KR102395525B1 - Iot based module type antivirus gate entrance space solid sterilization - Google Patents

Abstract

An objective of the present invention is to three-dimensionally sterilize space without blind spots. An IoT-based modular antivirus gate for three-dimensional sterilization of door space comprises: a pipe-type gate body having an inlet and an outlet separated from each other by a prescribed distance to be formed in an inverted U-shape while standing on a door entry passage, and an air flow passage formed therein and provided with a rotary outlet formed on an upper portion thereof; a photocatalytic air purification unit purifying air entering from the door entry passage by a photocatalytic reaction to discharge the air to the entry passage and discharge the air downwards by rotation; a UV-C LED exposed and arranged on the entry passage side of the pipe-type gate body to be rotated to emit ultraviolet light having a UV-C wavelength band to the door entry passage to oxidize the air in the door entry passage to decompose and sterilize the air; an IoT sensor module generating contamination information corresponding to the indoor dust concentration, temperature, and humidity of indoor air, checking a fever condition after measuring the body temperature of a visitor, and collecting data of the visitor through a touch pad when entering to transmit the data of the visitor; a communication module communicating with an external server in real time to receive information on the dust concentration of outdoor air and transfer indoor contamination information to a smartphone; and a control unit controlling operations of the photocatalytic air purification unit and the UV-C LED based on the indoor contamination information.

Description

IOT-based modular anti-virus gate for three-dimensional sterilization of entrance space {IOT BASED MODULE TYPE ANTIVIRUS GATE ENTRANCE SPACE SOLID STERILIZATION}

The present invention relates to an IoT-based modular anti-virus gate, and more particularly, to an IoT-based modular anti-virus gate for three-dimensional sterilization of a hallway space.

The entrance refers to the entrance to all buildings, such as houses, and is mainly used as a place to separate and connect the inside and outside of the house. There are many inconveniences because when a person passes through a living room or hallway with pollutants on them, the house is inevitably dirty with pollutants. According to Emerging Infectious Diseases by the U.S. Centers for Disease Control and Prevention (CDC) in April, 100% of the coronavirus was detected on the floor of pharmacies used only by health workers in hospitals in Wuhan, China, and about half of health care workers transmit the coronavirus from the soles of their shoes. appear. A research team at the University of Houston in the United States took a bacterial sample from the hallway and tested it. As a result, 40% of the sample was contaminated with a bacterium called 'C. difficile'. According to a paper published in the New England Journal of Medicine, about half a million people become infected with C. difficile each year. The common route of infection is hospitals, but 35% of them occur outside of hospitals. Since there is no device installed at the entrance to remove harmful foreign substances including viruses attached to clothes or hands and feet, it contaminates the interior when entering from the outside, and is fatal, such as being infected with infectious bacteria such as viruses. cause respiratory disease; In the post-corona era, the paradigm shift from air cleaning function to space sterilization function, but the entrance space sterilization device is absent. These days, with the fear of the virus rising due to Corona 19, there is a high interest in improving air quality above all else. Just as air purifiers have become essential household appliances due to the sharp increase in fine dust from a few years ago, now air sterilizers that can remove viruses in the air are in the spotlight. As the demand for air sterilization equipment is rapidly increasing for daily quarantine in small-scale dense facilities, centered on multi-use facilities, it is establishing itself as an essential product for establishing a daily life quarantine system as a defense against various harmful substances such as bacteria and viruses. As the operation of indoor air conditioners in multi-use facilities in summer becomes inevitable, experts not only continue to raise the risk of corona 19 virus transmission due to air conditioner wind, but also air purifiers are not expected to play their role due to the effectiveness and efficiency of filters emerging. . As such, as life patterns change due to COVID-19 and public awareness of indoor air contagion increases, building an indoor air sterilization system beyond air purification is emerging as a new answer. However, there is still no door space sterilization system other than products that add a sterilization function to the function of an air conditioner or air purifier.

Patent Registration No. 10-2151990 {Registration Date: August 31, 2020}

The present invention blocks harmful substances such as ultrafine dust and viruses from entering the room by photocatalytic reaction and ultraviolet irradiation in the UV-C band. It aims to provide an IOT-based modular antivirus gate for spatial sterilization.

The IOT-based modular anti-virus gate for three-dimensional sterilization of the entrance space according to the present invention has an air passage equipped with an inlet and an outlet spaced apart from each other by a predetermined distance in an ∩ shape while standing on the entrance passageway, and a rotary outlet formed at the top. A pipe-type gate body formed in; a photocatalytic air purification unit formed in the air passage to purify the air flowing in from the entrance passage through a photocatalytic reaction, discharge it to the entrance passage through the discharge port and the rotary discharge port, and rotatably discharge it downward; a UV-A element rotatably disposed on the pipe gate body to be rotatably exposed toward the access passage and oxidize the air in the entrance passage by irradiating ultraviolet rays having a UV-A wavelength band to the entrance passage to decompose and sterilize; Generates pollution information corresponding to indoor dust concentration, temperature, or humidity in the indoor air, measures the body temperature of an occupant with a thermal imaging camera, checks the fever status, and collects and transmits occupant data through the touchpad IoT sensor module; a communication module that communicates with an external server in real time to receive information on the dust concentration of outdoor air, and transmits indoor pollution information from the IoT sensor module to a smartphone; And Based on the indoor pollution information from the IoT sensor module, it characterized in that it comprises a control unit for controlling the operation of the photocatalytic air purification unit and the UV-A device.

The photocatalytic air purification unit has an upper end connected to the upper end of the pipe-type gate body to purify contaminants including fine dust contained in the air moving from the suction port to the rotary discharge port, and a photocatalyst to form a vortex in the air flow coated spiral columns; a UV-C LED installed adjacent to the spiral pillar to oxidize and decompose harmful substances or impurities in the air by irradiating UV-C band ultraviolet rays to the spiral pillar to oxidize the air by a photocatalytic reaction; and a blower installed in the air passage to suck air from the outside through the inlet and blow the air purified by the spiral pillar and the UV-C LED to the entrance passage through the outlet and the rotary outlet of the air passage. may include

The photocatalyst may include at least one selected from the group consisting of TiO ₂ , SiO ₂ , WO ₃ , and ZnO, and the spiral pillar may include an acrylic pillar or a glass pillar. The IOT-based modular anti-virus gate for three-dimensional sterilization of the entrance space may further include a display unit for displaying indoor space information of the entrance passage.

The IOT-based modular anti-virus gate for three-dimensional sterilization of the entrance space according to the present invention is installed in the middle door of the front room of the entrance to remove harmful substances and viruses on the clothes of the occupants, so that they can enter the room in a clean state, and titanium dioxide (TiO ₂ ) and UVC LED irradiation to sterilize the air polluted in the front room and purify the space between the front door and the middle door into a clean space. By designing the system structure and convergence of smart IoT platform and smart cloud, it is equipped with a solution that enables real-time indoor access and indoor air quality check anytime, anywhere.

The present invention also develops and installs a separate mechanism with a structure that can convert wind in the form of a cyclone at the rotary outlet of the Cross Fan, and through this, creates a wind of a low air volume and high diffusion structure through air compression and maximizes efficiency, By developing a rotary air outlet that sprays at high pressure to create an air flow, air over a predetermined pressure is sprayed, and the flow of air by the thrust generated by the blower fan is accelerated through the air outlet and provided without external leakage into the gate. . In addition, air is sprayed at high speed through the rotary outlet to remove polluted dust and viruses on the body, and the UV-C LED, a rotary sterilization lamp, and the air outlet at the top enable three-dimensional sterilization without blind spots.

1 is a block diagram showing the configuration of an IOT-based modular anti-virus gate for three-dimensional sterilization of a hallway space according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating a monitoring operation in the IOT-based modular anti-virus gate for three-dimensional sterilization of the vestibule space shown in FIG. 1 .
3 is a front view of the IOT-based modular anti-virus gate for three-dimensional sterilization of the vestibule space shown in FIG. 1 .
4 is a perspective view showing the internal structure of the photocatalytic air purification unit shown in FIG. 3 .
FIG. 5 is a view showing the air discharge direction through the discharge port 140 and the air discharge direction through the rotary discharge port 150 by the photocatalytic air purification unit shown in FIG. 3 .
6 is a view showing a state in which the UV-A device is rotatably installed on the outer wall of the pipe-type gate body shown in FIG. 3 .
7 is a view for explaining the characteristics of ultraviolet rays irradiated by the air purification unit or UV-C LED according to the present invention.
8 is a view comparing the ultraviolet sterilization spectrum of UV LED (UVC 100-280nm, UVB 280-315nm, UVA 315-400nm) compared to sunlight.
9 is a view showing an example of utilization of UV LEDs for each wavelength.
10 is a view for explaining the oxidation action of the photocatalyst receiving ultraviolet rays by the interlocking of the UV-C LED and the spiral column coated with the photocatalyst of the air purification unit according to the present invention.
11 is a view for explaining the sterilization principle in which ultraviolet rays having a UV-C wavelength band irradiated by a UV-C LED according to the present invention destroy the DNA of microorganisms, thereby causing a metabolic disorder and loss of proliferation ability.

Hereinafter, an IOT-based modular anti-virus gate for three-dimensional sterilization of a hallway space according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing the configuration of an IOT-based modular anti-virus gate for three-dimensional sterilization of a hallway space according to an embodiment of the present invention.

2 is a front view of the IOT-based modular anti-virus gate for three-dimensional sterilization of the vestibule space shown in FIG. 1 .

4 is a perspective view illustrating an internal structure of the photocatalytic air purification unit shown in FIG. 3 .

The IOT-based modular anti-virus gate for three-dimensional sterilization of the entrance space according to the embodiment of the present invention is a pipe-type gate body 100, a photocatalytic air purification unit 300, a UV-A device 500, and an IoT sensor module 600 ), a communication module 700 , a control unit 800 , and a display unit 900 .

The pipe-type gate body 100 is erected on the entrance passageway 190 in an ∩ shape and spaced apart from each other by a predetermined distance. The flow path 120 is formed therein.

4 is a perspective view illustrating an internal structure of the photocatalytic air purification unit shown in FIG. 2 . FIG. 5 is a view showing the air discharge direction through the discharge port 140 and the air discharge direction through the rotary discharge port 150 by the photocatalytic air purification unit shown in FIG. 2 . 4 and 5, the photocatalytic air purification unit 300 is formed in the air flow path 120 to purify the air flowing in from the entrance passage 190 through a photocatalytic reaction, and the discharge unit 149 ) and discharged to the entrance passage 190 through the rotary discharge port 150 (in the direction of the arrows indicated in ② and ⑤ in FIG.

The photocatalytic air purification unit 300 includes a spiral column 310 coated with a photocatalyst, a UV-C LED 330 , and a blower 340 .

The spiral column 310 coated with a photocatalyst has an upper end connected to the upper end of the pipe-type gate body 100 and contaminants such as fine dust contained in the air moving from the suction port 130 to the rotary discharge port 150 . It purifies and forms a vortex in the air stream. The photocatalyst includes at least one selected from the group consisting of TiO ₂ , SiO ₂ , WO ₃ , and ZnO. The spiral column includes an acrylic column or a glass column.

The UV-C LED 330 is installed adjacent to the spiral pillar 210 and irradiates UV-C band ultraviolet rays to the spiral pillar 210 so that the (contaminated) air is oxidized by a photocatalytic reaction. Oxidatively decomposes harmful substances or impurities in the air.

The blower 340 is installed in the air flow path 120 to suck air from the outside through the suction port 310 and blow the air purified by the spiral pillar 310 and the UV-C LED 330 to the air. The air is blown into the entrance passageway 190 through the discharge port 140 and the rotary discharge port 150 of the flow path 120 .

6 is a view showing a state in which the UV-C LED is rotatably installed on the outer wall of the pipe-type gate body shown in FIG. 3 . Referring to FIG. 6 , the UV-A device 500 is disposed to be rotatably exposed toward the access passage on the outer wall of the pipe-type gate body 100 , and has a UV-A wavelength band toward the entrance access passage 190 . By irradiating ultraviolet rays, the air in the entrance passage 190 is oxidized to decompose and sterilize.

7 is a view for explaining the characteristics of ultraviolet rays irradiated by the air purifier or UV-C LED according to the present invention, and comparing FIG. 7 with sunlight, UV LED (UVC 100 to 280 nm, UVB 280 to 315 nm, UVA 315 to 400 nm) is a diagram comparing the ultraviolet sterilization spectrum, and FIG. 8 is a diagram showing an example of the use of UV LEDs for each wavelength.

In general, light with a wavelength between 100 nm and 400 nm is called ultraviolet light. Among them, ultraviolet light with excellent sterilization effect has a wavelength between 200 nm and 280 nm (UV-C), and among them, ultraviolet light with a wavelength of 253.7 nm has the strongest sterilization effect. Sterilizing ultraviolet rays with a wavelength of 253.7nm have a sterilization effect about 1600 times that of sunlight and have no side effects other than sterilization.

10 is a view for explaining the oxidation action of the photocatalyst receiving ultraviolet rays by the interlocking of the UV-C LED and the spiral column coated with the photocatalyst of the air purification unit according to the present invention. When the photocatalyst is irradiated with ultraviolet rays, electrons and hole bands are formed to generate hydroxy radicals (-OH) and superoxide (O ₂ ^- ) with strong oxidizing power, and these hydroxy radicals and Superoxide decomposes organic compounds and changes to water (H ₂ O) and carbon dioxide (CO ₂ ). In addition to secondary sterilization, through the function of oxidizing and decomposing harmful substances in the air, it is characterized in that it removes Volatile Organic Compounds (VOCs) harmful to the human body and deodorizes odors.

11 is a view for explaining the sterilization principle in which ultraviolet rays having a UV-C wavelength band irradiated by a UV-C LED according to the present invention destroy the DNA of microorganisms, thereby causing a metabolic disorder and loss of proliferation ability. DNA is composed of pairs of adenine, thymine and cytosine guanine, and bactericidal UV light generally affects thymine, preventing its conjugation with adenine, preventing proliferation.

The IoT sensor module 600 generates contamination information corresponding to the indoor dust concentration, temperature, or humidity of the indoor air, and measures the body temperature of the occupant with a thermal imaging camera 610 that increases the accuracy of measurement by adding a face recognition function. After checking the fever state, the data of the entrants are collected through the touch pad 630 when entering and transmitting family health management information to the network-connected communication module 700 . As a sensing technology of the IoT sensor module 600 , there is a sensor technology that detects an indoor environment such as temperature, humidity, ultrafine dust, VOCs, and CO ₂ .

The communication module 700 communicates in real time with an external server 950 that provides weather-related information, such as a broadcasting station, and receives information on the dust concentration of outdoor air, and receives indoor pollution information from the IoT sensor module 600 It is transmitted to a smart phone (not shown).

The control unit 800 controls the operations of the photocatalytic air purification unit 300 and the UV-A device 500 based on indoor pollution information from the IoT sensor module.

The display unit 900 displays indoor space information of the entrance passageway 190 .

On the other hand, although specific embodiments have been described in the detailed description and accompanying drawings of the present invention, the present invention is not limited to the disclosed embodiments, and the technical spirit of the present invention is provided to those of ordinary skill in the art to which the present invention pertains. Various substitutions, modifications, and changes are possible without departing from it. Accordingly, the scope of the present invention should not be limited to the described embodiments and should be construed to include not only the following claims, but also the claims and equivalents.

100: piped gate body
120: air flow path
130: intake
140: outlet
190: entrance entrance passage
310: spiral column
330: UV-C LED
350: blower
500: UV-A device
600: IoT sensor module
610: thermal imaging camera
630: touch pad
700: communication module
800: control unit
900: display unit
950: external server

Claims (5)

a pipe-type gate body in which an air passage having an intake and an outlet formed to be spaced apart from each other by a predetermined distance in an ∩ shape while standing in the entrance passageway, and an air passage having a rotary outlet formed in the upper part are formed therein;
a photocatalytic air purification unit that is formed in the air passage and purifies the air flowing in from the entrance passage through a photocatalytic reaction, discharges it to the entrance through the discharge port and the rotary discharge port, and rotatably discharges downward;
a UV-A element rotatably disposed on the pipe-type gate body to be rotatably exposed toward the entrance passage and oxidize the air in the entrance passage by irradiating ultraviolet rays having a UV-A wavelength band to the entrance passage to decompose and sterilize;
It generates pollution information corresponding to indoor dust concentration, temperature or humidity in the indoor air, measures the body temperature of the occupant with a thermal imaging camera, checks the fever status, and collects and transmits entrant data through the touchpad when entering. IoT sensor module;
a communication module that communicates with an external server in real time to receive information on the dust concentration of outdoor air, and transmits indoor pollution information from the IoT sensor module to a smartphone; and
IOT-based modular anti-virus gate for three-dimensional sterilization of a hallway space, comprising a control unit for controlling the operation of the photocatalytic air purification unit and the UV-A device based on the indoor pollution information from the IoT sensor module. The method according to claim 1, wherein the photocatalytic air purifier has an upper end connected to the upper end of the pipe-type gate body to purify contaminants including fine dust contained in the air moving from the inlet to the rotary outlet, and reduce the flow of the air. a spiral column coated with a photocatalyst to form a vortex;
a UV-C LED installed adjacent to the spiral column to oxidize and decompose harmful substances or impurities in the air by irradiating UV-C band ultraviolet rays to the spiral column so that the air is oxidized by a photocatalytic reaction; and
Blower installed in the air flow path to suck air from the outside through the suction port and blow the air purified by the spiral pillar and the UV-C LED to the entrance entrance passage through the air flow discharge port and the rotary discharge port IOT-based modular anti-virus gate for stereoscopic sterilization of vestibule spaces including buoys. The method according to claim 2, wherein the photocatalyst comprises at least one selected from the group consisting of TiO ₂ , SiO ₂ , WO ₃ , and ZnO, and the spiral column includes an acrylic column or a glass column. type antivirus gate. The IOT-based modular anti-virus gate for three-dimensional sterilization of an entrance space according to claim 1, further comprising a display unit for displaying indoor space information of the entrance passage. a pipe-type gate body in which an air passage having an intake and an outlet formed to be spaced apart from each other by a predetermined distance in an ∩ shape while standing in the entrance passageway, and an air passage having a rotary outlet formed in the upper part are formed therein;
a photocatalytic air purification unit that is formed in the air passage and purifies the air flowing in from the entrance passage through a photocatalytic reaction, discharges it to the entrance through the discharge port and the rotary discharge port, and rotatably discharges downward;
a UV-A element rotatably disposed on the pipe-type gate body to be rotatably exposed toward the entrance passage and oxidize the air in the entrance passage by irradiating ultraviolet rays having a UV-A wavelength band to the entrance passage to decompose and sterilize; and
Generates pollution information corresponding to indoor dust concentration, temperature, or humidity in the indoor air, measures the body temperature of an occupant with a thermal imaging camera, checks the fever state, and collects and transmits entrant data through the touchpad an IoT sensor module;
a communication module that communicates with an external server in real time to receive information on the dust concentration of outdoor air, and transmits indoor pollution information from the IoT sensor module to a smartphone; and
a control unit for controlling operations of the photocatalytic air purification unit and the UV-A device based on indoor pollution information from the IoT sensor module; and
It includes a display unit for expressing the indoor space information of the entrance passageway,
The photocatalytic air purification unit has an upper end connected to the upper end of the pipe-type gate body to purify contaminants such as fine dust contained in the air moving from the suction port to the rotary discharge port, and a photocatalyst to form a vortex in the air flow coated spiral columns;
a UV-C LED installed adjacent to the spiral column to oxidize and decompose harmful substances or impurities in the air by irradiating UV-C band ultraviolet rays to the spiral column so that the air is oxidized by a photocatalytic reaction; and
Blower installed in the air flow path to suck air from the outside through the suction port and blow the air purified by the spiral pillar and the UV-C LED to the entrance entrance passage through the air flow discharge port and the rotary discharge port IOT-based modular anti-virus gate for stereoscopic sterilization of vestibule spaces including buoys.

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