KR100988022B1 - Radon regassing instruments and system of underground water - Google Patents

Abstract

PURPOSE: A device for reducing harmful radon gas included in underground water is provided to remove the significant amount of radon gas from underground water. CONSTITUTION: An aerator gives friction to underground water on a movement path, and removes radon gas from the underground water before the groundwater is supplied to a consumer. One end of an aeration unit is formed through plural pieces, and the circumference of the inner circumference of the aeration unit is formed in spiral pattern(11). The plural pieces and the pattern are inclined in an underground water moving direction.

Description

Radon regassing instruments and system of underground water

The present invention relates to a device for removing or reducing radon gas contained in groundwater.

Groundwater that passes through rocks or soils with high uranium content in Korea contains a lot of radon that is very soluble in water, so when drinking or bathing with water, it is very likely to be inhaled by the respiratory tract and cause lung cancer. In particular, in areas with high radon gas content in groundwater, there is a risk of lung cancer when groundwater is used as drinking water.

The reality of our country is that households using groundwater use farming and fishing villages and single-family homes (in some cities and entire rural areas) to pump groundwater with underwater motors, which are first stored in large water tanks, and then taps through water pipes to each household. It is a form to be delivered.

The U.S. Environmental Protection Agency (EPA) recommends that drinking high-density radon groundwater be done after shaking and degassing the glass. Also, stop drinking for a while and stop radon from entering your lungs.

In practice, however, several radon gases are degassed and reduced by shaking the glass several times, but this is a very passive countermeasure.

Rather than shaking a glass of water to degas and drink high-density radon groundwater, it would be desirable to be degassed by a device in the groundwater conduit before the groundwater reaches the faucet through the water pipe.

In other words, before receiving ground water for the purpose of drinking water, it is possible to artificially cause aeration by bending or protruding the pipe line, the tank tap and the internal structure of the tap to reduce the groundwater radon content while degassing radon gas in the groundwater. will be good.

Accordingly, an object of the present invention is to provide an apparatus capable of removing or reducing radon gas contained in groundwater before groundwater reaches the purpose of drinking water.

In order to achieve the object of the present invention as described above, in the process of supplying the groundwater to the consumer, the apparatus for degassing radon gas contained in the groundwater, the groundwater by giving friction to the groundwater on the movement path of the groundwater It is preferable to include a; aeration device for degassing radon gas before it is supplied to the consumer.

According to the apparatus for degassing radon gas contained in the groundwater according to the present invention, the installation cost is low, and the installation is simple, but there is an effect of removing a considerable amount of radon content of groundwater.

1 is a view showing an installation example of a device for reducing harmful radon gas contained in groundwater according to an embodiment of the present invention,
2 is a view showing an installation example of a device for reducing harmful radon gas contained in groundwater according to another embodiment of the present invention,
3 is a view showing a different type of aeration inside the pipe according to the present invention,
4 is a plan view of each pipe according to FIG.
5 is a cross-sectional view taken along line XX, YY of FIG.
6 is a view showing in detail the storage tank according to the present invention;
7 is a view showing another embodiment of a storage tank in detail;
8 is a view showing in detail another embodiment of the storage tank.

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

The present invention relates to a device for reducing harmful radon gas contained in the groundwater (hereinafter, referred to as radon reduction device) in the process of supplying the groundwater 201 to the consumer, and the radon reduction device includes radon gas contained in the groundwater. There is a significant effect that can be removed.

The main part of the configuration of the radon reduction device as an aeration device that removes or reduces the radon gas before the ground water is supplied to the consumer by friction with the groundwater on the ground water path,

The aeration device includes a pump 70 for pumping the groundwater 201, a pipe serving as a moving path such that the groundwater introduced by the pump is supplied to the consumer (eg, a resident of the home 100), and It is formed inside the pipe and may be configured to include an aeration unit that gives friction to the groundwater during the movement of groundwater.

However, the aeration device is preferably made of the embodiment shown in Figures 1 and 2, it may be used as various other embodiments.

That is, the aeration device is a pump 70 for pumping the ground water 201, as shown in Figure 1, the one side is connected to the pump 70 and the other side is connected to the injector 32 and the ground water introduced by the pump A storage tank 50 for accommodating the first pipe 31 serving as a moving path of the first pipe 31 and one side including the injector 32 of the first pipe 31 and storing ground water sprayed from the injector 32; And a second pipe 41 connected to the storage tank 50 and serving as a movement path to supply groundwater stored in the storage tank to the consumer, the interior of the first pipe 31, or the second pipe ( It is preferable to include an aeration portion formed inside the 41 or the first pipe 31 and the second pipe 41 to friction the ground water when the ground water moves.

On the other hand, in such an aeration device, the storage tank 50 is vent holes (51, 52), or a fan to discharge the radon gas contained in the ground water degassed by the injector 32, as shown in FIG. It is preferable that 53 is further provided, and the aeration part is provided to degas the radon gas to some extent from the groundwater while the groundwater moves in the pipe, and one end of the groundwater 201 as shown in FIGS. ) It may be made of a plurality of pieces 12 are formed to be inclined in the opposite direction of the movement direction, or may be made of a spiral pattern (11, 11 ') formed around the inner circumferential surface inclined in the opposite direction of the groundwater movement direction.

In addition, the aeration device in the present invention may be further provided with a corrugated pipe 32 as shown in Figure 6 between the first pipe 31 and the injector 32.

Hereinafter, the operation relationship of the radon reduction device configured as described above will be described.

The ground water 201 (including radon gas) flowing in the ground 200 is moved to the storage tank 50 by the pump 70 and the first pipe 31.

At this time, the ground water 201 generates bubbles (bubbles) due to interference in the moving direction by the pieces 12 formed inside the first pipe 31 or the spiral patterns 11 and 11 ', and at the same time, radon gas. Is degassed.

In addition, the radon gas is further degassed from the groundwater 201 by the injector 32 provided before the groundwater 201 is moved directly from the first pipe 31 to the storage tank 50. 1 corrugated pipe 33 provided between the pipes 31 shakes the injector 32 in all directions due to the water pressure, so that the radon gas contained in the groundwater 201 is also degassed.

The radon gas degassed from this process is discharged to the outside by the vent holes 51 and 52 of the storage tank 50 or the vent fan 52 before the groundwater reaches the user for the purpose of drinking water.

In addition, the fragment pieces 12 or the spiral patterns 11 and 11 'are also formed inside the second pipe 41 connected to the storage tank 50, thereby degassing the remaining radon gas contained in the groundwater 201. The degassed radon gas is finally discharged to the outside through a branch pipe 61 branched to each home, and a faucet 91 provided at the tip of the branch pipe 61.

On the other hand, the aeration device of the present invention may be configured as follows.

That is, the aeration device according to another embodiment of the present invention, as shown in Figure 7, the pump 70, the first pipe 31, the storage tank 500, the second pipe 41 and the width The base, the cover 501, the electric ventilation fan 530, the ventilation device, the stairs 503, and the water level sensor (571, 572), the electric ventilation fan 530 and the pump 70 Is characterized in that the driving is determined according to the water level check of the water level sensor (571, 572) located in the upper, lower portion of the storage tank (500).

More specifically, the pump 70 pumps the groundwater 201 to provide the groundwater 201 to the storage tank 500 through the first pipe 31. The upper water level sensor 571 and the lower water level sensor ( 572 is turned OFF (ground water 201 is depleted in the storage tank 500) is operated to supply the ground water 201 to the storage tank 500, the lower water level sensor 572 and the upper water level sensor 571 When the ON (ground water 201 of the storage tank 500 is full) is stopped and the ground water 201 supply is stopped.

The first pipe 31 has a configuration in which one side is connected to the pump 70 and the other side is connected to the injector 32, and serves as a movement path of groundwater introduced by the pump.

The storage tank 500 is configured to accommodate one side including the injector 32 of the first pipe 31 and to store the groundwater sprayed from the injector 32.

The second pipe 41 is connected to the storage tank 500 and serves as a movement path to supply the groundwater stored in the storage tank to the consumer.

The aeration part is formed inside the first pipe 31 or inside the second pipe 41, or inside the first pipe 31 and the second pipe 41 to friction the ground water when the ground water moves. To degas the radon contained in the groundwater.

The cover 501 and the staircase 503 are configured to be used when the inside of the storage tank 500 needs to be cleaned, and the cover 501 allows the inside and outside of the storage tank 500 to enter and exit the storage tank 500. The configuration is provided to be opened and closed at the top, the staircase 503 is configured to be mounted on the side of the storage tank 500. In this case, the cover 501 is preferably locked using a lock device.

The water level sensors 571 and 572 are mounted on the inside and the bottom of the storage tank 500, and are configured to check the water level in the storage tank 500.

The electric fan 530 is provided above or in the lateral direction of the storage tank 500, and is configured to exhaust radon gas in the storage tank 500.

Ventilation device is driven ventilating fans (510, 520) provided on both sides of the storage tank 500, the rotary shaft 541 is coupled to the rotation center of the ventilation fans (510, 520), the rotary shaft 541 is coupled to the injector Rotating blade 542 for transmitting the rotational force generated by the drop of ground water sprayed through the 32 to the rotating shaft 541, and one side of the hook (551a, 552a) form wraps the rotating shaft 541 and the other side Is mounted on the inner upper portion of the storage tank 500 is composed of supports (551,552) for supporting the rotating shaft 541.

The ventilator is configured to ventilate the internal air of the storage tank 500 by turning driven fan fans 510 and 520 mounted on both sides of the storage tank 500 using a drop of ground water 201 injected from the injector 32. When the pump 70 is operated, it can be used, but the pump 70 is stopped when the pump 70 is not operated. Therefore, the electric ventilation fan 530 is driven when the pump 70 is not operated. In addition, the electric fan 530 may be operated even when the pump 70 operates, because a large amount of degassed radon gas is present in the storage tank 500 during the operation of the pump 70. To discharge.

That is, since the pump 70 is driven by the water level sensors 571 and 572, and the electric ventilation fan 530 is driven depending on whether the pump 70 is operated, the electric ventilation fan 530 is also the water level sensor 571 and 572. It is desirable to see that driving is determined according to the water level check of.

On the other hand, the configuration as shown in Figure 8 is to install one more ventilation device in the configuration as shown in Figure 7, as shown in the ventilator is spaced up and down spaced by a set interval, and is arranged in a cross form, Figure One more ventilator, such as 8, is intended to improve radon gas emissions.

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, .

100: home 200: ground
201: groundwater 11,11 ': spiral pattern
12: piece 31: first piping
32: injector 33: corrugated pipe
41: second pipe 50: storage tank
51, 52: Vent 53: Vent fan
70: pump

Claims (6)

delete In the process of supplying the groundwater 201 to the consumer, the apparatus for degassing radon gas contained in the groundwater,
Aeration device degassing radon gas before the groundwater is supplied to the consumer by giving friction to the groundwater on the movement path of the groundwater;
The aeration device and the pump 70 for pumping the groundwater 201,
A pipe serving as a moving path so that the groundwater introduced by the pump is supplied to the consumer;
It is formed in the pipe and is composed of a plurality of pieces 12, one end is inclined in the opposite direction of the groundwater movement direction, or the spiral pattern (11, 11 ') formed around the inner circumferential surface inclined in the opposite direction of the groundwater movement direction. Device for reducing harmful radon gas contained in the groundwater, characterized in that consisting of aeration made. In the process of supplying the groundwater 201 to the consumer, the apparatus for degassing radon gas contained in the groundwater,
Aeration device degassing radon gas before the groundwater is supplied to the consumer by giving friction to the groundwater on the movement path of the groundwater;
The aeration device and the pump 70 for pumping the groundwater 201,
The first side is connected to the pump 70 and the other side is connected to the injector 32, the first pipe 31 and serves as a movement path of the groundwater introduced by the pump,
A storage tank 50 accommodating one side including the injector 32 of the first pipe 31 and storing ground water sprayed from the injector 32;
A second pipe 41 connected to the storage tank 50 and serving as a movement path to supply the groundwater stored in the storage tank to the consumer;
It is formed inside the first pipe 31, or inside the second pipe 41, or inside the first pipe 31 and the second pipe 41, one end is formed to be inclined in the opposite direction of the groundwater movement direction. Noxious radon gas included in groundwater, consisting of a plurality of pieces 12, or aeration portion consisting of a spiral pattern (11, 11 ') formed inclined in the opposite direction of the groundwater movement direction around the inner peripheral surface Device to reduce. The method of claim 3,
The storage tank 50 is further included in the ground water, characterized in that it further comprises vents 51, 52, or vent fan 53 for discharging radon gas contained in the ground water degassed by the injector (32) Device to reduce harmful radon gas. In the process of supplying the groundwater 201 to the consumer, the apparatus for degassing radon gas contained in the groundwater,
Aeration device degassing radon gas before the groundwater is supplied to the consumer by giving friction to the groundwater on the movement path of the groundwater;
The aeration device and the pump 70 for pumping the groundwater 201,
The first side is connected to the pump 70 and the other side is connected to the injector 32, the first pipe 31 and serves as a movement path of the groundwater introduced by the pump,
A storage tank 500 for accommodating one side including the injector 32 of the first pipe 31 and storing ground water sprayed from the injector 32;
A second pipe 41 connected to the storage tank 500 and serving as a moving path to supply groundwater stored in the storage tank to the consumer;
It is formed inside the first pipe 31, or inside the second pipe 41, or inside the first pipe 31 and the second pipe 41, one end is formed to be inclined in the opposite direction of the groundwater movement direction. An aeration portion consisting of a plurality of pieces 12 or a spiral pattern 11, 11 'formed around the inner circumferential surface and inclined in the opposite direction of the groundwater movement direction,
A cover 501 provided to be openable and closed at an upper portion thereof to allow access to the inside of the storage tank 500;
An electric fan 530 provided at one side of the storage tank 500;
Passive ventilation fans 510 and 520 provided at both sides of the storage tank 500, a rotation shaft 541 coupled with the rotation center of the ventilation fans 510 and 520, and the rotation shaft 541 coupled to the injector 32. Rotating blade 542 for transmitting the rotational force generated by the drop of groundwater sprayed through the rotating shaft 541, and one side of the hook (551a, 552a) form the rotating shaft 541 and the other side is the storage tank A ventilator installed at an inner upper portion of the 500 and configured of supports 551 and 552 for supporting the rotating shaft 541,
Stairs 503 mounted to the side of the storage tank 500,
It includes a water level sensor (571, 572) mounted on the inner upper, lower portion of the storage tank 500,
The motorized ventilation fan 530 and the pump 70 are harmful to the groundwater, characterized in that whether the driving is determined according to the water level check of the water level sensors (571, 572) located in the upper and lower parts of the storage tank (500). A device to reduce pork gas. delete

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