KR100915867B1 - A radon removal device - Google Patents

Abstract

A radon removal apparatus is provided to remove radon detected from underground water without using expensive activated charcoal, and to offer excellent usability without a power device while reducing installation cost. A radon removal apparatus includes a suction pipe(10), an intake pipe(20), an exhaust pipe, and a mixer. The suction pipe is extended from the top of a water tank(1) to an inner side. The intake pipe includes an inlet(11). The intake pipe transfers underground water. The exhaust pipe is mounted on the intake pipe vertically. An outlet is formed on the exhaust pipe to a conical shape. An air inlet is formed on a side of the mixer. The exhaust pipe is extended to an intermediate point of the mixer.

Description

Radon removal device

The present invention relates to a radon removal apparatus, and more particularly, is installed extending from the upper portion of the liver water supply tank to remove radon, which is a natural radioactive substance detected in the groundwater transported from the simple water supply facility, and to improve the water quality. An intake pipe through which external air is introduced, an intake pipe extending from the lower portion of the water tank to the inside and transporting groundwater, and extending vertically to the intake pipe, and an outlet through which the groundwater transferred from the intake pipe is discharged gradually The discharge pipe is formed in a narrow conical shape, and the external air transferred from the intake pipe is introduced, and the discharge pipe is inserted horizontally, and the diameter of both sides is increased around the intermediate point where the discharge port of the discharge pipe is provided. Groundwater combined with air comprises a mixer that is radially sprayed, the horn Group relates to radon removal device toward a circumferential direction from the edge of the water tank, characterized in that for ejecting the ground water combined with the outside air.

Radon is one of the elements that exist in nature. It is a radioactive substance that emits radiation as the nucleus decays. It consists of naturally occurring colorless, tasteless, and odorless radioactive gases. When radon is released into the air from the soil, rocks, or water, it is inhaled into the respiratory tract, and when it is ingested as drinking water, it is absorbed through the digestive organs, causing lung cancer and stomach cancer.

As described above, since more than 90% of radon causing diseases such as lung cancer and stomach cancer is generated from a water supply facility, research is being conducted to remove radon from water. It is equipped with a device that injects water (groundwater) by the falling force and forcibly injects air into the water by using electricity to remove radon by mixing water and air, or to activate activated carbon in the path of water movement. Water was passed through the activated carbon to remove radon.

However, the conventional invention has a problem that it is impossible to use in a place where the power supply device is complicated because the device is complicated and consumes electricity when it is necessary to provide a device for forcibly injecting air into the water. In addition to separately installing a housing having a structure capable of providing activated carbon, the activated carbon needs to be recharged at regular intervals to replace activated carbon corresponding to expensive resources, and impurities are accumulated in the activated carbon filter to remove impurities. There was a difficulty to replace or disassemble the housing.

The object of the present invention is that the device that introduces air into the water tank is made of a simple structure using a natural principle, it is easy to install, less installation cost, it is easy to use in places where the power supply is not provided because it does not consume electricity To provide a radon removal device that can be used easily.

Another object of the present invention is to provide a radon removal device that effectively removes radon detected in groundwater without using expensive activated carbon by contacting air with natural principles, thereby widening the contact area.

The present invention, in the radon removal device for ground water flowing into the water tank (1) for intermittent tap water, is installed extending from the upper portion of the water tank 1 to the inside, the suction port formed with an inlet (11) through which the outside air is introduced Engine 10; An intake pipe 20 extending from the lower portion of the water tank 1 to the inside to transfer groundwater; A discharge pipe 30 mounted perpendicular to the water intake pipe 20 and formed in a conical shape in which an outlet 31 through which the ground water transferred from the water intake pipe 20 is discharged is gradually narrowed; An air inlet 41 through which the external air transferred from the intake pipe 10 flows is formed on the side surface, and the discharge pipe 30 is inserted horizontally and extends up to an intermediate point 42, and the intermediate point 42 ) Is formed in a conical shape that gradually narrows the diameter, the diameter of the opposite side of the discharge pipe 30 is increased around the middle point 42 is formed to radially spray groundwater combined with external air at the middle point 42 Being a mixer 40; characterized in that comprises a.

More preferably, an exhaust port 2 is formed at an upper end of the water tank 1,

The intake pipe 10, one end is provided with an elbow of the "c" shape,

The discharge pipe 30 is mounted to the intake pipe 20 vertically, characterized in that a plurality of spaced apart a predetermined interval.

In addition, the mixer 40 is characterized in that for spraying ground water combined with the outside air toward the circumferential direction at the edge of the water tank (1).

At this time, the mixer 40 is characterized in that the diameter of the intermediate point 42 is larger than the diameter of the outlet 31 of the discharge pipe (30).

Therefore, the present invention, the air intake pipe is made of a simple structure using the principle of Bernoulli, the installation is easy, the installation cost is low, and do not consume electricity, such as a mountaintop place where the power supply is not provided Also available at.

In addition, the present invention, by drawing the ground water drawn up from the well to the intake motor installed in the intake pipe contacting the air in the mixing pipe combined with the water intake pipe and the auxiliary intake pipe, the air introduced from the intake pipe mounted on the water tank conical By contacting the groundwater in the mixer and radially spraying the groundwater combined with the air, and circumferentially sprayed from the edge of the water tank, the groundwater is in contact with the air to effectively remove radon, but also in the water tank Naturally rotating groundwater combined with air enhances radon removal.

In addition, the present invention, the inlet of the inlet pipe through which air is introduced is provided with a "c" shape, thereby preventing the intrusion of insects, dust, etc. that can be introduced from the outside.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described to be easily carried out by those of ordinary skill in the art.

1 is a schematic configuration diagram of a radon removal device according to an embodiment of the present invention, Figure 2 is a detailed view of the radon removal device according to an embodiment of the present invention, Figure 3 is a radon removal device according to an embodiment of the present invention Is an embodiment of.

Radon removal apparatus of the present invention is provided in a structure that effectively contacts the air to the ground water in order to remove radon and improve the water quality as radon is detected in the ground water in a simple water supply facility for transporting ground water, etc. As shown in FIG. 3, the intake pipe 10 is installed to extend from the upper part of the water tank 1 for the abnormal water supply system to enter the outside air, and the ground water is extended from the lower part of the water tank 1 to the inside. The water intake pipe 20 to be transported, and is mounted perpendicular to the intake pipe 20, the discharge port 31 is discharged to the ground water discharged from the intake pipe 20 is formed in a conical shape is gradually narrowed intake pipe 20 Discharge pipe 30 for quickly discharging the ground water transferred from the) and the air inlet 41 is formed on the side of the inlet pipe 10, the outside air is introduced, the discharge pipe 30 is inserted into the horizontal , middle Is formed to extend to the point 42, the diameter of the opposite side of the discharge pipe 30 is formed around the intermediate point 42 is formed to be coupled at the intermediate point 42 and the outside air introduced through the air inlet (41) It comprises a mixer 40 is formed to radially spray ground water to be.

Since the air flowing into the intake pipe 10 should be provided with clean air, one end of the intake pipe 10 is preferably made of an elbow having a "c" shape toward the bottom so that air does not flow directly therein. Inlet 11 through which the external air flows from the elbow tube is attached to the insect screen to prevent the intrusion of insects, dust, etc., the air is introduced at a high speed by the Bernoulli principle, the inlet air is intake pipe 10 and It is supplied to the mixer 40 through an air inlet 41 formed on the side of the connected mixer 40.

The water intake pipe 20 is connected to the water intake motor 22 and the water intake motor 22 to increase the water pressure by again pulling up the ground water drawn from the well of the well of the wells of the wells 20, The water supply pipe 23 for transporting and narrowing the discharge port through which the ground water is discharged, the auxiliary intake pipe 24 for sucking air from the outside, and the ground water transferred from the water supply pipe 23 and the auxiliary intake pipe 24 Mixing pipe 25 is formed to mix the air to be sprayed radially is installed, the groundwater drawn up from the well pump 21 is drawn from the intake pipe 20 to the intake motor 21 to the water supply pipe 23 and auxiliary By contacting the air in the mixing tube 25 coupled to the intake pipe 24 increases the radon removal efficiency.

Discharge pipe 30 is vertically mounted on the side of the intake pipe 20, it is preferable that the screw is coupled to facilitate the detachment, a plurality of spaced intervals can be arranged, a predetermined interval on the intake pipe 20 On the outer circumferential portion of the discharge pipe 30 provided in a plurality of spaced apart, the mixers 40 are respectively mounted, and the external air and ground water are combined from the mixer 40 to the water tank 1, and the ground water combined with the external air is combined. It is arranged to be discharged in large quantities.

At this time, the intake pipe 10 connected to the air inlet 41 formed on each side of the plurality of mixers 40 is made of a single tube, a plurality of connection parts connected to each air inlet 41 is formed Air is transferred to each air inlet 41.

In addition, the mixer 40 has a diameter of the intermediate point 42 is formed larger than the diameter of the outlet 31 of the discharge pipe 30 is provided so that the outside air and groundwater is easily coupled, the flat of the water tank (1) As shown in FIG. 3, which is a cross-sectional view, it is connected to the discharge pipe 30 mounted on the water intake pipe 20 installed near the inner circumference of the water tank 1, and is disposed at the edge of the water tank 1. The direction of discharging the combined ground water is installed to face the circumference of the water tank 1 so that the ground water in the water tank 1 is rotated.

According to the first embodiment of the present invention, the water intake pump 22 is inserted into the water tank 1 of the simple water supply facility, and the intake pipe 20 to contact the groundwater and air from the water tank 1 outside, A water supply pipe 23, an auxiliary intake pipe 24, and a mixing pipe 25 are installed, and the water intake pipe 20 which transfers water (ground water) which is diffused from the mixing pipe 25 and is in contact with the discharged air is a water tank. (1) is installed below the water level, and formed with a plurality of discharge pipes 30 extending vertically on one side, the discharge pipe 30, the mixer 40 is extrapolated to the discharge port (inside the mixer 40) 31 to discharge the water through the bar, the mixer 40 is provided with an inner diameter is larger than the outer diameter of the discharge pipe 30 is inserted through the rear surface, the diameter of the outlet 31 is narrow It is provided in a shape corresponding to the discharge pipe 30 formed in a conical shape, the two diameters are increased on both sides around the middle point (42) The cone is formed in a combined form, the water is discharged from the outlet 31 at a high speed by the Bernoulli principle that the speed is increased and the pressure is lowered when the fluid flows through the narrow passage, the middle point ( 42) is radially spread and discharged past. At this time, one side of the mixer 40, the intake pipe 10 through which the external air flows is connected, the intake pipe 10 is the outside air is introduced from the outside of the water tank (1), The outside air is naturally moved from the intake pipe 10 to the mixer 40, mixed with the water quickly discharged through the discharge port 31 of the discharge pipe 30, and discharged radially so that the water in the water tank 1 Flows into. As described above, the present invention allows the outside air to be mixed with water, so that water and air are simply contacted according to the principles of nature without consuming electricity.

At this time, the water combined with the air into the water tank (1) is the edge of the water tank (1) by the mixer 40 disposed in the circumferential direction at the edge of the water tank (1) when flowing into the water tank (1) Discharge toward the bar, the mixer 40 is formed in a shape in which the diameter of the intermediate point 42 is narrowed and the diameter is increased in the direction in which the water is discharged around the intermediate point 42, the water tank is obtained quickly It is introduced into the water of (1), it is provided to be rotated in the water tank (1) as well as sprayed radially and sprayed. The water sprayed from the mixer 40 is ejected from the inside of the water tank 1, hits the inner wall of the water tank 1, is swung, rotates, and comes into contact with air to remove radon.

The mixer 40 may remove radon primarily by combining water and external air therein, and by radiating radially in the water of the water tank 1 to remove radon as well as to remove radon secondaryly. The water accumulated inside is swung by the water, and rotates to widen the surface where water and air contact each other, thereby obtaining a tertiary removal effect in which water is in contact with air and radon is removed. At this time, the radon separated from the air may be provided to be discharged to the outside through the exhaust port 2 formed in the upper end of the water tank (1).

According to the second embodiment of the present invention, the water (ground water) received through the intake pipe 20 extending upwardly above the water level of the water tank 1 flows back from the bottom of the water tank 1 upward along the inner path. Is discharged into the mixer 40 through the discharge pipe 30, the natural contact with the outside air introduced through the intake pipe 10 connected to the mixer 40, the radon is first removed, the water mixed with air The discharging portion is sprayed from the water tank 1 water level upper portion by the mixer 40 made of a conical shape, and spreads in all directions to widen the contact area with the air. The water in contact with the air is the second radon is removed, the water in the water tank (1) in the state of agitation by the water sprayed from the mixer 40 in a state of stagnation, and further contact with the air and the third radon is removed. . The water discharged through the mixer 40 is sprayed on the water surface of the water tank 1, and is sprayed in the circumferential direction at the edge of the water tank 1, the water in the water tank 1 is rotated in contact with the air 4 The radon is removed by car, and the radon separated from the water exits through the exhaust port 2 installed at the upper end of the water tank 1.

Therefore, in the present invention, since the air inlet pipe has a simple structure using Bernoulli's principle, installation is easy, installation cost is low, and does not consume electricity, such as a mountaintop where a power supply device is not provided. It can also be used in the ground, and the groundwater drawn up from the well is pulled into the intake motor installed in the intake pipe to contact the air in the mixing pipe combined with the water intake pipe and the auxiliary intake pipe, and the air introduced from the intake pipe is contacted with the ground water in the conical mixer. By spraying the groundwater combined with air radially and circumferentially from the edge of the water tank, the groundwater is in contact with the air to effectively remove radon, and the groundwater combined with the air in the water tank naturally. Rotating enhances radon removal.

Although specific embodiments have been shown and described in order to illustrate the technical idea of the present invention, the present invention is not limited to the same configuration and operation as the specific embodiments as described above, and various modifications are not limited to the scope of the present invention. It can be carried out within. Therefore, such modifications should also be regarded as belonging to the scope of the present invention, and the scope of the present invention should be determined by the claims below.

       1 is a schematic configuration diagram of a radon removal apparatus according to an embodiment of the present invention.

Figure 2 is a detailed view of the radon removal apparatus according to an embodiment of the present invention.

Figure 3 is an embodiment of a radon removal apparatus according to an embodiment of the present invention.

<Description of the reference numerals for the main parts of the drawings>

1: water tank 2: exhaust port

10: intake pipe 11: inlet

20: intake pipe 21: well motor

22: water intake motor 23: water pipe

24: auxiliary intake pipe 25: mixing pipe

30: discharge pipe 31: discharge port

40: mixer 41: air inlet

42: intermediate point

Claims (7)

In the radon removal device of groundwater flowing into the water tank (1) for liver abnormal tap water, An intake pipe 10 extending from the upper portion of the water tank 1 to the inside and having an inlet 11 through which external air is introduced; An intake pipe 20 extending from the lower portion of the water tank 1 to the inside to transfer groundwater; A discharge pipe 30 mounted perpendicular to the water intake pipe 20 and formed in a conical shape in which an outlet 31 through which the ground water transferred from the water intake pipe 20 is discharged is gradually narrowed; An air inlet 41 through which the external air transferred from the intake pipe 10 flows is formed on the side surface, and the discharge pipe 30 is inserted horizontally and extends up to an intermediate point 42, and the intermediate point 42 ) Is formed in a conical shape that gradually narrows the diameter, the diameter of the opposite side of the discharge pipe 30 is increased around the middle point 42 is formed to radially spray groundwater combined with external air at the middle point 42 A mixer 40; Radon removal apparatus characterized in that it comprises a. The method of claim 1, Radon removal apparatus, characterized in that the exhaust port (2) is formed at the upper end of the water tank (1). The method of claim 1, The intake pipe 10 is, radon removal device characterized in that one end is provided with an ellipsoidal "c" shaped. The method of claim 1, In the intake pipe 20, a water intake motor 22 for drawing ground water, a water intake pipe 23 connected to the intake motor 22 and the outlet for discharge of the ground water is narrowed, and an auxiliary intake pipe for inhaling external air (24), and the radon removing apparatus, characterized in that the mixing pipe 25 is formed to be radially mixed by mixing the ground water transferred from the water pipe (23) and the air transferred from the auxiliary intake pipe (24). The method of claim 1, The discharge pipe 30 is mounted to the intake pipe 20 vertically, radon removal apparatus, characterized in that arranged a plurality of spaced apart. The method of claim 1, The mixer 40, radon removal apparatus characterized in that for spraying ground water coupled with the outside air toward the circumferential direction at the edge of the water tank (1). The method of claim 6, The mixer 40 is a radon removal device, characterized in that the diameter of the intermediate point 42 is larger than the diameter of the outlet 31 of the discharge pipe (30).

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