufficiently reduced by human actions. From this point on, the United States and many other European countries began to measure radon concentrations at the national level for homes and created and managed a 'radon map' corresponding to regional radon distribution.

In Korea, radon began to be managed with a total of 10 pollutants under the Indoor Air Quality Control Act, which took effect on May 30, 2004.In June of the same year, the main test of continuous monitor measurement was performed. A process test method using a two-year eight-hour measurement as a method has been announced.

The purpose of radon management is to reduce the incidence of lung cancer following exposure to radon radiation, and considering the radon's incidence characteristics, it is necessary to extend the management to general housing rather than to multi-use facilities. have.

1 illustrates a situation in which radon gas flows into a building 200 (eg, a general house), and there is a large amount of radon gas even if there is a crack 101 at the lower side of the ground 100 or without the crack 101. In the ground 100 included, radon gas is moved to the upper side of the ground (100).

At this time, if there is a crack in the building 200, radon gas is obviously moved to the interior of the building 200. Therefore, it is necessary to prevent the movement of radon gas to the interior of the building 200, but there is no current technology to prevent this in the country.

An object of the present invention is to install a degassing device such as the present invention in the soil or ground below the basement layer when building buildings (housing, public facilities, etc.) in the region with high radon gas content to reduce the radon gas content housing and living It is to protect natural people from the effects of radon gas by preventing radon gas from entering the space in advance.

An object of the present invention as described above is a porous intake pipe embedded in the lower ground in the vicinity of the building, a degassing pipe extending upward from the upper portion of the porous intake pipe and located in the upper portion of the ground, and is located in the upper portion of the degassing pipe A degassing unit for reducing the air pressure of the embedded porous intake pipe; is achieved by a degassing device for reducing the radon gas flowing into the building interior comprising a.

According to the degassing apparatus according to the present invention, it is possible to prevent the radon gas contained in a large amount of soil or ground below the basement layer to enter the interior of the building. In addition, the installation cost is low, but it is effective in reducing radon gas.

Since there is research showing that radon gas is harmful to the human body, using the present invention can minimize the effect of radon gas on natural humans.

1 is a view showing a situation in which radon gas is introduced into the interior of the building when the degassing apparatus according to the present invention,
2 is a view showing an example of a degassing apparatus according to the present invention;
3 is a view showing a situation in which radon gas is introduced into the degasser and discharged when the degasser is installed as shown in FIG.
4 is a view showing another type of degassing apparatus according to the present invention;
5 is a view showing a situation in which radon gas is introduced into the degassing apparatus when the degassing apparatus is installed as shown in FIG.
6 is a view showing various examples of the degassing apparatus according to the present invention.

Hereinafter, with reference to the accompanying drawings showing a preferred embodiment of the present invention will be described in detail.

The present invention is a degassing apparatus for preventing the radon gas of the lower side of the ground 100 is introduced into the interior of the building 200.

To this end, the present invention is a porous intake pipe 13 embedded in the lower ground 100 in the vicinity of the building 200, and extends upward from the upper portion of the porous intake pipe 13 and located on the ground 100 It is preferably configured to include a degassing tube 12 and a degassing unit for reducing the air pressure of the porous intake pipe 13 is located above the degassing tube 12. In addition, the periphery of the building 200 is preferably formed to the drainage path 300, and one or more degassing apparatus according to the present invention may be installed around the building 200.

Meanwhile, the porous intake pipe 13 is buried vertically on the lower side of the ground 100 as shown in FIG. 2, and inverse "T on the lower side of the ground 100 as shown in FIG. 4. "It may be composed of a type embedded in the shape.

In the case of Figure 4 is configured to inhale a larger amount of radon gas, even if not in this form, the porous intake pipe 13 may be made in various forms depending on the geological structure of the ground (100) to be installed.

On the other hand, since the porous intake pipe 13 serves as a passage for sucking the radon gas contained in the lower portion of the ground 100, in order to suck a larger amount of radon gas as shown in Figures 2 to 5 Likewise, it is preferable to form a plurality of intake holes 13a around the periphery.

That is, since the more the intake holes 13a around the porous intake pipe 13, the more the intake radon gas is increased by that, it is preferable to form a plurality of intake holes 13a.

The degassing part is a blower fan 11 of the type which is rotated under the influence of the wind to reduce the air pressure of the porous intake pipe 13, or the motor 30, the rotary shaft 15 rotated by the motor 30 and It may be of a type consisting of a blowing fan 11 connected to the rotary shaft 15 and rotated to reduce the air pressure of the porous intake pipe 13. That is, the place where the wind is frequent can save the installation cost because the motor 30 is unnecessary, and the place where the wind is low, the blowing fan 11 rotated by the motor 30 will be suitable.

Meanwhile, as shown in FIGS. 2 and 4, the porous intake pipe 13 is embedded in the lower portion of the ground 100, and the lower side of the degassing pipe 12 extending from the upper portion of the porous intake pipe 13. Some are also preferably buried in the lower part of the ground 100, which is a porous intake pipe 13 has a plurality of intake holes (13a), such as various foreign substances present on the surface of the soft ground (100a) intake hole (13a) This is to prevent the flow into the porous intake pipe (13) through.

The degassing device having such a configuration reduces the air pressure on the lower side of the porous intake pipe 13 by the rotation of the blower fan 11 so that the surrounding radon gas is passed through the degassing pipe 12 through the porous intake pipe 13. It is discharged to the outside via the blowing fan (11).

In addition, the present invention can be configured with various types of degassing apparatus as shown in Figure 6, it is apparent that can be produced in various shapes in addition.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications, and variations will readily occur to those skilled in the art without departing from the spirit and scope of the invention. Therefore, it should be understood that the disclosed embodiments are to be considered in an illustrative rather than a restrictive sense, and that the true scope of the invention is indicated by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof, .

11: Blower fan 12: Outgassing tube
13: porous intake pipe 13a: intake hole
15: rotating shaft 30: motor
70: gravel 100: ground
101: crack 200: architecture
300: drainage

Claims (7)

In the degassing apparatus for reducing radon gas to prevent the radon gas from the lower side of the ground 100 is introduced into the interior of the building 200,
A porous intake pipe 13 embedded in a lower portion of the ground 100 near the building 200;
A degassing tube 12 extending upwardly from an upper portion of the porous intake pipe 13 and positioned at an upper portion of the ground 100;
And a degassing part located at an upper portion of the degassing pipe 12 to reduce the air pressure of the embedded air intake pipe 13.
The porous intake pipe 13 is an inverted “T” shape having a plurality of intake holes 13a formed around it, or a “+” shape parallel to the ground 100, or radially embedded in the ground 100. But buried around the gravel (70), and buried in the lower part of the ground 100 also part of the lower side of the degassing tube 12 extending to the upper portion of the porous intake pipe (13),
The degassing part is a blower fan which is rotated under the influence of the wind to reduce the air pressure of the porous intake pipe 13, or is rotated by the motor 30, the motor 30, and the rotating shaft. A degassing apparatus for reducing radon gas introduced into the building interior, characterized in that the blowing fan (11) connected to the rotation and reducing the air pressure of the porous intake pipe (13). delete delete delete delete delete delete

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