KR102228805B1 - Air Pressure-Based Fine Dust Isolation System - Google Patents

Abstract

Regarding the indoor air cleaning system using air pressure of the present invention, a blower 10 for introducing air purified by a HEPA filter into the room, an exhaust blower 15 for discharging the air inside the room to the outside, and the blower 10 And the exhaust blower 15 relates to an indoor air cleaning system for providing a clean indoor environment by interlocking with the controller 50 to control the air inside the room.
The controller 50 of the present invention is installed in each indoor of a school, office, home, etc., and a data transmission unit for transmitting air pressure information of an air pressure measuring device installed in each room and indoor pollution information of an indoor air measuring device from the controller to a central processing unit. And the central processing unit collects and stores the information transmitted from the room in a database, and the central processing unit determines and controls whether or not a controller in each room is operated.

Description

Indoor air cleaning system using air pressure and indoor air quality cleaning method using the same {Air Pressure-Based Fine Dust Isolation System}

The present invention relates to an indoor air cleaning system using air pressure and an indoor air quality cleaning method using the same, and more particularly, by introducing clean air purified by an air purifier equipped with a HEPA filter into a classroom, etc. The present invention relates to an indoor air cleaning system using air pressure that prevents air contaminated by external fine dust from entering the room by maintaining it higher than the air pressure, and an indoor air quality cleaning method using the same.

In general, the role of a window is a light-emitting role to receive light and a function to ventilate indoor air. If you live with the window closed for a long period of time with the room closed for a long time, the indoor air is polluted, and this contaminated indoor air acts as a factor causing many diseases to the human body.

In addition, since air containing soot flows directly into the room in the process of simply introducing outside air through the inside of existing windows, not only does it lose the function of ventilation itself, but in more severe cases, outside air that is worse than indoor air flows in. And pollute the indoor air.

When indoor air is contaminated, it causes many diseases in the human body. In particular, various dusts and microorganisms in the contaminated air cause respiratory diseases and various allergies. In addition, various pollutants are also discharged from indoor building materials. For example, formaldehyde, volatile organic matter, and asbestos powder can cause headache, cough, itchiness, dizziness, fatigue, decreased concentration, and even heart disease and cancer.

Therefore, it is desirable to ventilate the interior and exterior to frequently ventilate the air so that various dusts, microorganisms, and pollutants do not accumulate in the interior.

However, in the conventional window, since the entire window is opened during ventilation, there is a problem in that strong wind flows in or a large amount of rainwater or dust from outside flows into the room.

On the other hand, as a conventional technique, 10-2006-0013328 "Indoor Air Purification Device" has been published.

The indoor air purifying device supplies an indoor air inlet to purify indoor air, an outdoor air inlet to purify the outdoor air, and to supply purified air to the indoor while purifying the air introduced from the indoor and outdoor air inlet. It is an additional configuration.

However, since the purged air supply unit of the conventional indoor air purifying apparatus as described above has a duct including an air collecting unit that collects indoor and outdoor air by interlockingly connecting the indoor and outdoor air inlets, The introduced air cannot increase the indoor air pressure.

This is because, before the air introduced through the outdoor air inlet increases the indoor air pressure, the indoor air is re-introduced through the indoor air inlet and flows into the purified air supply unit.

In addition, since the blower installed in the indoor air purification device controls the flow of air due to its structure, it is not possible to increase the indoor air pressure by the blower.

In addition, the indoor air purifying device cannot increase indoor air pressure, and because external air flowing into the room through a blower is convective indoors, outdoor air is introduced through doors and windows, so that the indoor air is transferred to the purified clean air. There is a problem that is difficult to maintain.

In particular, the indoor air purifying apparatus also has a problem in that noise generated from a blower flows into the room, thereby generating noise indoors.

In addition, as a conventional technique, 20-0006024 "winding device for a window equipped with a long operating lever" has been disclosed.

The ventilation device for windows has a problem that a facility capable of measuring the concentration of fine dust indoors is not provided.

In addition, there is a cumbersome problem in that a blower through indoor pressure is not provided and the operation must be manually controlled.

In addition, there is a problem that a device that can increase indoor air pressure is not provided, and there is no facility that is controlled through a user's terminal or an automatic controller in connection with a purification device provided in the room, and it is operated by passive activities. .

Unexamined Patent Publication No. 10-2006-0013328 (2006.02.09) (Utility Model Document 1) Public Utility Model Publication No. 20-2010-0006024 (2010. 06. 15)

The present invention was conceived to solve all the problems as described above, and its object is to keep the indoor air clean by introducing cleanly purified air into the room such as classrooms, and to prevent the inflow of contaminated air from the outside. It is to block and provide an indoor air cleaning system using air pressure.

In addition, the present invention is to provide a comfortable state by circulating the indoor air with a circulation fan of a cold or hot air fan when clean air is introduced into a room such as a classroom and the room is in a comfortable state.

In order to achieve the above object, the indoor air cleaning system using the air pressure of the present invention includes a blower 10 that purifies the outside air and blows it into the room, an air pressure meter 11 that measures the indoor air pressure, and the indoor air. Measurement information such as an indoor air meter 14 that measures the state of air quality, such as temperature, pollutants such as radon, and fine dust or ultrafine dust concentration, is sent to the controller 50, and the controller 50 The indoor environment, that is, indoor temperature, pressure, fine dust and ultrafine dust concentration, radon concentration, etc. can be set to maintain an appropriate state of pollutants, and the blower 10 and the hot and cold fan 13 according to the setting of the controller And the exhaust blower 15 is interlocked to be operated.

When clean air continuously flows into the room through the blower 10, the air pressure inside the room is kept slightly higher than the outside because it is not easy to discharge air to the outside in the closed room. It is prevented from entering. In other words, the interior is always maintained in a pleasant clean air quality state.

In addition, if the indoor air pressure measured by the air pressure meter 11 is atmospheric pressure or less than atmospheric pressure, the controller 50 commands the operation of the blower 10 to introduce clean air into the room. By setting the appropriate air pressure, the operation of the blower is controlled.

In addition, indoor air quality conditions such as indoor fine dust concentration, ultra-fine dust concentration, radon concentration, and oxygen concentration are measured, and if it is worse than the indoor air quality condition set in the controller 50, the blower 10 is operated to Controls the inflow of clean air into the room.

The indoor air quality is clean, and under an appropriate temperature and pressure, the controller 50 circulates the indoor air by operating the operating fan (not shown) of the cold and hot air fan 13, and when the indoor temperature is low or high, a warmer or It is controlled by the controller so that the cooling fan is operated together.

The exhaust blower 15 normally blocks the exhaust blower so that indoor air is suppressed from being discharged to the outside, and when the indoor air is excessively contaminated or there is a need to discharge, the exhaust blower 15 is operated. Controlled by.

In addition, the controller 50 receives air quality data measured from the indoor air meter 14 and the air pressure meter 11 and operates the blower when there is a difference from the set value. The air quality data sent to the controller 15 is processed by the central processing unit, and the processed information is stored in a database.

The present invention is an indoor air cleaning system using air pressure, in order to keep the indoor air such as classrooms clean by introducing purified clean air into the room.

In addition, the present invention has the effect of preventing the introduction of bad outdoor air through gaps such as windows by maintaining the indoor air pressure higher than the outside or atmospheric pressure when air is introduced into the room.

In addition, it is to keep the indoor air clean by preventing the increase in nitrogen concentration and fine dust in the room depending on breathing or activities.

In addition, by removing contaminants such as radon or fiber that may be contained in the indoor air, it prevents respiratory diseases by keeping the indoor air quality clean for office workers, housewives, and family members who spend a lot of time indoors. It is to keep the indoor air environment comfortable.

1 is a plan view of an indoor air cleaning system using air pressure of the present invention
2 is a perspective view of an indoor air cleaning system using air pressure of the present invention
Figure 3 is a perspective view of the air conditioner coupled to the blower of the present invention

The present invention relates to an indoor air purifying system using air pressure, and to an indoor air purifying system for maintaining a clean indoor air quality by introducing cleanly purified air into a room with a HEPA filter or the like.

Hereinafter, an indoor air cleaning system using air pressure according to the present invention will be described in detail with reference to the drawings. The present invention is not limited to the embodiments disclosed below, but may be implemented in a variety of different forms, only this embodiment is to complete the disclosure of the present invention, and to those of ordinary skill in the entire scope of the invention. It is provided to inform you.

1 is a plan view of an indoor air cleaning system using air pressure, FIG. 2 is a perspective view of an indoor air cleaning system using air pressure of the present invention, and FIG. 3 is a perspective view of an air conditioner coupled to a blower of the present invention.

As shown in FIG. 1, the indoor air cleaning system using the air pressure of the present invention includes a blower 10 for introducing air purified by a HEPA filter into the room, an exhaust blower 15 for discharging the indoor air to the outside, and a set indoor It consists of a controller 50 that controls the blower 10 and the exhaust blower 15 to maintain air quality.

The indoor air cleaning system 100 using air pressure introduces purified clean air into the room using a blower 10, and the clean air is introduced into the room by removing pollutants from the air filter installed in the front of the blower. Let me do it. First, the air filter has a triple structure of a pre-filter, a HEPA filter, and a deodorization filter, and when the blower is operated, external air passes through the air filter having the triple structure, resulting in clean clean air.

The pre-filter first removes large dust, etc., and 99.9% of particles larger than 0.3 μm (micron) in the air can be removed from the HEPA filter, preferably 0.3 μm. To remove fine dust and bacteria of a size of 500 μm.

The HEPA filter has a structure similar to a net, allowing air to pass through and preventing particulates from passing through. It is mainly manufactured by compressing glass fiber, and its performance varies depending on the fiber diameter or filter thickness. It is wrinkled so that the collecting area of the particles is widened, and it is protected with a partition. The HEPA filter also filters pollen and cigarette smoke, including fine dust, and microbes such as fungi, bacteria, and viruses caught in the filter can also be extinguished and removed due to lack of moisture.

Deodorization Filter It makes the taste of the air flowing into the room aroma by catching the smell of cigarettes, stabbing, and pleasant smells. Charcoal or charcoal is added to the deodorizing filter to deodorize, or by passing electricity to a part of the air filter (discharging) to impart electricity to dust or odorous substances, and ionizing the ionized contaminants using a dust collecting plate. Method can be used.

In addition, the blower 10 blows air that has been purified by an air filter to be introduced into an indoor room such as classrooms and offices, and filters contaminants from the air filter.

The indoor air cleaning system using the air pressure of the present invention cleanly purifies the outside air and introduces the cleanly purified air from the air filter into the room such as classrooms and offices using the blower 50.

An air pressure meter 11 installed in a classroom, etc. measures the indoor air pressure and transmits the data to the controller 50, and the indoor air meter 14 measures the indoor temperature of the classroom, the concentration of pollutants such as radon, and fine dust. Alternatively, the data is transmitted to the controller 50 by measuring the state of air quality such as the concentration of ultrafine dust. The controller 50 may automatically or manually set the indoor environment, that is, the indoor temperature, pressure, the concentration of fine dust and ultrafine dust, the state of contaminants such as radon concentration, etc. to be maintained in an appropriate state, according to the setting of the controller. The blower 10, the hot and cold fan 13, and the exhaust blower 15 are interlocked and operated.

When clean air continuously flows into the room through the blower 10, the air pressure inside the room is kept slightly higher than the outside because it is not easy to discharge air to the outside in the closed room. It is prevented from entering. In other words, the interior is always maintained in a pleasant clean air quality state.

Normal atmospheric pressure is 1.03kg/cm2. The indoor air cleaning system using air pressure of the present invention uses a blower to introduce cleanly purified air from an air filter into the interior of classrooms, offices, etc., thereby forming an indoor atmospheric pressure slightly higher than the atmospheric pressure, thereby creating an unclean outside air. This is to prevent the intrusion from entering the room. Therefore, when the blower 50 is operated, the indoor air pressure is maintained at a state higher than atmospheric pressure (1.03kg/cm2). That is, the indoor air pressure is maintained in the range of 1.031kg/cm2 to 1.050kg/cm2, so that outside air is prevented from entering the room due to the air pressure difference. That is, when the indoor air pressure is maintained as above, the atmospheric pressure inside the room is higher than the outside, so even if there is a gap in the window frame or the wall, outside air does not flow into the room, and the indoor air quality is maintained in a clean and comfortable state.

In addition, when clean air is introduced into the room by the operation of the blower 50, the operation of the blower 50 is stopped for a certain period of time, and the indoor clean air is circulated by the operation of the blower fan (not shown) of the hot and cold fan 13. give. When the indoor air temperature rises or becomes contaminated after a certain period of time, the controller operates the blower 10 to match the set air quality value or operates the hot and cold fan 13 to keep the indoor air quality pleasant and clean again. do.

An opening and closing opening is formed on the outside of the exhaust blower 15 in a direction in contact with external air, and the opening and closing opening is operated to block external air. The opening and closing port is characterized in that it blocks external air so that the indoor air pressure can be maintained in the range of 1.031kg/cm2 to 1.050kg/cm2.

In addition, if the indoor air pressure measured by the air pressure meter 11 is atmospheric pressure or less than atmospheric pressure, the controller 50 commands the operation of the blower 10 to introduce clean air into the room. By setting the appropriate air pressure, the operation of the blower is controlled.

In addition, indoor air quality conditions such as indoor fine dust concentration, ultra-fine dust concentration, radon concentration, and oxygen concentration are measured, and if it is worse than the indoor air quality condition set in the controller 50, the blower 10 is operated to Controls the inflow of clean air into the room.

The indoor air quality is clean, and under an appropriate temperature and pressure, the controller 50 circulates the indoor air by operating the operating fan (not shown) of the hot and cold fan 13, and when the indoor temperature is low or high, the cold and hot air blower (13) The controller is controlled so that the hot air fan or the cold air fan are operated together.

The exhaust blower 15 normally blocks the exhaust blower so that indoor air is suppressed from being discharged to the outside, and when the indoor air is excessively contaminated or there is a need to discharge, the exhaust blower 15 is operated. Controlled by.

In addition, the controller 50 receives air quality data measured from the indoor air meter 14 and the air pressure meter 11 and operates the blower when there is a difference from the set value. The air quality data sent to the controller 15 is processed by the central processing unit, and the processed information is stored in a database.

In addition, the oxygen holding device 12 maintains the indoor oxygen concentration at 13 to 20%, and keeps the indoor oxygen concentration at 18% in classrooms and offices.

In addition, the motor of the blower 10 may be composed of a stepping motor, a servo motor, and the like, and it is preferable to be composed of a servo motor, and the indoor air introduced through the blower 10 is It is configured to induce circulation of air in the room.

Red, blue, and green LEDs are configured in the indoor air meter 14, and when the red LED is lit, the indoor air quality is poor, and when the blue LED is lit, the indoor air quality is normal, and green. When the LED is lit, it is formed to indicate good indoor air quality.

At this time, the information measured by the indoor air meter 14 is sent to the controller 50, and the information is displayed on a control unit installed at one side of the controller.

The control unit may be operated through a remote-control or interlocking with a user's terminal. The linkage refers to linking so that it can be operated through an application (not shown) of a user terminal through the data transmission unit of the controller 50, and when operated with a remote-control, the controller 50 This means that the sensor unit communicates with the remote controller, and is provided so that the air quality purification system 100 can be controlled through the communication.

In this case, it includes a thing that can be manually operated indoors according to a person's control to purify the indoor air. In this way, it is configured to be controlled manually and automatically according to the user's operation method, thereby purifying indoor air quality.

At this time, the controller 50 is installed indoors, and comprises a data transmission unit for transmitting air pressure information of the air pressure meter installed in each room and indoor pollution information of the indoor air meter from the controller to a central processing unit, and the central processing unit In Figure 1, the information transmitted from the room is collected and stored in a database, and the central processing unit is designed to determine and control whether or not the controller is operating in each room, thereby constructing an air quality purification system through pneumatic pressure.

In addition, a controller 50 is formed inside each room, a data transmission unit (not shown) that converts a signal formed by each controller 50 into digital data, and the digital data converted by the data transmission unit. The indoor controller 50 including a transmitting communication unit (not shown), the indoor air measuring instrument 14 and the air pressure measuring instrument 11 installed in each room are transmitted to the controller 50, and the controller ( 50) The information is transmitted to the central processing unit (not shown) through the data transmission unit, and the average value of the air quality data in each room is compared with the air quality data and room temperature in each room to determine whether the blower 10 is operating. It is configured to achieve indoor air quality purification and indoor temperature control.

At this time, the indoor air quality purification system 100 is configured so that each room is connected through an air duct, and the air duct is controlled by the central processing unit (not shown) so that the average value of the indoor air quality and the indoor temperature can be adjusted. It is composed.

As shown in Fig. 2, the controller 50 is interlocked with the indoor air meter 14 and the air pressure meter 11 to receive measured information, and maintain oxygen in connection with the controller 50 through the information. The device 12 and the exhaust blower 15 are operated to maintain a clean indoor air quality.

The indoor air meter 14 measures indoor nitrogen concentration, radon and fine dust concentration and sends the measured value to the controller, and when the indoor nitrogen concentration, radon and fine dust concentration is high, clean air is introduced from the controller. It is configured to be controlled by the controller 50 so that the blower 10 to be operated can be operated.

At this time, the indoor air cleaning system 100 is configured to purify the indoor air. The interior includes spaces such as classrooms, offices, indoor spaces of large buildings, and homes, and is characterized by maintaining clean air indoors.

As shown in Fig. 3, a cold and hot air fan 13 is further provided on one side of the blower 10, and the air purified through the HEPA filter of the blower 10 is mixed with the air discharged from the hot and cold air to the room. It is introduced, and the mixed air is formed to control the indoor air temperature and circulate air.

In detail, the hot and cold fan 13 installed on one side of the blower 10 and the hot and cold fan 13 are positioned to adjust the indoor temperature according to the season, and the indoor air meter 14 measures the temperature. When information is sent to the controller 50 and the blower 10 is operated through the information transmitted to the controller 50, the hot and cold fan 13 is also operated, and the cold air of the indoor air according to the season, Configured to supply warm air.

In addition, the hot and cold air fan 13 is connected to the controller 50 and may be manually adjusted through the control unit of the controller 50. In addition, it is formed to be operated through communication between the remote control or the data transmission unit of the controller 50 and an application provided in the user's terminal.

At this time, the hot and cold fan 13 is integrally combined with one side of the blower 10 to assemble, and when the indoor temperature measured by the indoor air meter 14 is lower than the set temperature value, the hot air fan of the cold and hot air blower is operated, and the measured When the indoor temperature is higher than the set temperature value, the cooling fan of the hot and cold fan is configured to operate.

The set temperature value is set to maintain a temperature of 18 to 25 degrees Celsius in summer, preferably to maintain a temperature of 24 degrees, and is set to maintain a temperature of 25 to 30 degrees in winter, preferably to maintain a temperature of 27 degrees. Organize to be able to.

In addition, the indoor temperature measured by the indoor air meter 14 transmits information to the controller 50. At this time, the controller 50 can operate the hot and cold air fan 13 to maintain an appropriate temperature, and it is configured to operate together with the blower 10 to provide clean indoor air quality and temperature within an appropriate range. It is structured to be able to maintain.

In addition, the inside of the cold and hot air fan 13 is composed of a radiator, the pipe pipe of the radiator is provided with a cooling function and a heating function, and the cold air and hot air discharged through the cold and hot air fan 13 are the blower 10 It is configured so that the temperature of the room can be controlled by mixing with the air that has entered the interior through the device.

As described above, the present invention has been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings described in the present specification, and various modifications may be made by those skilled in the art within the scope of the technical spirit of the present invention. Of course there is.

100: Indoor air cleaning system using air pressure
10: blower 11: air pressure meter
12: oxygen holding device 13: cold and hot air
14: indoor air meter 15: exhaust blower
50: controller

Claims (5)

In the classroom air cleaning system using air pressure,
The classroom air cleaning system 100 introduces clean air purified by an air filter into the classroom using a blower 10,
The air filter having an air filter installed on the front of the blower is composed of a triple structure of a pre-filter, a HEPA filter, and a deodorization filter,
The pre-filter first removes large dust, and removes pollen, fine dust and bacteria of 0.3 μm (micron) to 500 μm in the air in a HEPA filter, and a deodorizing filter composed of charcoal or charcoal smells tobacco. Including to remove the stubborn smell,
The air pressure measuring instrument 11 installed in the classroom measures the air pressure in the classroom and transmits the data to the control unit 50, and the indoor air measuring instrument 14 measures the temperature in the classroom, the concentration of pollutants such as radon, and the concentration of fine dust or ultrafine dust. The data obtained by measuring the state of air quality, etc., the controller 50 is configured to include a data transmission unit transmitted to the central processing unit, and the central processing unit collects the information transmitted in the classroom and stores it in a database,
The controller 50 installed in each classroom is set to maintain the temperature, pressure, fine dust and ultrafine dust concentration, and radon in the classroom in an appropriate state, and according to the setting of the controller, the blower 10, the hot and cold fan 13, and The exhaust blower 15 is interlocked and operated,
When the room temperature measured by the indoor air meter 14 is lower than the set temperature value, the hot air fan of the cold and hot air blower is operated, and when the measured classroom temperature is higher than the set temperature value, the cold air of the cold and hot air blower is configured to operate,
The air pressure in the classroom is maintained at 1.031kg/㎠ to 1.050kg/cm2, so that external air is prevented from entering the classroom due to the air pressure difference,
Pneumatic pressure, characterized in that an opening is formed outside the exhaust fan 15 in a direction in contact with external air so that the air pressure in the classroom is maintained at 1.031kg/cm2~1.050kg/cm2 to block external air by the operation of the opening and closing opening. Air purification system in classroom using






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