KR20130020101A - Indoor radon reducing system and install method - Google Patents

Abstract

PURPOSE: An indoor radon reducing device and an installing method by utilizing a bottom space of a ground level of a building is provided to reduce an indoor radon concentration when people stay, to reduce a maintenance cost of the radon reducing device. CONSTITUTION: An indoor radon reducing device and an installing method by utilizing a bottom space of a ground level of a building comprises a forcing discharging fan(1), an outlet(13), a cap(2), an anchor(3), a PVC pipe(4), a PVC elbow(5), a stainless sleeve(7), and a controller(8). The forcing discharging fan discharges the high concentration radon to the outside. The outlet is mounted at the upper side of the exhaust fan and comprises a wire mesh at the end portion. The cap is mounted at the upper side of the outlet. The anchor fixes the exhaust fan. The PVC pipe is mounted at the bottom of the exhaust fan. The sleeve is connected to the PVC elbow by a sleeve fixing anchor(6). The controller is connected to the exhaust fan by a wire(9).

Description

Indoor radon reducing system and install method utilizing floor space below ground of building 1

The present invention is to prevent the inflow of radon indoors by forcibly discharging the lower space air of the building with high indoor radon concentration to the outdoors for the purpose of contributing to the public health by reducing the exposure by radon inhalation, the primary carcinogen of lung cancer The present invention relates to an indoor radon abatement device and installation method utilizing a lower floor space on the ground floor of a building that can reduce the number of floors.

This onset is a system required to reduce indoor radon, a first-class carcinogen that acts as a second cause of lung cancer, and has not been applied in Korea. Domestic researches and surveys on indoor radon are less than in advanced countries, and there is little development or construction of domestic reduction devices for high-density radon houses.

In foreign countries, indoor radon concentrations are lowered by installing radon sumps on the floor of the building and covering them with concrete to block the inflow and forcing the radon accumulated in the radon sumps into an exhaust fan.

Meanwhile, according to the results of the national indoor radon survey conducted by the Ministry of Environment in 2008 and 2009, 89 elementary schools exceeded the US EPA radon recommendation of 148 Bq / m ³ in 89 out of 661 surveyed schools. Was reported in the press more than 12 times. These schools are old elementary schools with wooden floors, and high levels of radon generated from the soil are easily introduced into the classroom through the cracks in the floor.

 In order to lower indoor radon at the school, it is a common way to prevent radon from entering the room by removing all existing floors, installing a radon exhaust fan and installing concrete as in other countries. However, the existing wooden floor is an environmentally friendly material that does not emit indoor pollutants, and if the student falls while playing in the classroom, the wooden floor has a great advantage of preventing a student's injury due to the effect of cushioning the impact. Replacing all existing wood floors with concrete, just because of the high radon, can be a national budget waste.

Korean Laid-Open Patent Publication No. 1000110072590 (20110629) discloses a housing in which groundwater falls from inside, a mixing tube for spraying the groundwater falling into droplets, and radon gas generated when the groundwater is sprayed into droplets to the outside. A first ventilation means for discharging, an underground water storage tank for storing ground water from which radon gas has been removed from the housing, and ground water from which radon gas is primarily removed from the housing by generating air bubbles in the ground water storage tank; And a second vent means for discharging the remaining radon gas in the air in the air above the water surface of the groundwater storage tank and the second vent means for discharging the remaining radon gas in the groundwater storage tank to the outside. The driving power of the ventilation means and the bubbler is supplied through an external power supply or groundwater in the housing There is a high capacity, and high content of description of a groundwater radon reduction apparatus in a non-motorized where power is not present by the rotational force of the rotating member is rotated in a falling force to rotate the first ventilation means is open,

In Korean Registered Patent Publication No. 1009158670000 (20090831), the outside air is extended from the upper part of the water tank for liver abnormal water to remove radon, which is a natural radioactive substance detected in groundwater transferred from a simple water supply facility, and to improve the water quality. The inlet pipe through which the water is introduced, the intake pipe extending from the lower part of the water tank to the ground water and vertically mounted to the intake pipe, and the discharge port through which the ground water transferred from the intake pipe is discharged gradually become narrower. The discharge pipe is formed in the form, and the external air transferred from the intake pipe is introduced, the discharge pipe is inserted in a horizontal shape with a diameter of both sides around the intermediate point where the discharge port of the discharge pipe is provided is coupled to the external air at the intermediate point Groundwater comprising a mixer in which the groundwater is sprayed radially, wherein the mixer Toward the circumferential direction at the edges of the greater, and radon removal device, characterized in that for ejecting the ground water in combination with the external air are described,

The publication No. 1009888210000 (20101013) is installed on the upper part of the water tank for liver abnormal tap water to remove radon, which is a natural radioactive substance detected in groundwater transported from a simple water supply facility, and to improve the water quality. Inlet pipe connector is inserted into the inlet U-shaped pipe connected to the intake pipe for inflowing the ground water), and the auxiliary tank is provided with a discharge pipe connector is inserted into the discharge pipe for discharging water into the water tank on the lower surface, The inlet pipe penetrates vertically from the top to inject external air into the pipe, and a conical water sprayer radially sprays water at the end of the inverted U-shaped pipe inserted into the auxiliary tank. When the outside air flows in by the Bernoulli principle that the pressure of the fluid decreases in the narrow passage into the trachea, the radon is separated from the water by contacting the air and water. , And a radon removal apparatus for the separation of radon in the water to the exhaust port installed on the auxiliary tank and the water tank is discharged to the outside public,

Publication No. 1008424420000 (20080624) describes a process for treating air to remove toxins such as suspended particles, carbon dioxide, carbon monoxide, nitrogen dioxide, bacteria, formaldehyde, totally volatile organic compounds, radon and organic fragrant compounds. A method and apparatus for improving the quality of air in an enclosed space having a molecular sieve comprising a zeolite and a plurality of molecular sieves that can be operated continuously are described,

The publication No. 1009956450000 (20101115) includes a water flow plate installed on at least one of the left side and the right side of an underground station or tunnel on which a subway or a vehicle runs, and a house for storing air purification water supplied to the water flow plate. A water outlet installed in the upper part of the crystal and the water flow plate and freely dripping the air purification water supplied from the sump with respect to the water flow plate, and the harmful substances and air purification water washed down along the water flow plate. Underground air purifiers for improving the air quality of underground stations and tunnels, including discharge means for moving to the crystal, are disclosed.

The publication No. 1009836240000 (20100915) includes a water flow plate installed on one side of the platform for passengers traveling to and from underground stations or underground spaces, and a water tank for storing air purification water supplied to the water flow plate; A water pipe provided at an upper portion of the water flow plate and having a discharge opening cut in the longitudinal direction so as to prevent scattering by forming a water film layer on the water flow plate when supplying the air purification water from the sump to the water flow plate; The air purification system for improving the air quality for underground stations and underground spaces, including the discharge means for collecting the harmful substances and air purification water washed down and moving to the water collection tank,

It can be seen that the publication No. 1010270760000 (20110329) discloses a technique in which a radon gas degassing device is provided on the ground or soil layer as a measure for reducing radon gas content in a building interior.

In the present invention, a system and an inexpensive construction method for effectively discharging high concentrations of radon in the floor space after installing an exhaust fan through an external wall while maintaining the existing floor, which is environmentally friendly and prevents injuries when students fall down. The development was a technical challenge of this outbreak.

In addition, the fan speed should be lowered as needed to reduce the noise disturbing the students' lessons and reduce the maintenance cost.In addition, the indoor radon concentration tends to rise high at night time and winter time, so the fan rotation at night time. It is a problem to be solved of the present invention to increase the number of rotation of the fan in order to quickly discharge the high concentration of radon on the floor.

In order to solve the above problems, the present invention relates to a facility for lowering the indoor radon by forcibly discharging the air in the bottom floor of the first floor of the old building. It consists of forced exhaust fan, exhaust fan cap, PVC pipe, PVC pipe elbow fitting, sleeve fixed anchor, stainless sleeve, flow controller, wiring, and wire mesh to release radon and air. It is an object of the present invention to provide an indoor radon reduction device and installation method utilized.

Man produced a prototype on February 11 in the Executive Office of the High actual radon concentration Elementary School for validation for a period of time living the indoor radon concentration actually being lowered to below the 148 Bq / m ³ US EPA's Radon gwongochi As a result, the average radon concentration during the working hours per week before construction was reduced from 601 Bq / m ³ to 138 Bq / m ³ , even if only one quarter of the exhaust fan rated capacity was satisfied. In this case, the power consumption is about one fluorescent lamp, so the maintenance cost was also estimated to be low.

Although there are no accurate statistics in Korea, there are more than 20,000 lung cancer deaths per year in the United States. When the radon abatement system developed in the present invention is applied, it is believed that the radon reduction facility will greatly contribute to the protection of the public's health from radon exposure. In particular, it will play a role in protecting the health of students and teachers living in high-density radon schools located in Gangwon-do and Chungcheongbuk-do, where radon concentration is high.

If all existing floors are replaced with concrete and radon sump and exhaust fan are installed, it will cost tens of millions of won per classroom, but the installation cost of this facility is only several million won. Considering that more than half of the thousands of elementary schools are still outdated floors, the use of this abatement system is expected to significantly reduce the national budget and to protect the health of students and teachers at low maintenance costs. In the future, this facility can be effectively used to reduce indoor radon in buildings where the bottom floor space can be secured among the existing buildings (un-home public buildings) located in some high concentration areas of radon in Korea.

1 to 2 is a detailed view of the indoor radon reduction device utilizing the bottom floor space of the first floor of the building of the present invention
3 to 4 is a photograph of the construction of FIG.

In order to solve the above problems, the present invention provides a forced exhaust fan (1) for discharging high concentration radon to the outside, the discharge port 13 installed on the exhaust fan (1), and the upper portion of the discharge port (13) Installed cap (2), anchor (3) for fixing the exhaust fan (1), PVC pipe (4) provided in the lower portion of the exhaust fan (2), PVC installed in the lower portion of the PVC pipe (4) Elbow (5), stainless steel sleeve (7) connected to the PVC elbow (5) by a sleeve fixing anchor (6), and a controller (8) connected to the exhaust fan (1) by wiring (9). The present invention relates to an indoor radon abatement device and installation method using a lower floor space of a first floor building.

The present invention is to install a forced exhaust fan and a controller by drilling a wall of the space secured to the bottom of the first floor of the existing building to continuously reduce the amount of radon introduced into the room by discharging air in the lower end of the existing building It is a facility that can drastically reduce indoor radon concentration while maintaining most of the interior and exterior.

Man produced a prototype on February 11 in the Executive Office of the High actual radon concentration Elementary School for validation for a period of time living the indoor radon concentration actually being lowered to below the 148 Bq / m ³ US EPA's Radon gwongochi As a result, the average radon concentration during the working hours per week before construction was reduced from 601 Bq / m ³ to 138 Bq / m ³ , even if only one quarter of the exhaust fan rated capacity was satisfied. In this case, the power consumption is about one fluorescent lamp, so the maintenance cost was also estimated to be low. In the future, this facility can be used to reduce indoor radon of existing buildings that are located in high concentration areas of radon in Korea and that can secure lower floor space.

Under the old floor of an old elementary school there is an empty space of 20-30 cm to prevent erosion of wood, which serves as a passage into the room. In order to discharge the radon accumulated in this empty space, a perforated outer wall of about 200 mm in diameter was inserted, and then a stainless sleeve (7) of a size to accommodate 150 (approximately 150 mm) PVC pipe was inserted and an anchor (6 ). A 150 (approximately 150 mm) PVC pipe (4) was inserted into the sleeve and a PVC pipe elbow fitting (5) was used to connect other PVC pipes (5) of uniform diameter. The gap between the sleeve and the PVC pipe and the gap between the PVC pipe and the seam is finished with silicone sealant. Install the exhaust fan 1 on the PVC pipe 5 and fix it with anchors 3, wire mesh (not shown) and cap 2 installed on the upper part of the discharge port 13 to prevent the ingress of rainwater and to prevent invasion of harmful animals. ) Was installed. If necessary, the flow rate controller (8) was installed indoors to control the flow rate, and wiring was connected to the exhaust fan through the floor and PVC pipe. The flow rate controller adopts a method of adjusting the rotation speed of the motor by changing the frequency in order to reduce installation and material costs.

This will be described in detail with reference to the accompanying drawings 1 and an embodiment as follows.

1 to 2 is a detailed view of the indoor radon reduction device utilizing the bottom floor space of the first floor of the building of the present invention, Figures 3 to 4 is a view showing the construction of the Figure 1, the exhaust fan 1, exhaust Fan cap (2), fixed anchor (3), PVC pipe (4), elbow fitting pipe (5), sleeve fixing anchor (6), sleeve (7), controller (8), wiring (9), floor (10) It can be seen that the lower space 11, the base 12, the outlet 13 is shown.

As shown in Figure 1, the structure of the indoor radon reduction device utilizing the bottom floor space of the first floor of the building of the present invention,

Forced exhaust fan (1) for discharging high concentration radon to the outside, discharge port 13 is provided on the upper portion of the exhaust fan 1, and provided with a wire mesh (not shown) at the end, and the upper portion of the discharge port (13) A cap (2) installed in the anchor, an anchor (3) for fixing the exhaust fan (1),

PVC pipe (4) installed in the lower portion of the exhaust fan (2), PVC elbow (5) installed in the lower portion of the PVC pipe (4), and connected to the PVC elbow (5) by a sleeve fixing anchor (6) Installed stainless steel sleeve (7),

It can be seen that the structure consisting of a controller 8 connected to the exhaust fan 1 by a wiring 9.

If you explain the installation method,

The present invention penetrates the outer wall of the empty space in the lower part of the floor of the building, and then inserts a sleeve (7) made of stainless steel and secured with an anchor (6), and at the end of the sleeve (7) made of stainless steel extending outwards. The PVC pipe 4 is connected to the upper portion using the PVC pipe elbow fitting pipe 5, and then the gap between the sleeve 7 and the PVC pipe 4 and the gap between the seams of the PVC pipes 4 with silicone sealant. Finishing, install the exhaust fan 1 on the upper part of the PVC pipe 4, and fixed by using a wall with an anchor (3), the outlet 13 is installed on the upper part of the exhaust fan 1, A wire mesh (not shown) is installed at the end of the outlet 13, and after the cap 2 is installed on the upper portion of the outlet 13, the controller 8 is connected to one side of the building by wiring to the exhaust fan 1. ) Installed by installing.

How to use is the exhaust fan (1) is operated when the power is turned on by using the controller (8), the radon and harmful gas in the bottom of the bottom is used to discharge through the sleeve 7 and the PVC pipe (4) will be.

 Exhaust fan (1), exhaust fan cap (2), fixed anchor (3), PVC pipe (4), elbow fitting pipe (5), sleeve fixing anchor (6), sleeve (7), controller (8), wiring ( 9), floor slab or floor (10), subspace (11), foundation (12), outlet (13).

Claims (2)

In the indoor radon reduction device using the bottom floor space of the first floor of the building,
Forced exhaust fan (1) for discharging high concentration radon to the outside air, an exhaust port (13) installed on the upper end of the exhaust fan (1) and provided with a wire mesh at the end, and a cap installed on the upper portion of the exhaust port ( 2) and an anchor (3) for fixing the exhaust fan (1),
PVC pipe (4) installed in the lower portion of the exhaust fan (2), PVC elbow (5) installed in the lower portion of the PVC pipe (4), and connected to the PVC elbow (5) by a sleeve fixing anchor (6) Installed stainless steel sleeve (7),
Indoor radon reduction apparatus utilizing the bottom floor space of the first floor of the building, characterized in that it comprises a controller (8) connected to the exhaust fan (1) by a wiring (9). In the installation method of the indoor radon reduction device utilizing the bottom floor space of the first floor of the building,
After drilling the outer wall of the empty space in the lower part of the building, insert the stainless sleeve 7 and fix it with an anchor 6, and at the end of the stainless sleeve 7 extending outward, The PVC pipe 4 is connected to the upper part using the joint pipe 5, and then the gap between the sleeve 7 and the PVC pipe 4 and the joint of the PVC pipes 4 are finished with silicone sealant, An exhaust fan 1 is installed on the upper portion of the PVC pipe 4, and the exhaust fan 1 is fixed using a wall with an anchor 3, and an exhaust port 13 is installed on the exhaust fan 1. After installing a wire mesh (not shown) at the end of the), and the cap (2) is installed on the upper portion of the outlet 13, and connected to the controller (8) on one side of the building by wiring to the exhaust fan (1) Indoor radon reduction device installation method using the bottom floor space of the first floor of the building characterized in that the installation.

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