KR20150090581A - Air Purifier with indoor radon removal device - Google Patents

Abstract

An object of the present invention discharges contaminated air inside a sealed building to the outside in order to maintain indoor air clean. According to the present invention, an indoor radon removal device has an air supply pipe which can supply fresh air to the ceiling of a classroom or the like as well as an air discharge pipe on the floor to suck contaminated air that will be discharged outside. Air supplied through the air supply pipe passes through an air purifier so that fresh and clean air can be supplied to the interior.

Description

Technical Field [0001] The present invention relates to an indoor radon removal device having an air purifier,

The present invention relates to a radon removing device for purifying indoor air, and more particularly, to purify indoor air of a room or a multi-use facility. In particular, radon causing lung cancer comes from radium as a colorless odorless radioactive gas. These radon gasses are detected in school classrooms up to 100 times the standard value, which poses a serious threat to the health of students. In addition, even in multi-use facilities such as department stores, radon is detected above the standard value, which poses a serious threat to the public health.

The present invention provides an indoor radon eliminator equipped with an air purifier in a class room of elementary school, middle school and high school as well as multiple facilities used by many people, thereby supplying oxygen-rich fresh air to improve students' health, .

The classroom of the school is a space where students gather together and learn. The indoor air in the classroom is deficient in oxygen due to the respiration of the students. It is floated with a lot of fine dusts and especially contaminated with pollutants such as radon many.

Radon, which is known to be a murderer of silence, has recently detected 100 times the standard value of the test results of the school classroom. Radon (222Rn) is generated from the radium produced by the uranium fuel, which is a half-life, and the half-life, which is half the number of atoms, is only 3.8 days.

Radon induces 3 ~ 14% of lung cancer worldwide and is the second most powerful lung cancer inducer following tobacco, and the radiation emitted from radon enters the respiratory tract and is adsorbed in some lungs.

Because the radon is in the soil but enters the room through cracks in the floor or wall of the building, the lower the number of the buildings, the higher the concentration of radon. In particular, one-story underground, ringed houses surrounded by soil are vulnerable to radon and are more dangerous to younger children than adults. Young children are more at risk of radon than they are because they have a lot of respiration and body tissue is not growing completely. When they accumulate and accumulate in the alveoli through the respiratory system, they cause lung cancer and cause lung cancer.

In addition, there is a large amount of suspended dust in the indoor air of the classroom depending on the indoor activity of the students, and the fine dust of China affects our country, and the indoor air is polluted.

In addition, asbestos schools that use asbestos as the first-level carcinogen have been found to use asbestos in about 17,000 schools out of 20,000 schools nationwide, increasing the risk to students' health and safety. These schools are likely to use asbestos products in ceiling panels or partitions in classrooms or corridors, which can damage these panels and partitions during school activities and release asbestos fibers. Asbestos is generated by the use of asbestos products and occurs in nature. Inhalation of such asbestos containing natural asbestos can lead to diseases such as respiratory diseases, asbestosis, lung cancer or malignant mesothelioma. It is therefore important to keep the air in the room clean for the health of students who spend a lot of time indoors, such as classrooms.

Other contaminants that reduce indoor air quality include carbon dioxide, carbon monoxide, nitrogen dioxide, bacteria, formaldehyde, volatile organic compounds, and organic aromatic compounds.

The perception that indoor air of a building is a target of management is insufficient, and temperature or air-conditioning-oriented temperature management is all. However, due to the increase of air pollutants and the lack of oxygen due to health problems, many techniques for purifying indoor air have been developed.

Korean Patent No. 10-0842442 discloses a technique relating to a method and an apparatus for improving air quality in a building or a closed space. The technique provides a molecular sieve containing zeolites to remove suspended particles and contaminants such as carbon dioxide in the enclosed space.

Korean Registered Patent No. 10-0842442 (June 26, 2008)

An object of the present invention is to discharge polluted air in an enclosed building to the outside and to keep indoor air clean. Especially, in the case of the school classroom, the activities of the students and the closed classroom space are largely polluted by radon and natural asbestos, which threatens the health of the students. Therefore, it is necessary to protect students' health and improve the learning efficiency by removing these pollutants .

The present invention is intended to facilitate installation in a space such as a conventional classroom, and to maintain the room temperature appropriately while keeping air in the classroom clean.

In addition, the present invention is intended to supplement deficient oxygen in a room such as a classroom so that the indoor oxygen concentration can be maintained at about 20 to 25%.

In order to attain the above object, an indoor radon removing apparatus of the present invention includes an air supply pipe for supplying fresh air to an indoor ceiling portion of a room or the like, and an air discharge pipe for sucking and discharging contaminated air from the floor. The air supplied through the air supply pipe supplies fresh air having passed through the air purifier to the room.

The indoor radon removing apparatus of the present invention comprises an air purifier for sucking outside air to remove contaminants and generating oxygen, and an air supply pipe as a pipe for introducing clean air generated in the air purifier into a room such as a room, The air supply pipe is provided with an inflow opening / closing device for controlling the inflow amount of the air, and the air generated from the air purifier is introduced into the room such as a classroom through the air supply pipe through the opening of the inflow opening / The air passing through the inflow opening of the supply pipe passes through the inflow air filter and is eventually filtered once more.

The contaminated air in the room is sucked through the polluted air intake port when the discharge switch is opened by the operation of the dust collector, and the contaminated air sucked through the air discharge pipe is discharged through the dust collector. The polluted air is filtered by the exhaust air filter which primarily filters the room air when polluted air is discharged.

The air cleaner and the dust collector are actuated or stopped by the control of the central control unit.

The indoor radon removal apparatus further includes a detector such as a radon installed in the room, and the measurement value of the radon is transmitted to the central control unit, and the air cleaner and the dust collector are operated or stopped by the command of the central control unit according to the detected amount of radon.

The indoor radon remover of the present invention is intended to remove radon called dead gas, and it has been found that radon of more than 100 times of 148 당 (becquerel) per cubic meter recommended standard in the room such as a classroom is detected. The present invention is to remove radon which pollutes rooms such as a classroom, and to improve the health of students by removing pollutants of the classroom. Because radon is heavier than air, it is possible to keep the inside of the classroom safe from radon all the time by releasing ladon gas that has settled down to the bottom of the room by operating the dust collector in the quiet state.

In addition, by using the radon elimination device of the present invention, the airborne dust, carbon dioxide, carbon monoxide, nitrogen dioxide, bacteria, formaldehyde, volatile organic compounds and organic aromatic compounds, which are contaminants in the classrooms, To maintain the health of.

The radon-removing apparatus of the present invention is effective in removing pollutants in rooms such as classrooms contaminated with asbestos such as natural asbestos. Natural asbestos is mainly caused by buildings using asbestos, but natural asbestos of unknown origin is a problem. The present invention improves the health of students by replacing the classrooms contaminated with asbestos with clean and fresh air .

In order to solve the problem that the student easily feels fatigued and the efficiency of learning deteriorates due to the lack of oxygen in the classroom, when fresh air is supplied to the inside of the classroom by the air purifier, the oxygen of the air introduced by the oxygen generator attached to the air purifier The concentration can be maintained at 20 ~ 25%, and sufficient air can be supplied to the room.

1 is a flow chart of an indoor radon elimination system by the radon eliminating apparatus of the present invention
Fig. 2 is a layout diagram of the radon eliminating apparatus of the present invention
3 is a perspective view of a school building equipped with a radon removing device of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an indoor radon removing apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that the present invention is not limited to the disclosed embodiments, but may be embodied in many different forms and should not be construed as being limited to the exemplary embodiments set forth herein, It is provided to inform.

From December 2011 to May 2012, the National Institute of Environmental Research (NIER) measured the radon concentrations in single-family, multi-family, multi-family homes and apartments nationwide.

Radon, which causes lung cancer in elementary schools, was found to be up to 12 times higher than the standard value.

89 percent (13.5 percent) of the 660 elementary schools nationwide had an annual average of more than 148 becquerels (㏃ / ㎥). In some local schools, 1788 becquerels (㏃ / ㎥), which is 12 times more than the standard, were detected. In addition to being polluted by radon, general households are also polluted with radon pollution in the schoolroom where young students are still growing. In addition to pollution such as floating dust and pollutants such as carbon dioxide, carbon monoxide, nitrogen dioxide, bacteria, formaldehyde, volatile organic compounds and organic aromatic compounds, classroom contamination is serious as well as radon which is a carcinogen.

When students live in an enclosed classroom that does not ventilate, the concentration of oxygen is reduced by 17 to 18 percent, significantly reducing student learning. On the other hand, the concentration of carbon dioxide increases by more than 5000ppm, and the amount of suspended pollutants increases, which not only deteriorates the concentration of students' learning but also poses a serious threat to the health of the students in their growing period.

When indoor air is circulated by using the indoor radon remover of the present invention, the concentration of oxygen is increased to 20 to 25%, thereby improving the concentration of students.

Radon is formed by radioactive decay of radium (Ra), which occurs when uranium in many types of rocks collapses naturally. Radon is a colorless, odorless, tasteless, heavy, radioactive gas, 7.5 times lighter than air, 100 times lighter than hydrogen, liquefied at -61.8 ° C and frozen at -71 ° C. It has been found that natural radon gas can cause serious harm to the human body. Radon gas from soils and rocks seeps through the foundation, basement, and pipe of the building and can accumulate in the air of the house which is not well ventilated. Exposure to high concentrations of radon gas for many years can increase the risk of lung cancer. In fact, it is accepted that radon is the most important factor in lung cancer induction in non-smokers living in the United States. The amount of radon is highest in houses built on geological layers containing sediments of uranium minerals.

FIG. 1 is a flow chart of an indoor radon removing system according to the present invention. FIG. 2 is a layout diagram of the radon removing apparatus of the present invention. FIG. 3 is a perspective view of a school building equipped with the radon removing apparatus of the present invention.

As shown in FIGS. 1 and 2, the indoor radon remover of the present invention includes an air supply pipe 110 for supplying fresh air to an indoor ceiling portion of a room or the like, and air A discharge pipe 100 is installed. The air supplied through the air supply pipe 110 supplies fresh air having passed through the air purifier 40 to the room.

The operation of the indoor radon eliminating device is performed by first connecting an air purifier (40) for sucking outside air to remove contaminants and generating oxygen, and an air supply pipe (110) as a pipe for introducing clean air generated from the air purifier The air supply pipe 110 is provided with an inlet switch 50 for controlling the inflow amount of the air and the air generated from the air purifier 40 is supplied to the air supply pipe 110 through the opening of the inlet switch 50 Fresh air flows into the room such as a room through the fresh air outlet 111. The air that has passed through the inlet switch 50 of the air supply pipe 110 passes through the inlet air filter 60, The substance is filtered once more.

When the discharge switch 55 is opened by the operation of the dust collector 80, the contaminated air in the room is sucked through the polluted air intake port 101. The contaminated air sucked is passed through the air discharge pipe 100, (80). The polluted air is filtered by the exhaust air filter 65 which primarily filters the room air when the polluted air is exhausted.

A metallic mesh is provided at the entrance of the polluted air intake port 101 to prevent large foreign matter from being sucked into the polluted air intake port.

The air cleaner 40 and the dust collector 80 are activated or stopped by automatic control or manual control of the central control device 10. [ When the central control unit 10 is manually controlled, the operation time is set to a timer, and the operation is stopped after the air purifier 40 and the dust collector 80 have been operated for a set period of time.

The air cleaner 40 is constituted by an inlet fan or a discharge fan for sucking air, and a filter assembly composed of a pre-filter and a deodorizing filter is formed on the front surface or the back surface of the inlet fan or the discharge fan, A filter may be further configured.

The pre-filter is composed of a very fine dead cell, which removes harmful substances in the air, and can remove molds or a part of bacteria by antibacterial treatment. The pre-filter is used by washing with water.

The deodorizing filter constituting the filter assembly is a filter capable of removing malodorous and noxious gases, and is made of activated carbon.

The further constituted HEPA filter is a precise filter capable of removing 85 to 99.9% of fine dust of 0.0003 cm and capable of removing yellow sand, mites and mold. The HEPA filter is antimicrobial, and in case of an antiviral HEPA filter, it is possible to remove viruses and allergic harmful substances.

The air purifier 40 is connected to an oxygen generator for extracting oxygen in the air so that the concentration of oxygen is included in the introduced air at a ratio of 20 to 25%. The oxygen generated from the oxygen generator is mixed with the purified air of the air purifier and is introduced into the room such as the classroom through the air supply pipe 110. If oxygen content of 30% or more is mixed in the air introduced through the air supply pipe 110, oxygen in the indoor or school classroom may be caused to the students, so that oxygen of 30% or more is not mixed.

The inflow air filter 60 formed in the air supply pipe 110 and the discharge air filter 65 formed in the air discharge pipe 100 are made of a fiber material for filtering foreign substances in the air and can be repeatedly used for cleaning.

A strong air blowing fan is formed in the dust collector mounted on the air discharge pipe 100 to discharge polluted air from the room to the outside and a fiber air filter is installed on the front or rear surface of the blowing fan, It filters out suspended substances.

The indoor radon removing apparatus further includes a detector 20 such as a radon and an oxygen detector installed in the room to transmit a radon or oxygen measurement value to the central controller 10, The air purifier 40 and the dust collector 80 are activated or stopped.

The radon detector 20 is installed at the bottom of the room to automatically measure the indoor radon level and transmit the measurement result to the central control unit. The radon detector comprises a radon meter capable of measuring radon that changes in real time. The radon meter includes a lagoon gas detector for detecting radon gas collected in a closed container for capturing radon through periodical communication during a measurement set time according to a command from a central control unit, A parameter setting unit for preliminarily setting a measurement time interval and a final measurement time to be actually measured and inputting the measured value and a lardon gas contained in the classroom air from the radon sampling device into a sealed container for the collection of radon A radon content calculating unit for calculating a radon content by subtracting the data detected from the lardon gas detecting unit from the initial radon content value of the parameter setting unit to match a preset value to calculate a radon content collected in the airtight container for collecting the air ladon, A content calculating unit, and an indoor radon measuring unit, And the radon content data calculated by the radon content calculating unit are stored in the storage unit, and also the user input application program (Man Machine Interface: MMI) and the indoor air radon A memory for storing an operating program of the measuring instrument, and a radar content data stored in the memory, so that the manager can check the data in real time in the central control device through the wire / wireless communication device.

A humidifier is installed in the air supply pipe 110 in order to maintain an appropriate humidity of a room such as a classroom. In general, the room humidity is known to be about 50 to 55% relative humidity. The humidifying device supplies water supplied from a water tank to the air supply pipe 110 through nozzles in a spray mode to supply fresh air having a high water content to the inside of the room.

10: Central control device 20: Detector
30: Suction process 40: Air purifier
50: inlet switch 55: exhaust switch
60: inlet air filter 65: exhaust air filter
70: room 80: dust collector
90: Discharging process 100: Air discharge pipe
101: polluted air intake port 110: air supply pipe
111: Fresh air outlet 200: Big floor
300: Building

Claims (6)

In the indoor radon removing device,
The radon eliminating apparatus includes an air purifier for sucking outside air to remove contaminants and generate oxygen; And
An air supply pipe for introducing clean air generated from the air cleaner into a room such as a classroom; And
An inflow opening / closing valve installed in the air supply pipe and controlling an inflow amount of clean air; And
A fresh air discharge port installed at an end of the air supply pipe and discharging clean air into the room; And
A dust collector for discharging contaminated air in the room; And
An air discharge pipe for discharging the contaminated air to the outside by the suction force of the dust collector; And
An exhaust switch for opening and closing the air flow of the air discharge pipe by operation of the dust collector; And
A polluted air intake port located at an end of the air discharge pipe and sucking polluted air in the room; And
And a central control unit for controlling operation of the air cleaner and the dust collector.
The method according to claim 1,
Wherein the air cleaner comprises an inlet fan or a discharge fan for sucking air, and a filter assembly composed of a pre-filter and a deodorizing filter is formed on a front surface or a rear surface of the inlet fan or the discharge fan.
3. The method according to claim 1 or 2,
And a HEPA filter is additionally installed in the filter assembly composed of the pre-filter and the deodorizing filter.
The method according to claim 1,
Wherein the indoor radon eliminating device includes an inflow air filter installed in an air supply pipe to filter contaminants of air flowing through the inflow opening and closing device by operation of an air purifier of the central control device; And
And a discharge air filter installed in the air discharge pipe for filtering contaminants of the indoor polluted air discharged when the indoor air is discharged through the air discharge pipe by operation of the dust collector of the central control device. Device.
The method according to claim 1 or 4,
The indoor radon elimination apparatus further includes a radon or oxygen detector installed in the room, and the measured values of radon and oxygen are transmitted to the central control apparatus, and the air purifier and the dust collector operate according to the detected amount of radon and oxygen Or stopping the indoor radon.
The method according to claim 1 or 4,
Wherein the indoor radon removing device supplies water supplied from a water tank through a nozzle in a spray mode so as to supply fresh air having a high water content to a room to maintain the indoor humidity at 50 to 55% .

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