KR101043967B1 - Air purifier for front door - Google Patents

Abstract

PURPOSE: An entrance air cleaner is provided to sense inflow of outside due to opening of an entrance using a sensor, inhale polluted air, sterilize and purify the polluted air and supply the purified air to an indoor space. CONSTITUTION: An entrance air cleaner comprises an air inlet part, an air purification part, a controller, and a sensor(60). The air inlet part is installed around an entrance(3) and inhales the air. The air purification part purifies the inhaled air. The controller decreases the amount of air inhaled through the air inlet part to a predetermined reference value if the sensor does not sense an opening state of the entrance and maximizes the amount of air inhaled through the air inlet part if the sensor senses the opening state of the entrance.

Description

Air Purifier for Front Doors {Air Purifier for Front Door}

The present invention relates to an entrance air purifying apparatus, and more particularly, is installed around the entrance to detect the inflow of outdoor air due to the opening of the entrance with a sensor, and sucks contaminated inlet air to sterilize and purify it, and then supplies it to the room. Very useful doorway air that can contribute to the improvement of health and learning ability of the indoors by contributing to the original blockade of contaminated outdoor air at the doorway that is most likely to contaminate indoor air. It relates to a purification device.

In general, an air purifier is a device that supplies and sterilizes and purifies indoor air, and is mainly supplied to schools, hospitals, cooking rooms, office buildings, subway stations, underground shopping malls, terminal waiting rooms, airport facilities, Large industrial air purifiers for disinfecting and purifying indoor air in an air conditioner or clean room, etc. for the purification of multi-use facilities used by many people, such as libraries, museums, saunas, PC rooms, and offices. A typical example is a household / portable air purifier that supplies and sterilizes and purifies indoor air in such a small space.

However, all of these air purifiers are designed to maintain clean indoor air from which contaminants have been removed by continuously supplying indoor air in a predetermined space, supplying it again after sterilization and purification.

However, the conventional air purifier is not designed to adequately cope with a place where a lot of people stay together for a long time in a limited space such as a school, academy and a movie theater, and move at the same time through a designated entrance. there was.

In more detail, the conventional air purifier is installed on the central ceiling or one side of the room, and the contaminated air and dust flowing from the entrance are actually diffused and contaminated throughout the indoor space while being sucked into the air purifier. Only after the exit through the doorway and the doorway was closed, there was a problem in that the indoor air was gradually introduced and sterilized and purified to reduce the indoor air pollution.

The present invention is to be devised to solve the above-mentioned conventional problems, is installed around the doorway to detect the inflow of outdoor air due to the opening of the door with a sensor, and to suck the contaminated inlet air to sterilize and purify it, and then supplied to the room By blocking the inflow of contaminated outdoor air at the entrance that is most likely to contaminate indoor air, it is very useful to improve the health and learning ability of the indoor room by improving the purification efficiency and reducing the possibility of indoor air pollution. The purpose is to provide an entrance air purifier.

The present invention for achieving the above object is an air suction unit for sucking air, an air purifying unit for purifying the sucked air, an air discharge unit for supplying the purified air to the room, and a control unit for controlling their operation In the air purifier comprising, the air suction unit (10) is installed around the entrance (3) for opening and closing the room; It further comprises a sensor unit (60) installed on one side of the doorway (3) to detect the opening and closing state of the doorway (3) to communicate with the control unit (40); When the control unit 40 detects the open state of the doorway 3 in the sensor unit 60, the control unit 40 sucks the outdoor air introduced through the doorway through the air suction unit 10 to purify the air purifier 20. After that, the object is achieved by providing an entrance air purifier that controls to supply the purified air through the air discharge unit 30 to the room.

In addition, in the doorway air purifier, the control unit 40, if the sensor unit 60 does not detect the open state of the doorway (3) is a predetermined amount of suction sucked through the air intake unit (10) Decrease to a reference value; When the sensor unit 60 detects the opening state of the entrance 3, it is preferable to control the suction amount to be maximized through the air suction unit 10 to the maximum.

In addition, in the door air purifier, the sensor unit 60 is any one or a combination of two or more of the flow sensor, the motion sensor or a magnetic sensor attached to the door and the door frame to detect the separation according to the opening of the door. It is preferred to be configured.

In addition, in the entrance air purifier, the air intake unit 10 is activated when the sensor unit 60 detects an open state of the door 2 and is installed to surround the door 2. 1 suction part 11; It is preferably configured to be spaced apart from the first suction unit 11 and the second suction unit 12 which continues to suck the indoor air as usual.

In the entrance air purifier, the first suction part 11 preferably has a slit shape.

In addition, in the entrance air purifier, the air purifier 20 includes a high pressure generator 22 for generating a high pressure for high pressure discharge under the control of the controller 40; It is preferable that the high pressure generating unit 22 discharges the high pressure generated by the ozone generating unit 23 to generate ozone.

In addition, in the entrance air purifier, the air purifier 20 includes a high pressure generator 22 for generating a high pressure for high pressure discharge under the control of the controller 40; Two electrodes 251 spaced apart by receiving and discharging the high pressure generated by the high-pressure generating unit 22, and a plurality of dielectrics are stacked are arranged at intervals in which air can be introduced between the electrode 251 It is preferable that the plasma generator 25 includes a 252.

In addition, in the entrance air purifier, the dielectric 252 is preferably any one or a combination of two or more of glass, alumina, and mica.

In addition, in the entrance air purifier, the air purifying unit 20 includes: a cylindrical mesh unit 251 coated with the metal hydrate catalyst 251a; An ultraviolet lamp 252 installed in the longitudinal direction inside the mesh unit 251; It is preferably composed of a photocatalyst sterilization unit 26 including a protective film 253 of a transparent polypropylene copolymer material formed in a cylindrical shape to surround and protect the ultraviolet lamp 252.

In the entrance air purifier, the metal hydrate catalyst 251a is preferably one or a combination of two or more of titanium oxide (TiO 2), silver (Ag), copper (Cu), and rhodium (Rh).

The effects of the present invention are as follows.

Installed around the doorway, the sensor detects the inflow of outdoor air due to the opening of the doorway, inhales, sterilizes and purifies the contaminated inlet air, and supplies it to the room, thereby contaminating the outdoor air at the doorway most likely to contaminate the room air. It is a very useful invention that can provide a very useful entrance air purifier that can contribute to the improvement of health and learning ability of the indoor room by reducing the inflow of the source is very high purification efficiency and the possibility of pollution of indoor air.

1 is a schematic view showing the indoor air purification process of a conventional air purifier
Figure 2 is a schematic diagram showing a purification process of the entrance air purifier according to the present invention
3 is a block diagram of a door air purifier according to the present invention
Figure 4 is a front view showing the installation state of Example 1 to which the present invention is applied
5 is a front view showing an installation state of Example 2 to which the present invention is applied;
Figure 6 is a perspective view showing the operating state of Example 2 to which the present invention is applied
7 is a schematic view showing various modifications of the air purification unit of the present invention

Hereinafter, the present invention will be described in detail through preferred embodiments. However, the present embodiments should be understood to explain the present invention so that the present invention can be better understood, and the terminology or words used should not be construed as limiting in a general or dictionary sense, and the inventors should consider their best invention. Based on the principle that the concept of the term can be properly defined in order to explain the method, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention, and it should not be understood that the present invention is limited thereto.

First, referring to the present invention in contrast to Figure 1 and Figure 2, Figure 1 shows a schematic view showing the indoor air purification process of the conventional air purification device, the place is a lecture room and the doorway (3) on the right is opened to the outside When the polluted air in is introduced, it moves to the place where the polluted outdoor air and the air purifier are installed and is purified.

As can be seen here, the conventional air purifier is installed in a granular form on one side (100) and the case of a ceiling buried type (100 ') at the same time, both polluted outdoor air polluted the front of the classroom room It is introduced while polluting all of the right space. Even though the polluted air flows into the air cleaners 100 and 100 'buried in the front left and the ceiling, only the left rear part of the classroom is not contaminated, but most of the space is contaminated and then purified. There was a problem with post-processing.

The entrance air purifier (1,1 ') of the present invention is installed around the entrance to detect the inflow of outdoor air due to the opening of the door with a sensor, and by sucking and disinfecting the contaminated inlet air to supply it to the room, As shown in 2, the contaminated outdoor air is directly inhaled through the air intake unit 10, so that most of the space in the lecture room is purified without contaminants, and thus the purification efficiency becomes very high. The technical characteristics of being able to contribute to the improvement of health and learning ability of the insider is to live.

Example 1

As shown in FIG. 3, the outlet air purifying apparatus 1 of the present invention includes an air suction unit 10, an air purifying unit 20, an air discharge unit 30, a control unit 40, and a sensor unit 60. It is configured to, as shown in Figure 4 is installed on the upper portion of the doorway 3 is provided with a sliding door or a sliding door (2).

The entrance air purifier 1 includes an air suction unit 10 at a lower portion thereof, an air purifying unit 20 is installed, and an air discharge unit 30 is formed at an upper portion (or an upper upper portion), and a sensor portion ( 60 is provided at the position where the opening of the doorway 3 is started, and each of the components is connected to and controlled by the control unit 40 built in the doorway air purifier 1.

Referring to the state in which the first embodiment of the present invention configured as described above operates as follows.

First, if there is almost no flow population through the entrance during the lecture time in the state that there are dozens of indoor rooms in the classroom as shown in FIG. 2, the entrance air purifier 1 of the first embodiment is in a normal state (normal state) at low speed indoors. Sterilization and purification ensures clean indoor air.

However, when the lecture time is over and the door 2 is opened and a large population moves through the doorway 3, the polluted outdoor air is introduced into the room in a large amount through the doorway 3.

At this time, the sensor unit 60 installed on the upper part of the door 2 detects the open state of the door at the moment when the insider opens the door 2. The sensor unit 60 may be a flow rate sensor for detecting the movement of air or a motion detection sensor for detecting the movement of the chamber. However, the sensor unit 60 is not limited to this and includes all alternatives that can be used for the same purpose.

The sensor unit 60, which detects the opening state of the doorway, notifies the control unit 40 built into the door air purifier 1.

The control unit 40 notified of the opening state of the entrance and exit opens the air intake unit 10 and rotates the fan 50 at the maximum speed (Turbo state) to suck in contaminated outdoor air.

In FIG. 4, all of the contaminated air moves upwards and is sucked into the air inlet 10 of the inlet and air purifier 1 of the present invention, and is purified to the front (or front upper side) through the air outlet 30. You can look at the state to discharge the purified air.

The polluted outdoor air sucked into the entrance air purifier 1 is collected through the filter unit 21, and fine dust and pollen are collected thereafter, and then, as shown in FIG. Air introduced through the air purification unit 20 is purged and sterilized.

The air purification unit 20 currently has a variety of methods, such as high efficiency Particulate Air (HEPA) method, ozone, photocatalyst, plasma method and these can be installed in one or more combinations.

For example, as shown in FIG. 7, the ozone sterilization method is sterilized while passing through the ozone generating unit 23 generating ozone by discharging the high pressure generated in the high pressure generating unit 22, and optionally by incorporating an ultraviolet lamp. It is also possible to further include an ultraviolet sterilization unit 24 for ultraviolet sterilization.

In addition, the plasma sterilization method is a method of removing harmful germs or bacteria in the air by the plasma and removing fine dust. The plasma sterilization method is classified into corona discharge or dielectric barrier discharge according to the method of generating plasma. .

Corona discharge is a method of generating a plasma by applying a high voltage to the tip of a pointed metal tip, and dielectric barrier discharge inserts a dielectric between the high voltage electrode and the ground electrode and applies an alternating voltage to the high voltage electrode. It is not necessary to apply a high voltage in a manner of generating plasma by ionizing the gas accelerated at and the plasma is easily generated and is frequently used in the field of cleaning and surface modification of contaminants.

In the present invention, a discharge method using a dielectric barrier is used, and a configuration thereof includes: a high pressure generator 22 for generating the high pressure for the high pressure discharge under the control of the air purifier 20; Two electrodes 251 spaced apart by receiving and discharging the high pressure generated by the high-pressure generating unit 22, and a plurality of dielectrics are stacked are arranged at intervals in which air can be introduced between the electrode 251 Plasma generating unit 25 including a (252); to generate a large amount of plasma to sterilize the virus and bacteria of the introduced air. At this time, the dielectric 252 may be used any one or two or more of glass, alumina, mica.

In addition, the sterilization and purification method using the photocatalyst can be applied, the configuration is the air purification unit 20, the cylindrical mesh portion 261 coated with the metal hydrate catalyst (261a); An ultraviolet lamp 262 installed in the longitudinal direction of the mesh portion 261; Sterilizing viruses and bacteria in the air introduced by the photocatalyst sterilization unit 26, including a protective film 263 of a transparent polypropylene copolymer material formed in a cylindrical shape to surround and protect the ultraviolet lamp 262, Can be purged.

The metal hydrate catalyst 251a may be any one or a combination of two or more of titanium oxide (TiO 2), silver (Ag), copper (Cu), and rhodium (Rh).

Titanium oxide (TiO2) is a photocatalyst, which generates electron-holes on the metal surface by irradiation of ultraviolet rays to decompose water molecules in the air and is a very powerful oxidant and generates hydroxyl (OH-) which decomposes various kinds of organic compounds. Let's do it.

In addition, the silver (Ag) accelerates the reaction of the titanium oxide as a photocatalyst to attract a large amount of oxygen to decompose the decomposition of the organic compound about three times faster.

In addition, the copper (Cu) is also stable in the form of metal oxide and promotes the reaction with water vapor and serves to accelerate the decomposition reaction of titanium oxide with silver (Ag).

In addition, the rhodium (Rh) is an excellent performance in decomposing nitrogen oxides (NO, NO2) and is mainly used to remove automobile exhaust gas, which is the main cause of air pollution.

Next, when the rest period is finished and the entrance door 2 of the lecture room is closed and the doorway 3 is closed, the sensor part 60 detects the doorway closed state and notifies the control part 40 of the doorway.

Next, the notified control unit 40 is to control the speed of the fan 50 to rotate at a low speed in normal (normal state).

Example 2

5 to 6, the second embodiment of the present invention is divided into the first air suction unit 10 and the second air suction unit 10 in the configuration of the first embodiment 1 The suction part 11 is attached to the left and right sides of the doorway (3) in the form of a thin bar (bar) or formed to be embedded in the doorway (2) and the corresponding doorway (3), contaminated immediately from the side, not only at the top It is a technical feature that the outdoor air can be sucked in by allowing the polluted outdoor air to be sucked in faster.

In addition, the sensor unit 60 is a magnetic sensor, one side is attached to the door (2) and the other side is attached to one side of the corresponding doorway (3) is attached to the magnetic force when the door 2 is closed. ) Is notified to each other at the time of opening and informs the control unit 40 of the separated state.

The opening of the first suction part 11 may be formed in a thin slit shape to effectively suck contaminated outdoor air even in a narrow space. At this time, as shown in Fig. 6, the slit may be formed of one facing forward and one facing the entrance 3 side.

Referring to the state in which the second embodiment of the present invention configured as described above operates as follows.

First, if there is almost no flow population through the entrance during the lecture time in the state of the interior of the classroom as shown in Figure 4 dozens to hundreds of interior room, the entrance air purifier (1) of Example 2 is normal at low speed (normal state) Sterilization and purification of) keeps indoor air clean.

However, when the lecture time is over and the door 2 is opened and a large population moves through the doorway 3, the polluted outdoor air is introduced into the room in a large amount through the doorway 3.

At this time, the sensor unit 60 installed on the upper part of the door 2 is separated from each other as soon as the room opens the door 2 to detect the open state of the door.

The sensor unit 60, which detects the opening state of the entrance and exit, notifies the control unit 40 built in the entrance air purifier 1 ′.

The control unit 40 notified of the opening state of the entrance and exit opens the air intake unit 10 and rotates the fan 50 at the maximum speed (Turbo state) to suck in contaminated outdoor air.

5 to 6, the contaminated air moves upward and left and right to be sucked into the first and second air intakes 11 and 12 of the inlet air purifier 1 'of the present invention, and purified to discharge air. It can be seen that the state to discharge the purified air to the front or front upper side through the unit 30. In the case of the air discharge unit 30, when the ceiling of the room is low, it is preferable to discharge forward rather than upward, and in the case of a theater with a very high ceiling, it is preferable to discharge toward the front upper side.

The polluted outdoor air sucked into the entrance air purifier 1 'is collected through the filter unit 21, and fine dust and pollen are collected, and sterilized while passing through the other air purifier 20.

The first air suction unit 10 sucks the polluted air from the left and right sides, and the second air suction unit 10 sucks the polluted air from the upper side, thereby effectively inhaling the air within a shorter time.

Next, when the rest period is finished and the entrance door 2 of the lecture room is closed and the doorway 3 is sealed, the magnetic sensors are attached to each other to detect the door closed state in the sensor unit 60 and notify the control unit 40 of the doorway.

Next, the notified control unit 40 is to control the speed of the fan 50 to rotate at a low speed in normal (normal state).

Through Examples 1 and 2 of the present invention, air is effectively blocked in indoor spaces such as schools, lecture halls, and cinemas that are temporarily closed for a predetermined time, and purification is performed in a shorter time, thereby providing more comfortable and clean air. Providing to the in-house can provide effects for improving health and improving learning ability.

Unexplained 4 is the classroom and 5 is the blackboard.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

<Description of the symbols for the main parts of the drawings>
1, 1 ': entrance air filter 2: entrance door
3: entrance 10: air intake
11: first suction part 12: second suction part
20: air purification unit 21: filter unit
22: high pressure generating unit 23: ozone generating unit
24: UV sterilization unit 25: plasma generating unit
251 electrode 252 dielectric
26: photocatalyst sterilization unit 251: mesh unit
251a: metal hydrate catalyst coating 252: UV lamp
253: protective film 30: air outlet
40: control unit 50: fan
60: sensor

Claims (10)

delete An air intake unit installed around the entrance to open and close the room to suck air, an air purifying unit to purify the sucked air, an air discharge unit to supply the purified air to the room, and a control unit to control the operation thereof And a sensor unit installed at one side of the doorway to detect an open / closed state of the doorway to communicate with the control unit. When the control unit detects the open state of the doorway, the air intakes the outdoor air introduced through the doorway. In the air purifying apparatus for controlling to supply the purified air through the air discharge unit after purifying by the air purifying unit through the air,
The control unit 40,
If the sensor unit 60 does not detect the open state of the entrance (3), the suction amount sucked through the air suction unit 10 is reduced to a predetermined reference value;
When the sensor unit 60 detects the open state of the doorway (3), the door air purifier, characterized in that to control to increase the amount of suction sucked through the air intake (10) to the maximum. The method of claim 2,
The sensor unit 60 is an entrance air purifier, characterized in that consisting of any one or two or more of a flow rate sensor, a motion sensor or a magnetic sensor attached to the door and the door frame to detect the separation according to the opening of the door. . The method of claim 2,
The air suction unit 10,
A first suction part 11 which is activated when the sensor part 60 detects an open state of the door 2 and is installed to surround the door 2;
And a second suction part (12) installed spaced apart from the first suction part (11) and continuing to suck the indoor air as usual. The method of claim 4, wherein
The first air suction unit 11 is characterized in that the slit shape. The method of claim 2,
The air purification unit 20 and the high pressure generating unit 22 for generating a high pressure for high pressure discharge under the control of the control unit 40;
An ozone air purifier, comprising: an ozone generator (23) generating ozone by discharging the high pressure generated by the high pressure generator (22). The method of claim 2,
The air purification unit 20 and the high pressure generating unit 22 for generating a high pressure for high pressure discharge under the control of the control unit 40;
Two electrodes 251 spaced apart by receiving and discharging the high pressure generated by the high-pressure generating unit 22, and a plurality of dielectrics are stacked are arranged at intervals in which air can be introduced between the electrode 251 And a plasma generating unit (25) including (252). 2. The method of claim 7, wherein
The dielectric 252 is an entrance air purifier, characterized in that any one or a combination of two or more of glass, alumina or mica. The method of claim 2,
The air purification unit 20,
A cylindrical mesh portion 261 coated with the metal hydrate catalyst 261a;
An ultraviolet lamp 262 installed in the longitudinal direction of the mesh portion 261;
An entrance air purifying apparatus comprising a photocatalyst sterilization unit 26 including a protective film 263 of a transparent polypropylene copolymer material formed in a cylindrical shape to surround and protect the ultraviolet lamp 262. The method of claim 9,
The metal hydrate catalyst (251a) is an entrance air purifier, characterized in that any one or a combination of two or more of titanium oxide (TiO2), silver (Ag), copper (Cu) and rhodium (Rh).

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