KR102100027B1 - Apparatus for managing air to reduce indoor radon concentration using compressed air - Google Patents

Abstract

The present invention discloses an air management device using compressed air to suppress the influx of radon. The present invention has the advantage of supplying compressed air stored in the compressed air storage unit to the room so that the indoor pressure is higher than atmospheric pressure to maintain a positive pressure of a certain size, thereby suppressing the inflow of radon and supplying fresh air. .

Description

Air management system using compressed air to suppress the influx of radon {APPARATUS FOR MANAGING AIR TO REDUCE INDOOR RADON CONCENTRATION USING COMPRESSED AIR}

The present invention relates to an air management apparatus using compressed air that suppresses the inflow of radon, and more specifically, air management using compressed air that suppresses the inflow of radon by supplying compressed air so that the indoor pressure maintains a positive pressure. It is about the device.

Various harmful substances and ultra-fine dust generated in the indoor or basement, which is the space where we live, appear to be pollutants that pollute the indoor air, and the pollutants contain radon, which is the natural radioactivity of particulates.

Contaminated indoor air is discharged to the outside to be removed, and fresh outdoor air is supplied to maintain a pleasant indoor environment.

In the ventilation method, natural ventilation and a blower are installed in which ventilation of the room is performed using the specific gravity difference of air according to the temperature difference between indoor and outdoor, or wind power, etc., through an opening (generally, a window system) of a building. Therefore, there is forced ventilation (or mechanical ventilation) for ventilation by forcibly supplying air to the room or forcibly discharging indoor air.

However, natural ventilation to ventilate through a window may cause a problem that strong wind is introduced into the room or rainwater or dust is introduced into the room, and outside air contaminated by yellow dust or air pollution is directly introduced into the room. There is a problem affecting indoor air hygiene.

In addition, the air purifier installed in the room mainly purifies contaminants from the air introduced into the room, and can remove fine dust and the like contained in the room air, but there is a problem that harmful substances such as radon cannot be removed.

In addition, the air conditioner (air conditioning unit) that supplies indoors by using outdoor air is installed so that the duct or the connecting pipe connecting the outdoor unit and the indoor unit is installed so as to penetrate the wall of the building or be buried in the ceiling. , When the installation is completed, there is a problem that it is difficult to move the air conditioner to another location and reinstall it.

Korean Patent Application Publication No. 10-2014-0074047 (Name of invention: Air conditioning device and control method of air conditioner)

In order to solve this problem, an object of the present invention is to provide an air management device using compressed air to supply compressed air so that the indoor pressure maintains a positive pressure to suppress the indoor inflow of radon.

In order to achieve the above object, the present invention is installed in an indoor space to detect the concentration of harmful substances and the indoor air pressure, and when the detected concentration of the harmful substances is greater than or equal to a preset reference value, the compressed air stored in the compressed air storage unit It characterized in that it is supplied to the indoor space to control the indoor air pressure to maintain a positive pressure of a certain size higher than atmospheric pressure.

In addition, the air management apparatus according to the present invention includes a sensor unit for detecting harmful substances distributed in the indoor space; An indoor pressure detection unit detecting indoor air pressure in the indoor space; If the concentration of the analyzed harmful substances is greater than or equal to a preset reference value by analyzing the concentration of the harmful substances detected by the sensor unit, the compressed air stored in the compressed air storage unit maintains a positive pressure having a predetermined size higher than the atmospheric pressure. A control unit controlling to be discharged to the indoor space; Compressed air is stored, compressed air storage unit for discharging the stored compressed air according to the operation of the control unit; A valve that controls the compressed air stored in the compressed air storage unit to be selectively discharged according to the operation of the control unit; And it characterized in that it comprises a display unit for displaying the operating state of the air management device.

In addition, the air management apparatus according to the present invention is characterized in that it further comprises a residual pressure detection unit for detecting the pressure of the compressed air remaining in the compressed air storage unit.

In addition, the air management apparatus according to the present invention is characterized in that it further comprises an air purifying unit for sucking and purifying at least one of indoor air and outdoor air, and supplying the purified air to the indoor space.

In addition, the compressed air storage unit according to the present invention is characterized in that configured to be detachable to the air management device.

In addition, the compressed air storage unit according to the present invention is characterized in that it comprises an antimicrobial material and a filler that releases any fragrance.

In addition, the compressed air storage unit according to the present invention is characterized in that it further comprises a compressor for sucking and compressing at least one of indoor air and outdoor air, and supplying the compressed air to the compressed air storage unit.

In addition, the indoor air and the outdoor air compressed by the compressor according to the present invention is characterized in that the air purified through the air purification unit.

In addition, the harmful substances according to the present invention is characterized in that it contains radon, fine dust.

In addition, the air management device according to the present invention is characterized by having a wheel to be movable.

The present invention has an advantage that can suppress the inflow of the radon by supplying compressed air to maintain a positive pressure of a certain size higher than the atmospheric pressure.

1 is an exemplary view showing a state of use of the air management apparatus using compressed air to suppress the inflow of radon according to the present invention.
Figure 2 is a block diagram showing an embodiment of an air management apparatus using compressed air to suppress the influx of radon according to the present invention.
Figure 3 is a cross-sectional view schematically showing the structure of the air management apparatus using compressed air to suppress the inflow of radon according to FIG.
Figure 4 is a block diagram showing another embodiment of the air management apparatus using compressed air to suppress the inflow of radon according to the present invention.
5 is a cross-sectional view schematically showing the structure of an air management apparatus using compressed air to suppress the inflow of radon according to FIG. 4.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the air management apparatus using compressed air to suppress the influx of radon according to the present invention.

In the present specification, the expression that a part “includes” a certain component does not exclude other components, but means that other components may be further included.

In addition, terms such as "‥ unit", "‥ group", "‥ module" mean a unit that processes at least one function or operation, which can be divided into hardware or software, or a combination of the two.

(First Example)

1 is an exemplary view showing a state of use of an air management device using compressed air to suppress the inflow of radon according to the present invention, and FIG. 2 is an air management device using compressed air to suppress the inflow of radon according to the present invention It is a block diagram showing an embodiment, and FIG. 3 is a cross-sectional view schematically showing the structure of an air management apparatus using compressed air to suppress the inflow of radon according to FIG.

1 to 3, the air management device 100 according to the present invention is installed in the indoor space 200 to detect the concentration of harmful substances and the indoor air pressure, and the concentration of the detected harmful substances is set in advance If the reference value is greater than or equal to the reference value, the compressed air stored in the compressed air storage unit 150 is supplied to the indoor space 200 to control the indoor air pressure to maintain a positive pressure higher than atmospheric pressure, the housing 101 and the switch unit ( 110), a sensor unit 120, an indoor pressure detection unit 130, a control unit 140, a compressed air storage unit 150, a valve 160, a display unit 170, and a residual pressure detection unit 180 ) And an air purification unit 190.

The housing 101 is a hexahedral or cylindrical member with a storage space formed therein, a switch unit 110, a sensor unit 120, an indoor pressure detection unit 130, a control unit 140, and compressed air. The storage unit 150, the valve 160, the display unit 170, the residual pressure detection unit 180, and the air purification unit 190 are installed.

In addition, the housing 101 has a compressed air supply pipe 102 that connects with the compressed air storage unit 150 and an exhaust port 103 that allows compressed air supplied from the compressed air storage unit 150 to be discharged into the room. It is provided, and one side may be configured with an intake port 104 for sucking indoor air or outdoor air.

That is, the exhaust port 103 allows compressed air supplied through the compressed air supply pipe 102 and indoor or outdoor air sucked through the intake port 104 to be discharged.

In addition, the housing 101 is provided with a plurality of wheels 105 at the bottom to allow the air management device 100 installed at an arbitrary position to move to another position.

The switch unit 110 is configured to receive on / off operation signals and arbitrary operation setting signals of the air management device 100 from a user and output them to the control unit 140, and includes a variety of button switches, keypads, and touch screen panels. It can be configured as an input device.

The sensor unit 120 is installed in the housing 101 to detect harmful substances distributed in the indoor space 200, the harmful substance is radon, and the sensor unit 120 is radon contained in the indoor air Provides by detecting in real time.

In addition, the sensor unit 120 may be further configured to detect harmful substances such as fine dust and ultrafine dust in addition to radon.

The indoor pressure detection unit 130 is installed in the housing 101 to detect the indoor air pressure in the indoor space 200.

The control unit 140 is a configuration that controls the overall operation of the air management device 100, and analyzes the concentration of the harmful substances detected by the sensor unit 120 to set the concentration of the analyzed harmful substances, i.e., radon, in advance. Compared with the reference value for supply determination, and when the analyzed radon concentration is greater than or equal to the reference value, the compressed air stored in the compressed air storage unit 150 is discharged into the indoor space 200 so that the indoor air pressure maintains a positive pressure of a certain size higher than atmospheric pressure. The operation control signal is output as much as possible.

In other words, the control unit 140 is a positive pressure (R.Prill, WJ Fisk, 2002, Long term performance of Radon Mitigation System, Proceeding Indoor Air 2002, the air pressure of the indoor space 200 is at least 5 Pascal (Pa) than atmospheric pressure) American Environmental Laboratories, pp 641 ~ 646) to prevent compressed air stored in the compressed air storage unit 150 from being discharged into the room due to positive pressure of radon discharged from the side walls or floor of the building.

In addition, the control unit 140 detects the indoor air pressure at regular time intervals, so that the compressed air stored in the compressed air storage unit 150 maintains a positive pressure of a certain size, the indoor air pressure being higher than the atmospheric pressure, the indoor space 200 Outputs the operation control signal to be discharged.

In addition, when a request to remove fine dust or the like is input in addition to the radon, the control unit 140 sucks indoor air through the intake port 104 and purifies it in the air purification unit 190, and then the indoor space through the exhaust port 103 The air purifying unit 190 is discharged to 200 or the outdoor air is supplied through a connector (not shown), and then the outdoor air is purified by the air purifying unit 190 to be discharged to the indoor space 200 ) To output the operation control signal.

In addition, the control unit 140 compares the storage pressure of the compressed air storage unit 150 detected by the residual pressure detection unit 180 with a preset reference pressure for replacement determination, and as a result of the comparison, the detected storage pressure is equal to or lower than the reference pressure. If so, an alarm signal is output to display alarm information for exchange through the display unit 170.

The compressed air storage unit 150 is made of a compressed container (or cylinder) of a certain size, the compressed air is stored in a certain capacity therein, and the stored compressed air is moved to the indoor space according to the operation signal of the control unit 140 To be discharged.

In addition, the compressed air storage unit 150 is detachably installed in the air management device 100 to be replaced when all the stored compressed air is exhausted.

In addition, the compressed air storage unit 150 may be configured to include, for example, vitamins, phytoncide, etc., which emit antibacterial substances and any fragrance together with compressed air.

In addition, the compressed air storage unit 150 may be composed of compressed air containing a high concentration of oxygen, or may be made of compressed air including fresh air collected in an arbitrary clean area.

The valve 160 is installed on the outlet side of the compressed air storage unit 150, and performs an on / off operation according to an operation signal output from the control unit 140 to compress air stored in the compressed air storage unit 150 Is controlled to be selectively discharged.

The display unit 170 is a configuration for displaying the operating state of the air management device 100, is made of a display means such as LED, LCD, may be configured as a touch screen capable of input / output.

The residual pressure detection unit 180 is installed at the outlet of the compressed air storage unit 150 or the compressed air supply pipe 102 to detect the storage pressure of compressed air remaining in the compressed air storage unit 150, and the detected storage pressure Information is transmitted to the control unit 140.

The air purification unit 190 is installed in the housing 101 to intake indoor air or outdoor air to purify harmful substances and then discharge them, and a filter unit 191 for filtering fine dust or ultra fine dust, etc. , It is made of a blower fan 192 that allows the air filtered by the filter unit 191 to be discharged to the indoor space 200 through the exhaust port 103.

The following describes the operation process of the air management device 100 according to the present invention.

When the air management device 100 is installed at an arbitrary position in the indoor space 200, the control unit 140 detects the concentration of harmful substances, that is, radon, distributed in the indoor space 200 through the sensor unit 120.

If the detected concentration of radon is greater than or equal to a preset reference concentration value, the control unit 140 outputs an operation signal so that the valve 160 is turned on, so that the compressed air stored in the compressed air storage unit 150 extracts the exhaust port 103. To be supplied indoors.

Thereafter, the control unit 140 detects the indoor air pressure through the indoor pressure detection unit 130 to control the indoor air pressure to maintain a positive pressure having a predetermined size higher than atmospheric pressure, and the purified air through the air purification unit 190 An operation signal is output to the air purification unit 190 to be supplied.

(Second example)

4 is a block diagram showing another embodiment of the air management apparatus using compressed air to suppress the inflow of radon according to the present invention, and FIG. 5 is an air management apparatus using compressed air to suppress the inflow of radon according to the present invention. It is a cross-sectional view schematically showing the structure of.

First, repeated descriptions of the same components as in the first embodiment are omitted, and the same reference numerals are used for the same components.

4 and 5, the air management device 100a according to the second embodiment is installed in the indoor space 200 to detect the concentration of harmful substances and the indoor air pressure, and the detected concentration of harmful substances If it is equal to or greater than a preset reference value, the compressed air stored in the compressed air storage unit 150a is supplied to the indoor space 200 to control the indoor air pressure to maintain a positive pressure of a certain size higher than atmospheric pressure, the housing 101 ), The switch unit 110, the sensor unit 120, the indoor pressure detection unit 130, the control unit 140, the compressed air storage unit 150a, the compressor 151, and the valve 160 And a display unit 170, a residual pressure detection unit 180, and an air purification unit 190.

The air management device 100a according to the second embodiment is different from the configuration of the air management device 100 according to the first embodiment in the configuration of the compressed air storage unit 150a and the compressor 151.

The compressed air storage unit 150a according to the second embodiment sucks any one of indoor air or outdoor air and stores it as compressed air, and the compressed air is compressed through the compressor 151 to store the compressed air It is to be stored in the unit (150a).

That is, the compressed air storage unit 150a according to the second embodiment is fixedly installed inside the housing 101, and indoor or outdoor air sucked through the compressor 151 is stored in the compressed air storage unit 150a. do.

In addition, the indoor or outdoor air compressed by the compressor 151 passes through the air purification unit 190 so that the purified air is compressed.

Meanwhile, when the air pressure of the compressed air storage unit 150a detected by the residual pressure detection unit 180 is equal to or less than a preset predetermined pressure, the control unit 140 outputs an operation signal to operate the compressor 151 to store the compressed air. The unit 150a allows a predetermined amount of compressed air to be maintained.

Therefore, by supplying compressed air stored in the compressed air storage unit to the room, the indoor pressure is higher than atmospheric pressure to operate to maintain a positive pressure of a certain size, thereby suppressing the inflow of radon and supplying fresh air.

As described above, although described with reference to preferred embodiments of the present invention, those skilled in the art will variously modify and change the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. You can understand that you can.

In addition, the drawing numbers described in the claims of the present invention are merely for clarity and convenience of description, and are not limited thereto. In the course of explaining the embodiment, the thickness of the lines or the size of components shown in the drawings, etc. May be exaggerated for clarity and convenience of description, and the above-described terms are terms defined in consideration of functions in the present invention, and may be changed according to the intention or custom of the user or operator, and thus, interpretation of these terms Should be made based on the contents throughout this specification.

100, 100a: air management device 101: housing
102: compressed air supply pipe 103: exhaust port
104: intake port 105: wheels
110: switch unit 120: sensor unit
130: indoor pressure detection unit 140: control unit
150, 150a: compressed air storage unit 151: compressor
160: valve 170: display unit
180: residual pressure detection unit 190: air purification unit
191: filter unit 192: blowing fan
200: indoor space

Claims (10)

A housing 101 provided with wheels 105 so as to be movable from any position in the indoor space 200 to another position;
A sensor unit 120 installed in the housing 101 to detect harmful substances distributed in the indoor space 200;
An indoor pressure detection unit 130 installed in the housing 101 to detect indoor air pressure in the indoor space 200;
When the concentration of the analyzed harmful substances is greater than or equal to a preset reference value by analyzing the concentration of the hazardous substances detected in the sensor unit 120 installed in the housing 101, the indoor air pressure is higher than atmospheric pressure, and a positive pressure of a certain size The compressed air stored in the compressed air storage unit 150 is controlled to be discharged to the indoor space 200 to maintain, and the storage pressure of the compressed air storage unit 150 is compared to a preset reference pressure for replacement determination, and is below the reference pressure. Control unit 140 for controlling so that an alarm signal for the exchange of the compressed air storage unit 150 is output through the display unit 170;
The housing 101 is detachably installed to store compressed air compressed with high concentration of oxygen or fresh air collected from any clean area, and discharges the stored compressed air according to the operation of the control unit 140, A compressed air storage unit 150 having an antimicrobial material discharged together with the compressed air and a filling material emitting any fragrance;
A valve 160 installed in the housing 101 and controlling the compressed air stored in the compressed air storage unit 150 to be selectively discharged according to the operation of the control unit 140;
A display unit 170 installed in the housing 101 and displaying an operation state of the air management device;
A residual pressure detection unit 180 installed in the housing 101 to detect the pressure of compressed air remaining in the compressed air storage unit 150 and outputting it to the control unit 140; And
A filter unit 191 for inhaling and purifying at least one of indoor air and outdoor air, and a blower fan 192 for supplying air filtered by the filter unit 191 to the indoor space 200 through the exhaust port 103 Air purification unit (190) having; Air management device using compressed air to suppress the inflow of radon, characterized in that it comprises a. delete delete delete delete delete delete delete According to claim 1,
The harmful substances are radon, air management device using compressed air to suppress the influx of radon, characterized in that it contains fine dust. delete

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