KR102367603B1 - Hybrid air purification system with different purification performance according to polluted environment and its control method - Google Patents

Abstract

The present invention relates to a hybrid air purification system for differentiating purification performance according to a polluted environment, and a control method thereof. With the complex air purification technology which combines existing air purification functions such as filtering, deodorizing, sterilizing, and ventilation into a single air purification function, the hybrid air purification system senses a sound and an intensity of a light source to determine occupancy of a user. Moreover, hybrid air purification system is interlocked and controlled according to occupancy of the user and is operated in a general polluted environment mode in the usual general polluted environment. The hybrid air purification system is switched into an emergency polluted environment mode maximizing purification performance in an emergency polluted environment where warnings for yellow dust, fine dust, and infectious diseases such as corona are issued to be operated.

Description

Hybrid air purification system with different purification performance according to polluting environment and its control method

The present invention relates to a hybrid air purification system with different purification performance depending on the polluted environment and a control method therefor, and by combining the existing filtration, deodorization, sterilization, and ventilation functions into one, the air purification method in a general polluted environment, fine dust and A hybrid air purification system that varies the purification performance according to the polluted environment to maximize the purification performance according to the polluted environment by different air purification methods in emergency polluted environments where epidemic warnings such as yellow dust warning and pandemic warnings are issued; It's about how to control it.

Recently, as air quality issues such as Corona 19, fine dust, and yellow dust have become an issue not only in Korea but also around the world, unlike general pollution environments, in emergency pollution environments, not only the cleaning function by filtration and deodorization, but also the purification of complex functions such as sterilization and ventilation There is a demand for a product with performance, and R&D is being actively conducted on it.

In particular, there is an urgent need to develop air purification technology and products to prevent or minimize human infection caused by viruses or bacteria present in indoor air when an alert for infectious diseases such as a pandemic is issued, and high sterilization safety and reliability for purified air quality This is being requested.

Conventionally, most air purifiers suck polluted air and purify only basic pollutants such as dust and odors. Contaminants such as airborne bacteria and viruses contained in polluted air cannot be removed but are trapped on the filter surface. As a result, there was a limit to the original removal.

In particular, in the current corona pandemic environment, prolonged activities in a closed indoor space are inevitably exposed to virus infection. It has a problem that inevitably leads to anxiety and anxiety.

In addition, the conventional representative air purification method has been mainly applied to a purification method using a purification agent such as filtration, ultraviolet light, photocatalyst, ozone, plasma, etc., but there are limitations in the purification performance as well as in securing the safety and reliability of the purified air, In particular, there is a problem that can be harmful to the human body due to long-term use of an air purifier that generates ozone in a closed environment with no occupants and no ventilation.

Republic of Korea Patent Publication No. 10-0943537 {Title of the invention: Air purifier with carbon dioxide reduction function}

The present invention has been made to solve the above problems, and an object of the present invention is a hybrid air purification system that has a filtering function to remove fine dust and a deodorizing function to remove odor substances, as well as a different purification performance depending on the polluted environment, and its control to provide a way

Another object of the present invention is to provide a hybrid air purification system and a method for controlling the same in which purification performance is different according to a polluted environment, which can remove airborne bacteria and viruses contained in polluted air with high purification performance.

In addition, another object of the present invention is a hybrid air purification system that can vary purification methods depending on the degree of contamination, thereby ensuring high sterilization safety and reliability for purified air, and a hybrid air purification system that has different purification performance depending on the polluted environment To provide a control method.

Another object of the present invention is to provide a hybrid air purification system and a method for controlling the same in which purification performance is different according to a polluted environment, which is controlled to be operated in a state optimized for the polluted environment.

In addition, a hybrid air purification system with different purification performance depending on the polluted environment that selects and purifies the functions of filtration, deodorization, sterilization, and ventilation according to indoor air quality concentration, air quality and whether an epidemic warning is issued, and whether there is an occupancy, and its control method will provide

In order to achieve the above object, a hybrid air purification system that has different purification performance depending on a polluted environment according to an embodiment of the present invention is a suction fan installed in a part of a body of an air purification device to generate suction force to suck polluted air. ; The primary purified air installed in front of the suction fan of the main body of the air purifier and first sterilized by UV-A photolysis of airborne bacteria and viruses introduced through the polluted air inlet, and sterilized and removed by UV-A photolysis is secondarily sterilized and removed by an alkaline earth metal peroxide sterilizing and purifying agent that reacts with moisture in the air to generate oxygen radicals and hydrogen peroxide. a purification chamber configured to sterilize and remove residual bacteria and viruses that are trapped in the micropore filter medium or suspended in the blocking space by UV-A and UV-C disposed in the blocking space between the micropore filter media; Ventilation alerts and ventilation fans that notify the proper ventilation time to perform natural or forced exhaust in order to purify secondary pollutants that may occur in the purification process by natural or forced ventilation or pollutants that have not been removed; a display unit configured to display an operating state of the hybrid air purification system; And it is installed in the main body of the air purifier, and detects the indoor air quality concentration including the intensity of sound and light source in the indoor space, the concentration of carbon dioxide in the indoor space, the concentration of fine dust and the concentration of volatile organic compounds, and Receives air quality warning information including dust warning and infectious disease warning information such as corona, determines whether occupancy, indoor air quality concentration, and emergency pollution environment are present, and accordingly the suction fan, purification chamber, ventilation notification and ventilation and control means configured to control the fan and output a display control signal to the display unit.

In the hybrid air purification system in which the purification performance is different according to the pollution environment according to the above embodiment, the purification chamber is filled with an alkaline earth metal peroxide sterilizing agent and granular activated carbon in a PP (polypropylene) core of a grid or honeycomb structure, and the A sterilization and deodorization complex module that sterilizes and removes airborne bacteria and viruses and deodorizes odorous substances by generating hydrogen peroxide by reacting oxygen radicals generated during the contaminant removal process with moisture in the air since the front and back surfaces of the PP core are coated with a photocatalyst; a diffusion plate installed on the upper and lower portions in front of the sterilization and deodorization complex module to diffuse light; A plurality of UV-A lamps configured to irradiate UV-A to the photocatalyst applied to the front and back surfaces of the PP core of the sterilization and deodorization complex module; a micropore filter material installed at the distal end of the purification chamber and configured to filter and sterilize the air purified by the sterilization and deodorization complex module, coated with a photocatalyst or inorganic mineral; and a plurality of UV-C lamps configured to irradiate UV-C to the photocatalyst or inorganic mineral material applied to the micropore filter medium.

In the hybrid air purification system in which the purification performance is different according to the polluted environment according to the embodiment, the control means is a manual operation control mode operated by a user's artificial manipulation and a general polluted environment mode or emergency pollution depending on the polluted environment state an operating condition setting unit configured to set operating conditions of the hybrid air purification system including setting of an automatic operation control mode for determining an environment mode; an occupancy detection unit configured to detect the intensity of a sound and a light source in an indoor space; an indoor air quality detection unit configured to sense indoor air quality concentration including the concentration of fine dust and volatile organic compounds in the indoor space; a carbon dioxide sensor configured to detect a carbon dioxide concentration in an indoor space; an air quality condition information receiving unit configured to receive air quality condition information including an alarm of yellow dust and fine dust; an infectious disease alert information receiving unit configured to receive alert information of infectious diseases including corona; In order to receive the intensity of sound and light source in the indoor space, indoor air quality concentration, air quality state information, and epidemic warning information, determine whether to occupancy, indoor air quality concentration, carbon dioxide concentration and emergency pollution environment, and output a control signal. configured control unit; a suction fan driving unit configured to receive a control signal from the control unit and control the driving of the suction fan; a UV-A lamp driving unit configured to receive a control signal from the control unit and control the driving of the UV-A lamp; a UV-C lamp driving unit configured to receive a control signal from the control unit and control the driving of the UV-C lamp; a ventilation notification and ventilation fan driving unit configured to receive a control signal from the control unit and control the operation of the ventilation notification and ventilation fan; and a wired/wireless communication unit configured to provide an environment in which the control unit and the user terminal can communicate with each other through wired/wireless communication.

In order to achieve the above object, according to another embodiment of the present invention, there is provided a control method for a hybrid air purification system in which purification performance is different according to a polluted environment, in the automatic operation control mode condition of the operation condition setting unit. an occupancy detection signal input step in which the control unit receives a signal for detecting the intensity of a sound and light source in an indoor space from the occupancy detection unit; an indoor air quality concentration detection signal input step of receiving, by the controller, a detection signal of indoor air quality concentration including a concentration of fine dust and a concentration of volatile organic compounds in an indoor space from the indoor air quality detection unit; a carbon dioxide concentration detection signal input step in which the control unit receives a detection signal of a carbon dioxide concentration in an indoor space from a carbon dioxide detector; an air quality condition information input step of receiving air quality condition information including an alarm of yellow dust and fine dust from the air quality condition information receiving unit, by the control unit; Infectious disease warning information input step of receiving, by the control unit, the warning information of infectious diseases including corona from the infectious disease warning information receiving unit; a suction fan driving step in which the controller drives the suction fan while varying the rotation speed according to the indoor air quality concentration; an occupancy checking step in which the control unit detects a sound and light source intensity in an indoor space and determines whether to occupancy based on this; a first indoor air quality concentration determining step of determining, by the controller, whether the indoor air quality concentration is equal to or less than a set concentration when it is confirmed that there is an occupant in the occupancy checking step; a polluted environment determining step in which the control unit determines whether a general polluted environment or an emergency polluted environment is based on the air quality status information and the epidemic warning information when the indoor air quality concentration exceeds the set concentration; If the emergency pollution environment is reached in the pollution environment determination step, the control unit turns on both the UV-A lamp and the UV-C lamp, and drives the ventilation notification and ventilation fan at the second set cycle set according to the emergency pollution environment conditions. polluted environment mode step; a first carbon dioxide concentration determining step in which the control unit determines whether the carbon dioxide concentration is equal to or greater than a set concentration; and when the carbon dioxide concentration exceeds the set concentration in the first carbon dioxide concentration determination step, the control unit turns off both the UV-A lamp and the UV-C lamp, and turns off the UV-A lamp and the UV-C lamp; and , when the indoor air quality concentration is less than or equal to the set concentration in the first indoor air quality concentration determination step, the control unit drives the suction fan speed to the lowest step mode and then proceeds to the polluted environment determination step.

In the control method of a hybrid air purification system that has different purification performance according to the polluted environment according to the other embodiment, when it is confirmed that there is no occupant in the occupancy checking step, the control unit determines whether the indoor air quality concentration is below a set concentration and a second indoor air quality concentration determining step of determining whether When the indoor air quality concentration is equal to or less than a set concentration in the air quality concentration determination step, the controller may stop the operation of the suction fan and perform the second indoor air quality concentration determination step.

In the control method of the hybrid air purification system, which has different purification performance according to the pollution environment according to the other embodiment, if the emergency pollution environment is not reached in the pollution environment determination step, the control unit turns on the UV-A lamp, and the ventilation a general pollution environment mode step of driving a notification and ventilation fan at a first set period set according to general pollution environmental conditions; a second carbon dioxide concentration determining step in which the controller determines whether the carbon dioxide concentration is equal to or greater than a set concentration; and turning off the UV-A lamp, in which the controller turns off the UV-A lamp, when the carbon dioxide concentration exceeds a set concentration in the second carbon dioxide concentration determination step.

According to the hybrid air purification system and the control method therefor, which have different purification performance depending on the polluted environment according to the embodiment of the present invention, the purification chamber is installed in front of the suction fan of the main body of the air purification device, Primary sterilization and removal of airborne bacteria and viruses by UV-A photolysis. The primary purified air sterilized and removed by UV-A photolysis reacts with moisture in the air to generate oxygen radicals and hydrogen peroxide. Secondary sterilization is removed by sterilizing and purifying agent, and the secondary purified air is removed by micropore filter media, which is the final purification step. sterilizes and removes residual bacteria and viruses that are trapped in the micropore filter media or floating in the blocking space by It detects the intensity of sound and light source in the indoor space, the indoor air quality concentration including the concentration of fine dust and the concentration of volatile organic compounds in the indoor space, and the carbon dioxide concentration in the indoor space, and includes an alarm of yellow dust and fine dust. Receives air quality warning information and infectious disease warning information, determines whether occupancy, indoor air quality concentration, carbon dioxide concentration, and pollution environment state, and accordingly controls the suction fan, purification chamber, ventilation notification and ventilation fan, and controls the to output a display control signal; It can provide sterilization power as well as filtration and deodorization functions to remove fine dust and odors, and sterilize and remove airborne bacteria and viruses contained in polluted air to secure high sterilization safety and reliability for purified air. , it is operated in an optimized state for the environment of use, and it has the effect of purifying by selectively controlling the filtration, deodorization, sterilization and ventilation functions according to the indoor air quality concentration, carbon dioxide concentration, air quality and epidemic warning stage.

1 is a control block diagram of a hybrid air purification system in which purification performance is different according to a polluted environment according to an embodiment of the present invention.
FIG. 2 is a schematic perspective view of an air purification device included in the hybrid air purification system in which purification performance is different according to the polluted environment of FIG. 1 .
3 is a detailed configuration diagram of a purification chamber included in the air purification apparatus of FIG. 2 .
4 is a control for an automatic operation mode of a hybrid air purification system in which purification performance is different according to a polluted environment according to an embodiment of the present invention; This is a flowchart to explain the method.

In describing the embodiments of the present invention, if it is determined that a detailed description of a known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. And, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users and operators. Therefore, the definition should be made based on the content throughout this specification. The terminology used in the detailed description is for the purpose of describing embodiments of the present invention only, and should in no way be construed as limiting. Unless explicitly used otherwise, expressions in the singular include the meaning of the plural. In this description, expressions such as “comprising” or “comprising” are intended to indicate certain features, numbers, steps, acts, elements, some or a combination thereof, one or more other than those described. It should not be construed as excluding the existence or possibility of other features, numbers, steps, acts, elements, or any part or combination thereof.

In each system shown in the figures, elements in some instances may each have the same reference number or different reference numbers to suggest that the represented elements may be different or similar. However, elements may have different implementations and work with some or all of the systems shown or described herein. The various elements shown in the drawings may be the same or different. Which one is referred to as the first element and which is referred to as the second element is arbitrary.

In this specification, when any one component 'transmits', 'transfers' or 'provides' data or signal to another component, one component directly transmits data or signal to another component, as well as, and transmitting data or signals to the other component via at least one further component.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

1 is a control block diagram of a hybrid air purification system in which purification performance is varied according to a polluted environment according to an embodiment of the present invention, and FIG. 2 is included in the hybrid air purification system in which purification performance is varied according to the polluted environment of FIG. It is a schematic perspective view of an air purification device that is used, and FIG. 3 is a detailed configuration diagram of a purification chamber included in the air purification device of FIG. 2 .

As shown in FIGS. 1 to 3 , the hybrid air purification system having different purification performance according to the polluted environment according to the embodiment of the present invention includes an air purification device, a ventilation notification and a ventilation fan 600 .

The air purification device includes a suction fan (F), a purification chamber (400), a display unit (500), and a control means (C).

The suction fan F is installed at the rear of the polluted air intake port I of the main body 1000 of the air purifier and serves to generate a suction force to suck in unpurified polluted air. The rotation speed of the suction fan F may be determined according to the indoor air quality concentration. For example, the suction fan F may be operated in low speed (first set speed), medium speed (second set speed), high speed (third set speed), and turbo (fourth set speed) modes.

The purification chamber 400 is installed at the front end of the suction fan (F) of the main body of the air purification device 1000 to photolyse the airborne bacteria and viruses introduced through the contaminated air intake port by UV-A to remove the primary sterilization and UV-A. A The primary purified air that has been sterilized and removed by photolysis is secondarily sterilized and removed by an alkaline earth metal peroxide sterilizing and purifying agent that reacts with moisture in the air to generate oxygen radicals and hydrogen peroxide. Removes fine dust by means of sterilization and removal of residual bacteria and viruses trapped in the micropore filter medium or suspended in the blocking space by UV-A and UV-C placed in the blocking space between the alkaline earth metal peroxide sterilizing agent and the micropore filter medium plays a role

The purification chamber 400, as shown in FIG. 3, a sterilization and deodorization complex module 427, a diffusion plate 425, a plurality of UV-A lamps 420, a micropore filter medium 440, and a plurality of UV -C lamp 430 is included.

The sterilization and deodorization complex module 427 is installed at the rear of the diffusion plate 425, and the alkaline earth metal peroxide sterilizing and purifying agent 427a and granular activated carbon 427b are together in a lattice or honeycomb structure PP (polypropylene) core 427c. A photocatalyst is applied to the front and back surfaces of the PP core 427c, and oxygen radicals generated in the process of removing pollutants react with moisture in the air to generate hydrogen peroxide to remove airborne bacteria and viruses and to deodorize odors. plays a role

The diffusion plate 425 is installed on the upper and lower portions in front of the sterilization and deodorization complex module 427 to diffuse the light (UV-A) irradiated by the UV-A lamp 420 to increase the light activity, thereby increasing the sterilization and deodorization complex module ( 427) serves to maximize the sterilization power by the photocatalyst applied to the front and back surfaces of the PP core 427c.

The plurality of UV-A lamps 420 serve to irradiate UV-A to the photocatalyst applied to the front and back surfaces of the PP core 427c of the sterilization and deodorization complex module 427 .

The micropore filter medium 440 is installed at the rear end of the purification chamber 400 and serves to remove airborne bacteria and viruses that have not been removed by the sterilization and deodorization complex module 427 . A photocatalyst or inorganic mineral material is applied to the micropore filter medium 440 to block the discharge of fine dust and bacteria and viruses contained in the fine dust, and a plurality of UV-A lamps 420 and UV-C lamps in the blocked space UV-A and UV-C, which are ultraviolet rays having a broadband wavelength by 430, are intensively irradiated for a long time to kill residual bacteria and viruses floating in the blocking space, as well as bacteria and bacteria trapped on the surface of the micropore filter medium 440 It prevents the virus from reacting.

A plurality of UV-A lamps 420 irradiate the photocatalyst applied to the rear surface of the sterilization and deodorization complex module 427, and the UV-C lamp 430 is applied to the photocatalyst or inorganic material applied to the front surface of the micropore filter medium 440. It serves to irradiate C, and a plurality of UV-A lamps 420 operate when it is determined as a general pollution environment by the control means (C), and the UV-C lamps 430 operate in an emergency pollution environment by the control means (C). It works when it is determined as

The display unit 500 serves to display the overall operating state of the hybrid air purification system, which has different purification performance depending on the polluted environment of the present invention. For example, whether the current operation mode is manual or automatic mode, indoor air quality concentration (including fine dust concentration and volatile organic compound concentration in indoor space), carbon dioxide concentration and air quality status information (yellow dust and fine dust alarm including) can be displayed. In addition, whether the current operating state operates in the emergency pollution environment mode or in the general pollution environment mode may be displayed.

The control means (C) is installed in the air purification device main body 1000, the intensity of sound and light source in the indoor space, the indoor air quality concentration (including the concentration of fine dust and the concentration of volatile organic compounds in the indoor space) and carbon dioxide concentration air quality alert information (including yellow dust and fine dust alerts) and infectious disease alert information (corona 19, SARS, Ebola, flu, etc.) It determines whether the environment is there, and controls the suction fan F, the purification chamber 400, and the ventilation notification and ventilation fan 600 accordingly, and outputs a display control signal to the display unit 500 .

As shown in FIG. 1 , the control means (C) includes a driving condition setting unit 100, an occupancy detection unit 110, an indoor air quality sensing unit 120, a carbon dioxide sensing unit 121, and air quality state information. Receiver 130, infectious disease warning information receiver 140, control unit 200, suction fan driving unit 300, UV-A lamp driving unit 310, UV-C lamp driving unit 320, ventilation notification and ventilation fan driving unit ( 330 ), and a wired/wireless communication unit 340 .

The operation condition setting unit 100 sets the manual operation mode controlled by the user's artificial switching operation and the automatic operation mode that determines the general pollution environment or emergency pollution environment mode according to the state of the pollution environment according to the pollution environment. It plays a role in setting the operating conditions of the entire hybrid air purification system that differs from each other.

The presence detection unit 110 is a sensor that detects the intensity of sound and light source in an indoor space and inputs a detection signal to the control unit 200 .

The indoor air quality detection unit 120 is a sensor for detecting indoor air quality concentration including the concentration of fine dust and the concentration of volatile organic compounds in the indoor space.

The carbon dioxide sensor 121 is a sensor that detects the concentration of carbon dioxide and inputs a detection signal to the controller 200 .

The air quality condition information receiving unit 130 serves to receive air quality condition information including yellow dust and fine dust alerts and input the air quality condition information to the control unit 200 .

The epidemic warning information receiving unit 140 serves to receive the epidemic warning information (name of the infectious disease including corona, the stage of issuing the epidemic, etc.) and input the epidemic warning information to the control unit 200 .

The control unit 200 receives a detection signal from the occupancy detection unit 110 and the indoor air quality detection unit 120 and the carbon dioxide detection unit 121, and receives the air quality state information receiving unit 130 and the infectious disease warning information receiving unit 140. It receives air quality status information and infectious disease warning information from the system, determines whether a person is occupant, indoor air quality concentration, carbon dioxide concentration, and polluted environment status, and outputs corresponding control signals.

The suction fan driving unit 300 receives a control signal from the control unit 200 and performs a switching operation to control the driving (drive, stop, rotation speed control, etc.) of the suction fan F.

The UV-A lamp driving unit 310 receives a control signal from the control unit 200 and performs a switching operation to control the driving (turning on and off) of the UV-A lamp 420 .

The UV-C lamp driving unit 320 receives a control signal from the control unit 200 and performs a switching operation to control driving (turning on and off) of the UV-C lamp 430 .

The ventilation notification and ventilation fan driving unit 330 receives a control signal from the control unit 200 and performs a switching operation to notify the ventilation notification and drive the ventilation fan 600 (for the purpose of purification by natural ventilation or forced ventilation, to notify the appropriate ventilation time, or It plays a role in controlling natural ventilation by opening windows artificially or forced ventilation by driving a fan).

The wired/wireless communication unit 340 serves to provide an environment in which the control unit 200 and the user terminal M (eg, PC, smart phone, notebook, tablet PC, etc.) can communicate with each other, and the wired/wireless communication method is LAN , LTE-M, Wi-Fi, Bluetooth, NFC, LTE, CDMA, 4G, 5G, RFID, and the like. The user terminal M may set the operating conditions of the entire hybrid air purification system on behalf of the driving condition setting unit 100 through the wired/wireless communication unit 340 directly or by accessing a web server, or may perform remote control. The user terminal M may receive and monitor the operation state information of the hybrid air purification system through the wired/wireless communication unit 340 from the control unit 200 .

Hereinafter, a method for controlling a hybrid air purification system in which purification performance is different according to a polluted environment according to an embodiment of the present invention configured as described above will be described.

4 is a flowchart for explaining a control method of a hybrid air purification system in which purification performance is different according to a polluted environment according to an embodiment of the present invention, where S denotes a step.

First, the control unit 200 receives a detection signal as the intensity of sound and light source in an indoor space from the occupancy detection unit 110 (S10), and receives a fine dust concentration in the indoor space from the indoor air quality detection unit 120 and A detection signal of indoor air quality including the concentration of volatile organic compounds is received (S20), a detection signal of carbon dioxide concentration in an indoor space is received from the carbon dioxide sensor 121 (S25), and an air quality state information receiving unit (S25) 130) receives the air quality state information including the warning of yellow dust and fine dust from the input (S30), and receives the alarm information of the infectious disease including the corona from the infectious disease warning information receiving unit 140 (S40).

Next, the control unit 200 checks the indoor air quality concentration, changes the rotation speed accordingly, and drives the suction fan F (S50).

Next, the control unit 200 checks the intensity of the sound and the light source in the indoor space and confirms whether the room is occupant based on this (S60).

When the occupancy is confirmed in step S60 (Y), the control unit 200 determines whether the indoor air quality concentration is equal to or less than a set concentration (S70).

If the indoor air quality concentration is greater than the set concentration (N) in the step (S70), the control unit 200 checks the air quality status information and the infectious disease warning information, and determines whether an emergency pollution environment has been reached based on this ( S80).

In the step (S80), if it is determined that the emergency pollution environment has been reached (Y), the control unit 200 turns on both the UV-A lamp 420 and the UW-C lamp 430 (S90), and ventilates The notification and ventilation fan 600 is driven at a preset second set cycle according to emergency pollution environment conditions (S100).

Next, the control unit 200 determines whether the carbon dioxide concentration is equal to or greater than a set concentration (S110).

When the carbon dioxide concentration exceeds the set concentration in the step (S110) (Y), the control unit 200 turns off the UV-A lamp 420 and the UV-C lamp 430 (S120), the step (S110) proceeds with

On the other hand, if the carbon dioxide concentration in the step (S110) is less than the set concentration (N), this step (S110) is repeatedly performed.

On the other hand, if it is determined that the emergency pollution environment has not been reached in step S80 (N) (that is, a general pollution environment state), the control unit 200 turns on only the UV-A lamp 420 (S95), and a ventilation notification And the ventilation fan 600 is driven in a preset first set period according to the general pollution environment conditions (S105). Here, in the second setting period, the lighting time of the UV-A and UV-C lamps, the suction fan driving time, the ventilation fan driving time, and the ventilation frequency are increased than in the first setting period, and it is self-evident that the fan rotation speed is increased. .

Next, the control unit 200 determines whether the carbon dioxide concentration is equal to or greater than a set concentration (S115).

If the carbon dioxide concentration exceeds the set concentration (Y) in the step (S115), the control unit 200 turns off the UV-A lamp 420 (S125), and proceeds to the step (S115).

On the other hand, if the carbon dioxide concentration in the step (S115) is less than the set concentration (N), this step (S115) is repeatedly performed.

Meanwhile, if there is no occupant (N) in step S60, the controller 200 determines whether the indoor air quality concentration is equal to or less than a set concentration (S65).

If the indoor air quality concentration exceeds the set concentration rule in step S65 (N), the process proceeds to step S50. On the other hand, if the indoor air quality concentration is less than or equal to the set concentration (Y), the controller 200 controls the suction fan ( The drive of F) is stopped (S67), and the process proceeds to the above step (S65).

On the other hand, if the indoor air quality concentration is less than the set concentration (Y) in the step (S70), the control unit 200 drives the suction fan (F) in the set lowest speed (first set speed) mode (S75), The process proceeds to step S80.

According to an embodiment of the present invention, a hybrid air purification system that has different purification performance according to a polluted environment and a control method therefor, the purification chamber is installed in front of the suction fan of the main body of the air purification device, Primary sterilization and removal of airborne bacteria and viruses by UV-A photolysis. The primary purified air sterilized and removed by UV-A photolysis reacts with moisture in the air to generate oxygen radicals and hydrogen peroxide. Secondary sterilization is removed by sterilizing and purifying agent, and the secondary purified air is removed by micropore filter media, which is the final purification step. sterilizes and removes residual bacteria and viruses that are trapped in the micropore filter media or floating in the blocking space by It detects the intensity of sound and light source in the indoor space, the indoor air quality concentration including the concentration of fine dust and the concentration of volatile organic compounds in the indoor space, and the carbon dioxide concentration in the indoor space, and includes an alarm of yellow dust and fine dust. Receives air quality warning information and infectious disease warning information, determines whether occupancy, indoor air quality concentration, carbon dioxide concentration, and pollution environment status, and controls the suction fan, purification chamber, ventilation notification and ventilation fan accordingly to output a display control signal; By being constituted, it can provide high sterilization power as well as a filtration function to remove fine dust, can remove airborne bacteria and viruses contained in polluted air, and secure high sterilization safety and reliability for purified air, It is operated in a state optimized for the environment of use, and it can be purified by selectively controlling the filtration, deodorization, sterilization and ventilation functions according to the indoor air quality concentration, carbon dioxide concentration, air quality and epidemic warning stage.

An optimal embodiment is disclosed in the drawings and the specification, and specific terms are used, but these are used only for the purpose of describing the embodiments of the present invention, and are used to limit the meaning or limit the scope of the present invention described in the claims it didn't happen Therefore, it will be understood by those of ordinary skill in the art that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

C: control means
100: driving condition setting unit
110: presence detection unit
120: indoor air quality detection unit
121: carbon dioxide detection unit
130: air quality state information receiving unit
140: infectious disease warning information receiving unit
200: control unit
300: suction fan driving unit
310: UV-A lamp driver
320: UV-C pamp driving unit
330: ventilation notification and ventilation fan driving unit
340: wired and wireless communication unit
F: suction fan
400: purification chamber
420: UV-A lamp
425: diffuser plate
427: sterilization and deodorization complex module
427a: alkaline earth metal peroxide sterilizing and purifying agent
427b: granular activated carbon
427c: PP core
430: UV-C lamp
440: micropore filter medium
440a: photocatalyst or inorganic mineral
500: display
600: ventilation notification and ventilation fan
M: user terminal
I: Contaminated air intake
O: Purified air outlet
1000: air filter body

Claims (6)

A hybrid air purification system comprising an air purification device, comprising:
a suction fan (F) installed in the air purifier body (1000) and configured to generate a suction force to suck in polluted air;
Installed in front of the suction fan of the air purifier body, the airborne bacteria and viruses introduced along with the fine dust through the polluted air intake are photolysed by UV-A to remove the primary sterilization, and sterilize and removed by UV-A photolysis. The primary purified air is secondarily sterilized and removed by an alkaline earth metal peroxide sterilizing and purifying agent that reacts with moisture in the air to generate oxygen radicals and hydrogen peroxide. UV-A and UV-C disposed in the blocking space between the sterilization and deodorization complex module 427 installed in front of the micropore filter medium and the micropore filter medium are collected in the micropore filter medium or floating in the blocking space a purification chamber 400 configured to sterilize and remove residual bacteria and viruses;
Ventilation notification and ventilation fan 600 for notifying an appropriate ventilation time to perform natural or forced exhaust in order to purify secondary pollutants that may occur in the purification process by natural or forced ventilation or pollutants that have not been removed;
a display unit 500 configured to display an operating state of the hybrid air purification system; and
It is installed in the main body of the air purification device and detects the intensity of sound and light source in the indoor space, the concentration of indoor air quality including the concentration of fine dust and the concentration of volatile organic compounds in the indoor space, and the concentration of carbon dioxide in the indoor space, Receives air quality warning information and infectious disease warning information, including yellow dust and fine dust warnings, to determine occupancy, indoor air quality concentration, carbon dioxide concentration, and pollution environment status, and accordingly the suction fan, purification chamber, and ventilation notification and a control means (C) configured to control the ventilation fan and output a display control signal to the display unit, wherein the purification performance is varied according to a polluted environment.
According to claim 1,
The purification chamber 400 is
Alkaline metal peroxide sterilizing and purifying agent 427a and granular activated carbon 427b are filled together in a PP (polypropylene) core 427c having a lattice or honeycomb structure, and a photocatalyst is applied to the front and back surfaces of the PP core. a sterilization and deodorization complex module 427 for removing airborne bacteria and viruses and deodorizing odor substances by generating hydrogen peroxide by reacting with oxygen radicals generated in the air;
a diffusion plate 425 installed on the upper and lower portions of the front of the sterilization and deodorization complex module to diffuse light;
A plurality of UV-A lamps 420 configured to irradiate UV-A to the photocatalyst applied to the front and back surfaces of the PP core of the sterilization and deodorization complex module;
a micropore filter material 440 disposed at the distal end of the purification chamber and configured to filter and sterilize the air purified by the sterilization and deodorization complex module, coated with a photocatalyst or inorganic mineral; and
A hybrid air purification system that has different purification performance depending on a polluted environment, including a plurality of UV-C lamps 430 configured to irradiate UV-C to the photocatalyst or inorganic mineral material applied to the micropore filter medium.
3. The method of claim 2,
The control means (C) is
configured to set the operating conditions of the hybrid air purification system, including setting the manual operation mode controlled by the user's artificial switching operation and the automatic operation control mode that determines the general pollution environment or emergency pollution environment mode according to the state of the pollution environment driving condition setting unit 100;
an occupancy detection unit 110 configured to detect the intensity of a sound and a light source in an indoor space;
an indoor air quality detection unit 120 configured to detect indoor air quality concentration including the concentration of fine dust and volatile organic compounds in the indoor space;
a carbon dioxide sensor 121 configured to detect a carbon dioxide concentration in an indoor space;
an air quality condition information receiving unit 130 configured to receive air quality condition information including an alarm of yellow dust and fine dust;
an infectious disease alert information receiving unit 140 configured to receive alert information of infectious diseases including corona;
In the indoor space, the intensity of sound and light source, indoor air quality concentration, carbon dioxide concentration, air quality state information, and infectious disease warning information are received, and whether occupancy, indoor air quality concentration, carbon dioxide concentration and emergency pollution are determined, and a control signal a control unit 200 configured to output
a suction fan driving unit 300 configured to receive a control signal from the control unit and control the driving of the suction fan;
a UV-A lamp driving unit 310 configured to receive a control signal from the control unit and control the driving of the UV-A lamp;
a UV-C lamp driving unit 320 configured to receive a control signal from the control unit and control the driving of the UV-C lamp;
a ventilation notification and ventilation fan driving unit 330 configured to receive a control signal from the control unit and control the operation of the ventilation notification and ventilation fan; and
A hybrid air purification system that varies purification performance according to a polluted environment, including; a wired/wireless communication unit 340 configured to provide an environment in which the control unit and the user terminal can communicate with each other through wired and wireless communication.
A method of controlling a hybrid air purification system, comprising:
In the automatic operation control mode condition of the operation condition setting unit 100 an occupancy detection signal input step in which the control unit 200 receives a signal for detecting the intensity of a sound and light source in an indoor space from the occupancy detection unit 110;
an indoor air quality concentration detection signal input step in which the control unit receives, from the indoor air quality detection unit 120, a detection signal of the indoor air quality concentration including the concentration of fine dust and the concentration of volatile organic compounds in the indoor space;
a carbon dioxide concentration detection signal input step in which the control unit receives a detection signal of a carbon dioxide concentration in an indoor space from the carbon dioxide detector 121;
Air quality condition information input step of receiving, by the control unit, air quality condition information including an alarm of yellow dust and fine dust from the air quality condition information receiving unit 130;
Infectious disease warning information input step of receiving, by the control unit, the warning information of infectious diseases including corona from the epidemic warning information receiving unit 140;
a suction fan driving step in which the controller drives the suction fan (F) while varying the rotation speed according to the indoor air quality concentration;
an occupancy checking step in which the control unit detects a sound and light source intensity in an indoor space and determines whether to occupancy based on this;
a first indoor air quality concentration determining step of determining, by the controller, whether the indoor air quality concentration is equal to or less than a set concentration when it is confirmed that there is an occupant in the occupancy checking step;
a polluted environment determining step in which the control unit determines whether a general polluted environment or an emergency polluted environment is based on the air quality status information and the epidemic warning information when the indoor air quality concentration exceeds the set concentration;
If the emergency pollution environment is reached in the pollution environment determination step, the control unit turns on both the UV-A lamp 420 and the UV-C lamp 430, and sets the ventilation notification and ventilation fan 600 to the emergency pollution environment condition. Emergency pollution environment mode step of driving according to the set second set cycle;
a first carbon dioxide concentration determining step in which the control unit determines whether the carbon dioxide concentration is equal to or greater than a set concentration; and
When the carbon dioxide concentration exceeds the set concentration in the first carbon dioxide concentration determination step, the control unit turns off both the UV-A lamp and the UV-C lamp, and turns off the UV-A lamp and the UV-C lamp;
If the indoor air quality concentration is less than or equal to the set concentration in the first indoor air quality concentration determination step, the control unit drives the suction fan speed to the lowest step mode and then proceeds to the pollution environment determination step. A control method of a hybrid air purification system that differs from
5. The method of claim 4,
A second indoor air quality concentration determining step of determining, by the controller, whether the indoor air quality concentration is equal to or less than a set concentration, when it is confirmed that there is no occupant in the occupancy check step;
When the indoor air quality concentration exceeds the set concentration in the second indoor air quality concentration determining step, the suction fan driving step is performed,
If the indoor air quality concentration is less than or equal to a set concentration in the second indoor air quality concentration determination step, the control unit stops the operation of the suction fan and performs the second indoor air quality concentration determination step. The purification performance is changed according to the polluted environment. A control method of a hybrid air purification system.
5. The method of claim 4,
If the emergency pollution environment is not reached in the pollution environment determination step, the control unit turns on the UV-A lamp 420 and drives the ventilation notification and ventilation fan 600 at a first set period set according to the general pollution environment conditions. general pollution environment mode step;
a second carbon dioxide concentration determining step in which the controller determines whether the carbon dioxide concentration is equal to or greater than a set concentration; and
When the carbon dioxide concentration exceeds the set concentration in the second carbon dioxide concentration determination step, the UV-A lamp extinguishing step of turning off the UV-A lamp by the control unit; Hybrid with different purification performance depending on the polluted environment, further comprising a Control method of air purification system.

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