KR20190057608A - Apparatus to recycle interior air - Google Patents

Abstract

An indoor air recycling apparatus according to an embodiment of the present invention comprises: a harmful gas removing module for converting carbon dioxide into oxygen in incoming air; and an oxygen filtration module for filtering and discharging nitrogen gas in the air and discharging the oxygen. According to an embodiment of the present invention, carbon dioxide and harmful gas in the indoor air can be converted into oxygen by the harmful gas removing module. By separating and discharging the nitrogen gas in the air by the oxygen filtration module and discharging oxygen into the indoor space, the amount of oxygen in the indoor space can be increased, thereby enhancing the air quality of the indoor space.

Description

[0001] Apparatus to recycle interior air [0002]

An indoor air recycling apparatus is disclosed. More specifically, the harmful gas including the carbon dioxide in the room is separated and discharged by the harmful gas removing module, and the oxygen amount in the indoor space can be increased by discharging oxygen into the indoor space. Accordingly, Of the indoor air recycling apparatus.

Recently, the most important issue is fine dust. A few years ago, the problem of fine dust did not come out so much, but the fort is long day, and information about fine dust is pouring, and the articles are developed and actively used. For example, a fine dust mask different from conventional masks has been separately developed and used. Also, air cleaners are installed in most households.

More than 90 percent of modern people live in confined spaces such as government offices, dense buildings, and buildings. Therefore, the air quality of enclosed indoor space is considerably important. However, the air conditioner equipped with the air conditioner in the closed space serves as an intake and exhaust unit but can not control the quality of the air. In addition, since the window can not be opened due to yellow dust and fine dust, the harmful gas such as carbon dioxide is concentrated, The indoor air may become worse and worse. WHO, meanwhile, has found that indoor pollutants are about 1000 times more likely to be delivered to the lung than air pollutants. In addition, WHO has announced that the number of deaths due to indoor air pollution is up to 6 million per year. In other words, keeping the indoor air clean is becoming a hot topic in the current era.

As such, there is a problem of increasing the indoor air quality, and the presently developed products have their respective limitations. For example, air conditioners cool the air, air purifiers remove dust in the air, humidifiers provide moisture to the air, and dehumidifiers have the ability to remove moisture from the air, . Removing dust from the room does not fundamentally improve the quality of the air.

In order to improve the indoor air quality, it is essential to remove the carbon dioxide and harmful gas in the air, and to increase the amount of oxygen contained in the air. The amount of oxygen determines the air quality. The present invention relates to a dehumidifier for generating oxygen, which has been applied with Korean Patent Application No. 10-2015-0136206. However, the dehumidifier generates only oxygen and has a limited structure in which harmful gas such as carbon dioxide can not be removed.

Therefore, in order to fundamentally improve the quality of air, it is required to develop an indoor air recycling apparatus of a new constitution which removes carbon dioxide and harmful gas from the air as well as supplying oxygen to the room by filtering and separating the air.

An object of the present invention is to reduce the amount of oxygen in the indoor space by discharging oxygen into the indoor space while reducing carbon dioxide and harmful gas in the indoor space by the harmful gas removing module, And to provide an indoor air recycling apparatus capable of improving air quality.

The indoor air recycling apparatus according to an embodiment of the present invention may include a harmful gas removing module for separating and removing carbon dioxide and noxious gas from the incoming air by filtration and discharging oxygen. It is possible not only to convert carbon dioxide in the room air into oxygen, but also to separate and reduce harmful gas and to discharge oxygen into the indoor space, thereby increasing the amount of oxygen in the indoor space, thereby improving the air quality of the indoor space .

According to one aspect of the present invention, the air containing oxygen generated primarily by the operation of the harmful gas removing module is moved to the oxygen filtering module, and the process for filtering separation and oxygen discharge in the harmful gas removing module may be performed .

According to one aspect, the harmful gas removal module includes a conversion housing; And a granule type granular cleaning agent that is filled in a suction pad provided in the conversion housing and converts carbon dioxide into oxygen in air introduced into the conversion housing.

According to one aspect of the present invention, the harmful gas removing module further includes a discharge port for discharging the air containing the oxygen converted by the granular cleaning agent, wherein an inner diameter of the discharge opening is relatively larger than an inner width of the inner space of the conversion housing And can have a small size.

According to one aspect, the harmful gas removing module may include a granule type purifying agent to convert carbon dioxide in the air into oxygen.

According to one aspect, the oxygen filtration module comprises: a filtration housing; And a zeolite bed provided in the filtration housing and filled with zeolite for discharging nitrogen gas and discharging oxygen by reacting with air introduced into the filter housing.

According to an aspect of the present invention, the apparatus may further include an air compressor and a pressurizing device for compressing the air introduced from the outside to selectively supply the compressed air to the oxygen filtration module or the harmful gas removing module.

According to one aspect of the present invention, the air pressurizing device and the noxious gas removing module are connected to a moving line capable of moving air, and the oxygen filtering module and the moving line are connected to each other by a separate connecting line, The oxygen-containing air that has been reacted can be transferred to the moving line and provided to the oxygen filtration module.

According to one aspect of the present invention, the oxygen filtration module is connected to an electromagnet valve, and the moving line and the electromagnet valve are connected by a bypass line, thereby controlling the amount of air supplied through the bypass line, The flow rate of use of oxygen can be controlled.

According to one aspect, the apparatus may further include a control module for controlling the operation of the oxygen filtration module or the harmful gas removal module.

According to an aspect of the present invention, the control module includes: a display controller for controlling operation of the oxygen filtration module or the harmful gas removal module; A power control unit for controlling supply of electric power under the control of the display control unit; And a sensing controller for sensing a concentration of carbon dioxide, an oxygen concentration, or a noxious gas concentration in a space where the indoor air recycling apparatus is disposed.

According to one aspect, there is further provided a user-portable central control application, wherein selective remote control of the oxygen filtration module or the noxious gas removal module is possible by wireless transmission / reception between the central control application and the control module.

According to the embodiment of the present invention, not only the carbon dioxide in the room air can be converted into oxygen by the harmful gas removing module, but also the nitrogen in the air is separated and discharged by the oxygen filtration module and the oxygen is discharged into the indoor space, The amount of oxygen in the space can be increased, thereby improving the air quality of the indoor space.

1 is a block diagram schematically showing a configuration of an indoor air recycling apparatus according to an embodiment of the present invention.
FIG. 2 is a schematic view showing a relationship between circulation of air and an indoor air recycling apparatus according to an embodiment of the present invention.
Fig. 3 is a view showing a configuration of the indoor air recycling apparatus shown in Fig. 1. Fig.
FIG. 4 is an implementation drawing of the indoor air recycling apparatus shown in FIG. 1. FIG.

Hereinafter, configurations and applications according to embodiments of the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE INVENTION The following description is one of many aspects of the claimed invention and the following description forms part of a detailed description of the present invention.

In the following description, well-known functions or constructions are not described in detail for the sake of clarity and conciseness.

FIG. 1 is a block diagram schematically showing a configuration of an indoor air recycling apparatus according to an embodiment of the present invention. FIG. 2 schematically shows a relationship between circulation of air and an indoor air recycling apparatus according to an embodiment of the present invention. FIG. 3 is a view showing a configuration of the indoor air recycling apparatus shown in FIG. 1, and FIG. 4 is an implementation drawing of the indoor air recycling apparatus shown in FIG.

Referring to FIG. 1, an indoor air recycling apparatus 100 according to an embodiment of the present invention may include a total of three modules. The first module is a control module 110 that controls the overall operation of the device, as well as senses the quality of the room air and provides power to the components. The second module is a harmful gas removing module 130 that reduces carbon dioxide and noxious gas in the air primarily filtered by the control module 110. The third module is an oxygen filtration module that separates nitrogen gas from the air filtered by the control module 110, discharges nitrogen gas to the outside, and discharges oxygen to the indoor space. Here, the harmful gas removing module 130 and the oxygen filtering module 150 are connected to each other and the oxygen-containing air generated by the harmful gas removing module 130 is supplied to the oxygen filtering module 150, The cleaning operation for removing the harmful gas can be performed once again.

These modules 110,130, 150 can be slimly mounted within the device housing, as shown in FIG. Fig. 4 shows that the indoor air recycling apparatus 100 of the present embodiment is provided as a stand type, but the present invention is not limited thereto, and it is natural that the apparatus of this embodiment may be provided in a portable type.

1, the control module 110 of the present embodiment includes a display control unit 111 for controlling the main operation of the apparatus, a power control unit 113 for providing power, and a control unit 110 for sensing the concentration of carbon dioxide in the space And a sensing control unit (not shown) for sensing the concentration of the noxious gas. A purifier fan 115 for purifying the air first introduced into the indoor space, and a hepa filter 117 for filtering the air having passed through the purifier fan 115 once again. The filtered air is generated once again by the HEPA filter 117 using the negative pressure generated by the operation of the motor of the purifier fan 115. The filtered air is passed through the air compressor 120 to the oxygen conversion module 130 Or to the harmful gas removal module 150. [

Here, the display control unit 111 may include a plurality of touch sensors, and functions set in each of the touch sensors may be activated by touching each of the touch sensors. For example, when the LED indicator on / off sensor provided on the screen of the display controller 111 is touched, power is supplied from the power controller 113 to the LED indicator 119 to turn on the LED indicator 119 It can be turned off.

The power control unit 113 of the present embodiment operates by a command signal given from the display control unit 111 as schematically shown in Fig. 1, and includes, for example, a purifier fan 115, an LED indicator 119, The air compressor and air pressurizing device 120, the electromagnet valve 125 or the grid motor 141 so that the powered components can be operated.

Although not shown, the sensing control unit receives power from the power control unit 113 in accordance with the touch operation of the user's display control unit 111 (or the operation of the remote controller that activates the display control unit 111) Concentration or carbon dioxide concentration or harmful gas concentration, and sends sensing information to the display control unit 111, and the display control unit 111 can control the operation of the modules described below based on the sensing information.

For example, the sensing control unit senses a person breathing in the indoor space, and then sends sensed information to the display control unit 111. The display control unit 111 controls the harmful gas removing module 130 ) Or the operation pattern of the oxygen filtration module 150 can be controlled. For example, the operation speed, on / off, and the like of the noxious gas removal module 130 or the oxygen filtration module 150 can be controlled by detecting the amount of carbon dioxide emitted from the person.

On the other hand, as described above, the indoor air recycling apparatus 100 of the present embodiment oxidizes carbon dioxide in the air in the room to convert it into oxygen, separates and discharges the harmful gas, and re-supplies the generated oxygen , It is possible to remove carbon dioxide and harmful gas in the indoor space, and to increase the amount of oxygen, thereby significantly improving the indoor air quality.

1 and 3, the indoor air recycling apparatus 100 of the present embodiment includes a harmful gas reduction module 130 capable of reducing carbon dioxide and noxious gas, And an air compressor 120 and an air compressing unit 120 for compressing the air passing through the HEPA filter 117. [

3, the air compressor 120 and the air compressing device 120 are covered with a soundproof case 121 for reducing the noise caused by operation of the air compressor 120 and the air compressing device 120, Three solenoid valves 123 and 125 may be mounted on the first and second valve bodies 121 and 121, respectively. The left solenoid valve 123 and the right solenoid valve 125 are connected to the valve 130 and the oxygen filtration module 150. The left solenoid valve 123 is a valve 123 for adjusting the oxygen discharge capacity, It is a valve for selective use.

The harmful gas removing module 130 of this embodiment is to convert carbon dioxide to oxygen, whereby the amount of carbon dioxide in the room is reduced and the amount of oxygen can be increased inversely.

1 to 3, the harmful gas removing module 130 of the present embodiment includes a conversion housing 131 forming a module frame and a suction pad 133 built in the conversion housing 131 A pellet purifying agent (not shown) for converting carbon dioxide into oxygen while removing harmful gas from air introduced into the conversion housing 131, and a discharge port 137 for discharging air containing oxygen converted from carbon dioxide by the pellet purifying agent . However, in this embodiment, pellet type pellet purifying agent is used to convert carbon dioxide to oxygen, but it is not limited thereto, and it is natural that granule type purifying agent can be used.

2, fans 135 and 155 are provided inside the housing 131 of the harmful gas removing module 130 and inside the housing 151 of the oxygen filtration module 150. The fans 135 and 155 So that the air can be smoothly moved along the path of the noxious gas removal module 130 and the oxygen filtration module 150. Where the fan 155 may be an air pressurizing device 155 that cooperates with the air compressor 120 as described above.

Referring to FIGS. 2 and 3, the size (inner diameter) of the discharge port 137 is made smaller than the size of the inner space of the conversion housing 131 (the size of the inner width) The reaction in which carbon dioxide is converted into oxygen can be more actively performed.

On the other hand, the harmful gas removing module 130 described above can generate oxygen by an exchange reaction, can oxidize noxious gas including carbon dioxide, can remove odors in the air, and generates oxygen radicals It may also be sterilized.

First, oxygen generation by the exchange reaction of the harmful gas removing module 130 will be described. Oxygen can be generated when the metal oxide (MO ₂ ), that is, the alkaline metal substance constituting the pellet purifying agent of this embodiment, reacts.

In addition, when the nitrogen oxide or sulfur oxide reacts with the metal oxide, the alkali metal reacts and oxygen is generated. As described above, the pellet purifying agent of the harmful gas removing module 130 removes carbon dioxide and instead generates oxygen. In other words, the exchange reaction of carbon dioxide and oxygen occurs.

Meanwhile, the toxic gas or harmful gas can be removed by the harmful gas removing module 130, and oxygen can be generated. For example, when a metal oxide reacts with water vapor in the air, oxygen radicals are generated, such as aldehyde, ammonia, etc., and oxygen can be generated.

The oxygen noxious gas removal module 130 generates oxygen radicals to generate an antimicrobial or sterilizing power. For example, the metal oxide and the water vapor in the air react with each other to generate oxygen radicals to generate microorganisms or organic substances, thereby enabling sterilizing action.

As the pellet purifying agent of this embodiment, oxygen pellets are used. The replacement period is 6 months to 1 year, preferably 6 months, and can be replaced by a simple operation.

As described above, in the case of the harmful gas removing module 130 of the present embodiment, by changing the carbon dioxide in the air into oxygen, the amount of carbon dioxide in the indoor space can be reduced while the oxygen amount can be increased, thereby improving the air quality of the indoor space. In addition, it is possible not only to remove the harmful gas, but also to sterilize the indoor space.

On the other hand, the harmful gas removing module 130 is a module for converting carbon dioxide into oxygen in the indoor space, whereas the oxygen filtering module 150 of the present embodiment separates nitrogen gas in the indoor air, Which is to discharge or re-supply into the space. In other words, the oxygen filtration module 150 is a module for increasing the purity of oxygen.

1 to 3, the oxygen filtration module 150 includes a removal housing 151 forming a frame of the module, two zeolite beds (not shown) provided in the removal housing 151 and filled with zeolite 153, and a grid motor 141 for controlling intake of air into the zeolite bed 153.

The zeolite bed 153 reacts the compressed air with zeolite to discharge nitrogen gas or the like to the outside and discharge oxygen into the indoor space. That is, the oxygen is re-supplied to the indoor space. Here, the zeolite provided in the zeolite bed 153 has a replacement period of about 2 to 3 years, preferably 2 years, and can be easily replaced by work.

1 and 2, the flow rate of the air passing through the zeolite bed 153 can be controlled by the electromagnet valve 123. A separate bypass line 143 is provided in the moving line 142 connected to the zeolite bed 153 of the oxygen filtration module 150 in the air compressor and air pressure devices 120 and 155 and the bypass line 143 It is possible to control the flow rate of oxygen discharged through the electromagnet valve 123 by connecting it to the electromagnet valve 123. For example, if the flow rate is increased, the purity of oxygen discharged from the inflow of air is lowered, so that the purity can be adjusted by placing the bypass line 143 as described above. At this time, the flow rate of oxygen to be discharged may be 1.5 L / min, for example, and the purity of oxygen may be 80 ± 5 or more at 1.5 L / min. But is not limited thereto.

The air compressed in the air compressors 120 and 155 and moved to the zeolite bed 153 sequentially produces a pressure of, for example, 1.4 bar in the two zeolite beds 153 . The zeolite in the zeolite bed 153 is pressurized to filter the nitrogen and to release oxygen. In addition, the filtered nitrogen is discharged in a direction in which the pressure is released. At this time, the pressure of the discharged nitrogen disappears and cooling is performed. The cooled nitrogen may be provided to the air compressor 120 and used for induction cooling of the air compressor 120.

Referring to FIG. 1, the harmful gas removing module 130 and the oxygen filtration module 150 of the present embodiment are connected to each other. In other words, the air first provided to the air compressor and the air pressurizing device 120 is supplied to the harmful gas removing module 130 so that the oxygen conversion of the carbon dioxide is performed first, (150), the air and the zeolite are reacted again in the high-pressure environment to remove the noxious gas and to re-discharge the oxygen. As a result, it is possible not only to reduce carbon dioxide in the air, but also to generate high-purity and high-purity oxygen.

On the other hand, the indoor air recycling apparatus 100 of the present embodiment can be operated in conjunction with a central control application (not shown) that the user can carry. For example, the smartphone held by the user is provided with a central control application, and the central control application and the control module 110 can be wirelessly transmitted and received to select the noxious gas removal module 130 or the oxygen filtration module 150 Remote control is possible.

As described above, according to the embodiment of the present invention, the harmful gas removing module 130 can convert the carbon dioxide in the room air into oxygen, and the harmful gas in the air is separated by the oxygen filtering module 150 And discharging oxygen into the indoor space, the amount of oxygen in the indoor space can be increased, thereby improving the air quality of the indoor space.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

100: Indoor air recycling apparatus
110: Control module
111:
113:
115: Bluish electric fan
117: Hepa filter
119: LED indicator
120: Air Compressor
123, 125: electromagnet valve
130: oxygen conversion module
150: Hazardous gas removal module
155: Air pressure device

Claims (12)

A harmful gas removal module for converting carbon dioxide in the incoming air into oxygen; And
An oxygen filtration module for separating and discharging the nitrogen gas in the air by filtration and discharging oxygen;
And an indoor air recycling apparatus.
The method according to claim 1,
The air containing oxygen generated primarily by the operation of the harmful gas removing module is moved to the oxygen filtration module, and filtration separation and oxygen discharge are performed in the oxygen filtration module.
The method according to claim 1,
The harmful gas removing module includes:
A conversion housing; And
And a pellet type pellet cleaner which is filled in a suction pad provided in the conversion housing to convert carbon dioxide into oxygen in air introduced into the conversion housing.
The method of claim 3,
The harmful gas removing module includes:
Further comprising a discharge port for discharging the oxygen-containing air converted by the pellet cleaner,
Wherein an inner diameter of the discharge port is smaller than an inner width of an inner space of the conversion housing.
The method according to claim 1,
Wherein the harmful gas removing module includes a granule type purifying agent to convert carbon dioxide in the air into oxygen.
3. The method of claim 2,
The oxygen filtration module includes:
Removal housing; And
And a zeolite bed provided in the removal housing, the zeolite bed filled with zeolite for discharging nitrogen gas and discharging oxygen by reacting with air introduced into the removal housing.
3. The method of claim 2,
Further comprising an air compressor and an air pressurizing device for compressing the air introduced from the outside to selectively supply the compressed air to the noxious gas removing module or the oxygen filtering module.
8. The method of claim 7,
Wherein the air compressor and the noxious gas removing module are connected to a moving line capable of moving air,
Wherein the air containing oxygen reacted by the noxious gas removing module is connected to the noxious gas removing module and the moving line by a separate connection line and is supplied to the oxygen filtering module by being moved to the moving line, Device.
9. The method of claim 8,
The oxygen filtration module is connected to an electromagnet valve,
Wherein the moving line and the electromagnet valve are connected by a bypass line so that the flow rate of the oxygen discharged through the electromagnet valve is regulated by regulating the amount of air supplied through the bypass line.
The method according to claim 1,
Further comprising a control module for controlling operation of the harmful gas removing module or the oxygen filtering module.
11. The method of claim 10,
The control module includes:
A display controller for controlling operation of the harmful gas removing module or the oxygen filtering module;
A power control unit for controlling supply of electric power under the control of the display control unit; And
An oxygen concentration or a harmful gas concentration in a space where the indoor air recycling apparatus is disposed.
11. The method of claim 10,
Further comprising a central control application portable to the user,
And selectively remotely adjust the noxious gas removing module or the oxygen filtering module by wireless transmission / reception between the central control application and the control module.

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