KR20170052743A

KR20170052743A - An air cleaner

Info

Publication number: KR20170052743A
Application number: KR1020150153880A
Authority: KR
Inventors: 김영재; 김석원; 오인성
Original assignee: 에이블비 주식회사
Priority date: 2015-11-03
Filing date: 2015-11-03
Publication date: 2017-05-15

Abstract

The present invention relates to an air purifier that automatically operates in conjunction with various sensors corresponding to objects, as well as sterilization and deodorization, and includes an air inlet and an air outlet, a main body having an air inlet, A filter for filtering the outside air introduced into the air flow path, a filter for filtering the outside air introduced into the air flow path, a UV wavelength and an anion generated by applying a high voltage to the air passing through the filter, An electric discharge unit for decomposing pollutants contained in the air and sterilizing the bacteria first and a pollutant decomposed in the air passing through the electric discharge unit to be adsorbed, and the adsorbed pollutants are adsorbed on the UV wavelength and anion And the moisture contained in the zeolite by the heat generated by the electric discharge unit A communication unit for receiving air pollution degree information or a driving control command from a pollution level sensor or object Internet controller constituting the Internet of objects, and a controller for driving the air purifier according to the air pollution degree information or the driving control command .

Description

Air cleaner {AN AIR CLEANER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air purifier, and more particularly, to an air purifier that automatically operates in conjunction with various sensors corresponding to objects, as well as sterilization and deodorization.

Generally, a ventilator or an air purifier is installed to purify polluted room air in a home, an office, a factory, or the like, so that polluted air in the room is discharged to the outside, the room air is purified or the outside air is circulated to the room Providing a pleasant and healthy living space.

A simple ventilator, which is commonly seen, is usually equipped with a motor and a fan inside a casing, and is disposed on a wall, a ceiling or a window of a building to discharge the room air to the outside or to supply the outside air to the room. For example, when external air is supplied to the room, harmful substances or dust contained in the outside air are directly introduced into the room without filtration, When the air in the room is to be discharged to the outside, for example, the other part of the room such as the window and the front door must be opened by the passage. Unless the filter is installed in such a passage, You can not prevent entering the room.

Unlike the above-mentioned ventilator, the air purifier circulates the indoor air and removes various harmful substances and components from the circulated air. Recently, due to the influence of yellow dust and the increase of fine dust in the neighboring countries, Of course, there is a tendency to install air purifiers in every place where people gather.

The general structure of the air purifier includes a main body 1, a blowing fan 3 installed on the flow path in the main body and generating a wind force while being rotated by a driving force of the motor 2, A suction port 4 which is formed in the front of the main body 1 and in which the suction port 4 is formed at the time of rotation of the blowing fan 3 so that air is sucked into the main body 1 when the blowing fan 3 is rotated, (5) for discharging the air sucked through the main body (1) to the outside of the main body (1) and an electrostatic precipitator (6) for collecting and removing the dust in the air sucked by the suction port And a deodorizing filter 7 installed behind the electrostatic precipitator 6 for deodorizing and removing the odor component in the air sucked in.

Since the bacteria of the air purifier having such a general structure are adhered to and proliferate, the germs that are proliferated in the filter are released into the room through the outlet 5 every time the air purifier is restarted, , There is a problem that an unpleasant smell is emitted to the room due to the propagation of bacteria.

Korean Patent Publication No. 10-2015-0003705

It is an object of the present invention to provide an air purifier that disinfects germs that breed in a purifier and discharges pleasant air during initial operation,

It is a further object of the present invention to provide an air conditioner and a control method thereof, which can sterilize and deodorize polluted air in a room to discharge clean air, The present invention also provides an air purifier in which air flow rate control or operation mode is variable according to the distance to a resident or air pollution degree.

It is still another object of the present invention to provide an air purifier capable of producing color therapy effect and interior effect as well as air purification.

According to an aspect of the present invention, there is provided an air purifier including a main body having an air inlet and an air outlet, a blower blowing air sucked into the main body and purifying the air outside the air outlet, And an air purifier located in the air flow path and including a filter for filtering the introduced outside air,

An electric discharge unit for decomposing contaminants contained in the air by a UV wavelength and an anion generated by applying a high voltage to the air passing through the filter in the air flow path and sterilizing the bacteria first;

The pollutants decomposed in the air passing through the electric discharge unit are adsorbed, and the adsorbed pollutants are secondarily sterilized and deodorized by the UV wavelength and the anion, and the heat generated by the electric discharge unit causes the zeolite A zeolite filter for evaporating moisture;

A communication unit for receiving air pollution degree information or a drive control command from a pollution level sensor or an object Internet controller constituting the object Internet network;

And a controller for driving the air purifier according to the air pollution degree information or the drive control command.

Further, the air purifier according to another embodiment of the present invention may further include an object detection sensor for detecting a distance to an occupant in addition to the above-described configuration, wherein the controller controls the air purifier Driving is another feature,

The air purifier according to another embodiment further includes a color therapy lighting unit capable of color setting by a resident, wherein the control unit controls the output color of the color therapy lighting unit in at least a driving standby mode and a purifier operating mode, It is another feature.

According to the present invention, the air purifier according to the present invention can obtain an effect of efficiently sterilizing and deodorizing the polluted air by using the electric discharge and the zeolite filter, And the anion can sterilize the filter located at the air inlet as well as the zeolite filter, and it is possible to remove the odor generated at the time of restarting the air purifier.

Further, since the air purifier according to the embodiment of the present invention can be incorporated as a single object constituting the Internet of objects, the user can conveniently control the air purifier at a remote place to conveniently clean the air quality of the room In addition,

In the standby mode, the user or the resident can output the color illumination set in advance, thereby making it possible to utilize the air purifier as a single interior accessory. Also, the color illumination that is effective for increasing the concentration or treating the depression is outputted, The advantage is that it can be used as a device for obtaining the effect.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram illustrating an example of the configuration of an Internet of objects connected to an air purifier according to an embodiment of the present invention; FIG.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air purifier.
3 is a block diagram of an air purifier according to an embodiment of the present invention.
4 is a flowchart illustrating an operation of an air purifier according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 illustrates a configuration of an Internet of objects connected to an air purifier according to an embodiment of the present invention. Referring to FIG.

1, the air purifier 300 according to the embodiment of the present invention is an object that can be connected to the object Internet network IoT, and can be controlled remotely through the IoT controller 200 located in the house And can be directly controlled by the mobile device 100 through a local area network at home.

1, the mobile device 100 is a device capable of transmitting / receiving data to / from the air purifier 300 through a matter Internet or a local area network.

More specifically, the mobile device 100 can remotely control the air purifier 300 by installing and executing an application program for controlling the air purifier 300 through the Internet or the local area network.

1, the mobile device 100 can be connected to the wireless access point AP1 through a short distance communication such as a Wi-Fi or a WiBro, and is capable of connecting various types of objects located in the premises and pollution level sensors 210, 220,. The air purifier 300 and the IoT controller 200 are also connectable to the public network through the wireless access point AP2. Of course, the mobile device 100 can be connected to various objects located in the house through the mobile communication network.

The air purifier 300 can change the color output of the illumination for color therapy according to the operation mode, for example, the driving standby mode and the purifier operation mode. In the standby mode, the pollutant sensor And is operated according to the air pollution degree information or the drive control command received from the object Internet controllers 200 and 210.

The mechanical structure of the air purifier 300 will be described in more detail with reference to FIG. 2,

2 is a cross-sectional view of an air purifier 300 according to an embodiment of the present invention.

2, the air purifier 300 according to the embodiment of the present invention includes an air inlet 341 formed on the left and right sides of the air purifier body, an air outlet 342 for discharging the purified air on the upper front surface, Respectively. The positions of the air inlet 341 and the air outlet 342 may vary depending on the size and design of the air cleaner.

The air inlet 341 and the air outlet 342 are located at both ends of the air flow path and the air flowing into the air purifier 300 through the air inlet 341 is discharged through the air outlet 342 And is defined as a path through which exhaust gas is discharged.

In the air flow path, a blower 345 for sucking air into the main body of the air purifier 300 and discharging purified air by means of the structures described later is disposed outside the air discharge port 342. The number of the blowers 345 may be adopted by a plurality of limit factors such as the shape of the air purifier 300 and the length of the air flow path, and the position of the blower may be varied.

On the other hand, a filter 343 for filtering the external air introduced through the air inlet 341 is located at the beginning of the air flow path. The filter 342 includes a prefilter for removing pollutants having a size of 0.5 mu m or more contained in the incoming air, a hepa filter for removing contaminants of 0.3 mu m or more, a photocatalyst filter for oxidizing organic matter, sterilizing bacteria, Lt; RTI ID = 0.0 > and / or < / RTI > The position of the filter 343 may also be changed in consideration of efficiency.

The main body of the air cleaner 300 is provided with an air conditioning surface body 347 having an air space for providing an air flow path and the electric discharge units 344 and 345 are located below the air conditioning surface body 347 .

The electric discharge units 344 and 345 are located in the air flow path and decompose pollutants contained in the air by UV wavelength and anion generated by applying a high voltage to the air having passed through the filter 343 and sterilize the bacteria first .

For example, the electric discharge units 344 and 345 may be realized as an arc discharge unit. The contaminated air introduced into the arc discharge unit is converted into an excited state by the high energy electrons while passing through the arc discharge band between the arc discharge electrode 344 and the arc discharge electrode 345 to decompose contaminants in the contaminated air, It is sterilized. Ultraviolet rays (UV) and anions generated by the arc discharge may be used for secondary sterilization of contaminants adsorbed by a zeolite filter 346 to be described later. Heat generated by the arc discharge may heat the zeolite, The adsorption effect, the ion exchange and the substitution efficiency are increased, thereby doubling the air purification performance. In the embodiment of the present invention, an arc discharge unit is exemplified as an example of the electric discharge units 3444 and 345. However, a glow discharge unit adopting an anion generated by a glow discharge when power is applied and a glow discharge unit performing dust collection, sterilization and deodorization by ultraviolet rays Or corona discharge may be used, although the efficiency is lowered.

The pollutant decomposed in the air passing through the electric discharge units 344 and 345 is adsorbed on the upper part of the air regulating surface 347 and the adsorbed pollutants are separated by the UV wavelength and the anion generated by the electric discharge units 344 and 345 The zeolite filter 346 is disposed for secondary sterilization and deodorization, and the moisture contained in the zeolite is evaporated by the heat generated by the electric discharge units 344 and 345.

Zeolite is a kind of inorganic polymer substance formed by three-dimensionally connecting silicon and aluminum through oxygen atoms, and is usually obtained as fine crystals having a size of about 0.1-10 μm. They have 0.3 to 1.3 nanometer nanopores of various shapes and sizes, and possess excellent ion exchange capacity. Therefore, they are widely used in various fields such as catalysts, adsorbents, ion exchangers and dehydrating agents. Is used.

In the embodiment of the present invention, a zeolite filter 346 having a box of a certain size of granules made of zeolite powder containing titanium oxide and Ni according to the case of the zeolite powder may be used as the air controlling needle 347 So that contaminants decomposed in the air are adsorbed on the micropores of the zeolite filter 346. [

The purified air having passed through the zeolite filter 346 is discharged to the outside of the purifier body through the air discharge portion 342 by the blower 348.

The air introduced through the air inlet 341 by the blower 348 passes through the filter 343 and is introduced into the air by the blower 348. [ The contaminants having a size of 0.5 mu m or more are removed.

The pollutants contained in the air are decomposed by the UV wavelength and anions generated by the high voltage applied to the electric discharge units 344 and 345, And passes through the zeolite filter 346 while being subjected to the primary sterilization treatment.

Ultrafine contaminants are again adsorbed to the zeolite filter 346 while ultraviolet light and anions generated by the electric discharge units 344 and 345 are adsorbed to the zeolite filter 346 The heat generated by the electric discharge evaporates the moisture contained in the zeolite by heating the zeolite to increase the efficiency of the zeolite catalyst, adsorption effect, ion exchange and substitution, . The purified air having passed through the zeolite filter 346 is discharged again through the air discharge portion 342 to the room.

3 is a block diagram of an air purifier 300 according to an embodiment of the present invention. Referring to FIG. 3, an air purifier 300 according to an exemplary embodiment of the present invention will be described with reference to FIG.

3, the air purifier 300 according to an exemplary embodiment of the present invention may include at least one of air pollution degree information or driving control information from an object constituting the object Internet, such as the pollution level sensors 210 and 220 or the object Internet controller 200, A communication unit 305 for receiving an instruction,

A control unit 310 for driving the air purifier according to the air pollution degree information or a drive control command, an electric discharge unit 315 described in FIG. 2, a user interface unit 320 for displaying an operation status and a user operation command, .

In addition to these configurations, the air purifier 300 may further include an object detection unit 330 for detecting a distance to the occupant. In this case, when an object is sensed in the standby mode, (300) can be automatically driven.

Further, the air purifier 300 may further include a color therapy illumination unit for enhancing the purpose of the psychotherapy or concentration of the residents, as well as the interior decoration effect. In this case, the control unit 310 may control the output color of the color therapy lighting unit in at least different colors in the driving standby mode and the purifier operating mode, so that the interior effect is naturally produced.

The illumination unit 340 may be implemented as a plurality of LED assemblies for color therapy, and the plurality of LEDs may be arranged in an effective position for color therapy, i.e., at a proper position on the front panel, top surface, or side surface of the main body case of the air purifier 300 .

For reference, if the resident's emotional state is "depressed ", the illumination color is selected so as to output the color for relieving depression, that is," red " Choose a pink color, and select a yellow color to increase focus and attention. The color selection may be performed by the user through the user interface unit 320 or may be performed by the mobile device 100 for remote control of the air purifier 300. Alternatively, (Via a recognition sensor) to automatically make color selections.

In addition, the control unit 310 may automatically control the air volume based on the air pollution degree information.

The operation of the air purifier 300 having the above-described mechanical and electrical configurations will now be described with reference to FIG.

4 is a flowchart illustrating an operation of the air purifier 300 according to an embodiment of the present invention.

As shown in FIG. 4, the controller 310 of the air purifier 300 according to the embodiment of the present invention controls the operation of the air purifier 300 in a driving standby mode (in this driving standby mode, the lighting color output from the color therapy lighting unit is a color selected by the occupant It is checked whether air pollution degree information or a drive control command is received from the pollution level sensors 210 and 220 or the object Internet controller 200 constituting the object Internet through the communication unit 305 in operation S10. The driving control command may be a command generated in the mobile device 100 and received through the IoT controller 200. The IoT controller 200 may transmit the pollution degree information read from the pollution level sensors 210 and 220 to the air purifier 300 And is a value generated and transmitted by the IoT controller 200 when it has a value to be driven.

If the air pollution degree information (assuming information transmitted from the IoT controller) is received in step S10, the control unit 310 determines whether the received air pollution degree information has a value for driving the air purifier 300 , And controls the air purifier 300 according to the determination result (step S20). If the drive control command is received, the controller 310 proceeds to step S20 and controls the air purifier 300 to operate.

When the control unit 310 drives the air purifier 300, the surrounding air is first introduced into the purifier body through the air inlet 341 by the blower 348, and the introduced air passes through the filter 343, The contaminants having a size of 0.5 mu m or more contained therein are removed.

In this purifier operating mode, the controller 310 controls the color therapy lighting unit 340 to output a color different from the driving standby mode, thereby informing the occupant that the purifier is operating.

The controller 310 controls the purifier 300 according to the control command when the control unit 310 receives a new control command through the communication unit 305 or the user interface unit 320. [ If the received control command is a drive stop command, the controller 310 stops driving the air cleaner 300 and then switches to the drive standby mode.

In step S30, the control unit 310 controls the color therapy lighting unit 340 so that the color therapy setting color is output again in step S40. In step S50, it is checked whether there is a system off command. The system off command refers to a case where the power supplied to the purifier 300, which is different from the driving stop, is completely cut off. That is, the control unit 310 maintains the driving standby mode and selectively drives and controls the air purifier 300 according to the driving control command or the air pollution information received in the driving standby mode, unless the system operation power is shut off.

As described above, the air purifier 300 according to the embodiment of the present invention purifies contaminated air by using an electric discharge and a zeolite filter, and the zeolite filter 346, It is possible to sterilize the filter 343 located at the air inlet 341 and to remove the odor generated at the time of operating the air purifier,

Since the air purifier is incorporated as one of the objects constituting the object network, the user can conveniently control the air purifier at a remote place to conveniently clean the indoor air quality.

In addition, the air purifier according to the embodiment of the present invention has an advantage that the air purifier can be utilized as a single interior accessory by outputting color lights preset by a user or a resident in a standby mode, So that it can be utilized as a device capable of obtaining a color therapy effect.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. Accordingly, the true scope of the present invention should be determined only by the appended claims.

341: Air inlet port 342: Air discharge port
343: filter 344, 345:
346: Zeolite filter 347:
348: Blower

Claims

A blower for blowing out the air sucked and purified so as to allow air to flow into the main body out of the air outlet, and a filter for filtering the outside air introduced into the air flow path The air purifier comprising:
An electric discharge unit for decomposing contaminants contained in the air by a UV wavelength and an anion generated by applying a high voltage to the air passing through the filter in the air flow path and sterilizing the bacteria first;
The pollutants decomposed in the air passing through the electric discharge unit are adsorbed, and the adsorbed pollutants are secondarily sterilized and deodorized by the UV wavelength and the anion, and the heat generated by the electric discharge unit causes the zeolite A zeolite filter for evaporating moisture;
A communication unit for receiving air pollution degree information or a drive control command from a pollution level sensor or an object Internet controller constituting the object Internet network;
And controlling the air purifier according to the air pollution degree information or the driving control command.

The air purifier of claim 1, further comprising: an object detection unit for detecting a distance to the occupant, wherein the control unit automatically drives the air cleaner when the object is detected in the driving standby mode.

The color therapy system according to claim 2, further comprising a color therapy lighting unit capable of color setting by a resident, wherein the control unit controls the output color of the color therapy lighting unit in at least a driving standby mode and a purifier operating mode, Air purifier.

The air purifier according to any one of claims 1 to 3, wherein the controller automatically controls the air volume according to the air pollution degree information.