KR20230094901A - A quarantine air sterilizer - Google Patents

Abstract

It relates to a quarantine-type air sterilization purifier that sterilizes and disinfects indoor air, furnishings, and facilities in multi-use facilities to kill infectious agents, filters and purifies fine dust in the air, and ventilates when the air quality is poor.
While people are in the room, the quarantine type air sterilization purifier sucks in indoor air to filter and purify fine dust; irradiating ultraviolet rays to the air passing through the air flow path to kill infectious agents in the air; ventilation when indoor air quality is poor;
During the absence, ozone is generated and filled into the room to sterilize and deodorize infectious agents in the air and infectious agents present in objects and facilities, and to remove ozone by ventilation;
It is a technology for a quarantine type air purifier that purifies, sterilizes, and ventilates air.

Description

A quarantine air sterilizer}

The present invention inhales and kills infectious agents such as viruses and bacteria that may be contained in floating air; Purifying fine dust and the like; Ventilation when indoor air quality deteriorates due to carbon dioxide; It is a technology field for evenly inhaling, sterilizing, purifying, and ventilating the air throughout the room.

In this world, where infectious diseases such as MERS, SARS, and coronavirus are prevalent every few years, infections spread in multi-use facilities such as schools, academies, offices, and restaurants, threatening people's lives, causing great inconvenience to daily life and economic activities. has a huge adverse effect on

The present invention kills the infectious agent by inhaling the infectious agent floating in the air and irradiating ultraviolet (UV-C); purifying floating fine dust; As a technology to improve air quality through ventilation;

Depending on the size of the multi-use facility, the processing capacity of the air sterilization purifier is changed and optimized; The total irradiation dose of ultraviolet rays is efficiently maximized to kill infectious agents; It is the background technology that effectively circulates indoor air and evens out the indoor air quality.

Registered Patent No. 10-1675826 (2016. 11. 08) Air sterilization device with increased residence time Registered Patent No. 10- 2297559 (2021.08.29) Disinfection type air purifier Patent Publication 10-2017-0124843 (2017. 11. 13) UV air sterilizer 20-0337042 for registration room (December 15, 2003) UV sterilization filter for air purification

1. The problem to be solved by the present invention is to irradiate ultraviolet rays (UV-C) for air sterilization by inhaling infectious agents such as viruses and bacteria floating in the air; To be able to irradiate a sufficient amount of ultraviolet light to kill the infectious agent

2. Allowing air to be evenly inhaled throughout the room

3. In case the indoor air quality deteriorates due to multiple breathing, minimizing the rapid change in the indoor temperature and compensating for the changed temperature by ventilating the indoor air and inhaling the outdoor air.

4. Disinfection, sterilization, and deodorization of indoor air as well as furnishings and facilities by generating ozone when there are no people indoors, and enabling ozone to be removed through ventilation before people enter the room.

5. Minimizing side effects caused by oxidation of indoor objects and facilities by maintaining the appropriate ozone concentration required to sterilize indoor infectious agents and increasing the concentration more than necessary.

6. Change and optimize the treatment capacity of the air sterilization purifier according to the size of the multi-use facility; effectively maximizing the total irradiation dose of ultraviolet rays to kill infectious agents; The problem to be solved is to effectively circulate the indoor air and evenly clean the indoor air quality.

Depending on the size of the indoor space, the air sterilization purifier's specifications and processing capacity can be changed; In order to maximize the total irradiation amount of ultraviolet rays to effectively kill infectious agents, it is important to have enough ultraviolet light sources, shorten the irradiation distance with the target object air, and lengthen the irradiation time. The air flow path is formed in a zigzag shape, and the four sides of the air flow path are formed with aluminum reflectors to increase the irradiation efficiency by reflection, and UV lamps are formed along the air flow path to keep the distance between the light source and the air close. and maximizing the total irradiation amount of ultraviolet rays by appropriately adjusting the flow rate of the flowing air; The distance between the air inlet and the indoor outlet is set far apart so that air circulation is made widely; The background technology is to evenly inhale indoor air to sterilize, purify, and ventilate.

The present invention is the world's threat to life due to Corona 19; Economic, social, cultural, and other fields are on the verge of bankruptcy; Even at this point in time when a new-normal is emerging or in the post-COVID-19 era, multi-use facilities are equipped with an economical, efficient, and sanitary quarantine system and promote convenience that is not restricted by life, which is of great help to public health and economic activity and It is also expected to have an effect on the development of the new home appliance industry.

1 is a perspective view and explanatory view of a quarantine type air sterilization purifier of the present invention
2 is a plan view of a quarantine type air sterilization purifier as an embodiment of the present invention.
The air flow in sterilization and purification mode is also displayed.
3 is a side view of a quarantine type air sterilization purifier as an embodiment of the present invention;
The air flow in sterilization and purification mode is also displayed.
Figure 4 is a plan view of the quarantine type air sterilization purifier of the present invention
The air flow in ventilation and purification mode is also displayed.
Figure 5 is a side view of the quarantine type air sterilization purifier of the present invention
The air flow in ventilation and purification mode is also displayed.
Figure 6 is a front cross-sectional view of the head unit of the quarantine type air sterilization purifier of the present invention
Figure 7 is a front cross-sectional view of the connection unit of the quarantine type air sterilization purifier of the present invention and
UV lamp unit side view
8 is a front cross-sectional view of the finishing unit of the quarantine type air sterilization purifier of the present invention

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

When it is said that one component "includes" another component in the detailed description of the invention or in the claims, this is not construed as being limited to the component alone unless otherwise stated, and other components are not included. It should be understood that more can be included.

First, in the present invention, when an infectious agent such as Corona 19 is prevalent, we propose a quarantine type air sterilization purifier that disinfects and sterilizes the infectious agent present in the room and purifies and deodorizes fine dust.

In the present invention, the system is operated by dividing the room into a case where a person is occupied and a case where a person is absent, and during the absence, economical, efficient, and sanitary quarantine measures are taken for indoor air, furnishings, fixtures, and facilities, and during occupancy, the human body In addition to harmless treatment, we would like to propose a quarantine-type air sterilization purifier that kills only infectious agents in the air and ventilates.

More specifically, in the present invention, ozone is filled in the room during absence to sterilize and deodorize. Accordingly, it is possible to solve the uneconomical aspect caused by spraying the existing disinfectant chemicals, to sterilize even the weak parts that the chemicals cannot reach, and to solve the problem of side effects caused by the spraying of the disinfectant chemicals.

In addition, indoor air, which may contain pollutants from droplets, is inhaled during occupancy, and fine dust contained in the air is filtered and purified. to be investigated and destroyed.

In the present invention, as a method of increasing the total irradiation amount of ultraviolet rays that are effective for quarantine, a technique of continuously irradiating ultraviolet rays (UV-C) while following the air flowing through the air flow path in the air sterilization purifier is applied. Therefore, it is possible to increase the efficiency of killing bacteria and viruses by increasing the efficiency of ultraviolet irradiation in the air sterilization purifier that irradiates ultraviolet rays.

The distance between the air inlet and the outlet of the air sterilization purifier is kept as far as possible so that the indoor air flows from the indoor outlet to the intake, and in the process, the air is evenly sucked in throughout the indoor area to kill infectious agents and improve the efficiency of the fine dust purification function. can be raised

In addition, when it is necessary to increase the throughput of the air sterilization purifier because the size (volume) of the building space in which the present invention is installed is large; It can be coped with by expanding the specifications of the air sterilization purifier, adding an ultraviolet light source, making the air inlet and outlet farther apart, and increasing the air flow rate by increasing the rotational speed of the suction fan.

On the other hand, ventilation is performed when indoor air quality is deteriorated due to multiple breathing, and a heat exchange type ventilator is configured to perform heat exchange in order to minimize rapid changes in indoor temperature due to ventilation.

Accordingly, the present invention proposes the following technology.

1. A technology that enables irradiation of ultraviolet rays (UV-C) in an amount sufficient to kill infectious agents in the process of inhaling infectious agents such as viruses and bacteria floating in the air and irradiating ultraviolet rays (UV-C) for air sterilization.

2. A technology that allows even intake of air throughout the room.

3. In the case of ventilation to improve indoor air quality deteriorated due to multiple breathing, technology to evenly ventilate indoor air in a short time and minimize rapid changes in indoor temperature due to ventilation.

4. A technology that generates ozone when there are no people indoors to disinfect, sterilize, deodorize, and purify indoor air as well as furnishings and facilities, and remove ozone by ventilation before people enter the room.

5. A technology that maintains the proper ozone concentration required to sterilize indoor infectious agents and increases the concentration more than necessary to minimize side effects caused by oxidation of objects and facilities indoors.

Hereinafter, an example in which the quarantine type air sterilization purifier of the present invention is implemented will be described through a specific embodiment.

The quarantine type air sterilization purifier 1000 of the present invention includes a head unit 1100, a connection unit 1200, a finishing unit 1300, and a heat exchange type ventilator 1400.

The quarantine type air sterilization purifier (1000) of the present invention is preferably installed in the ceiling or ceiling at an appropriate location in the center along the long axis direction of the space according to the environment of the indoor space of the building, and is treated according to the size of the indoor space. Since it is necessary to change the ability, the head unit 1100, the connection unit 1200 and the finishing unit 1300 are divided to form a separate body, and when combined, the head unit 1100 is at the front end, the finishing unit ( 1300) is configured at the end, and the connection unit 1200 is configured in the middle by adjusting the number (0 to n) according to the indoor structure or size, so that the processing capacity can be optimized, and the length can be changed accordingly. .

In this way, the quarantine type air sterilization purifier 1000 of the present invention needs to adjust the length to optimize its processing capacity according to the environment such as the size of the indoor space, so the quarantine type air sterilization purifier main body (A) is divided into the head unit 1100, It is composed of a connection unit (1200) and a finishing unit (1300). and several (1 to n) connection units 1200 and finishing units 1300. That is, one or an appropriate number of connection units 1200 are continuously coupled to the head unit 1100 and the finishing unit 1300 is combined to form the exterior of the main body (A) of the quarantine type air sterilization purifier (1000). In addition, only the head unit 1100 and the finishing unit 1300 may be combined to form the exterior of the main body A of the quarantine type air sterilization purifier 1000.

Meanwhile, the head unit 1100 includes an air purifying unit including a suction fan 110, a suction port 120, an air filter set 130, and an air filter sterilizing UV lamp 140;

a UV lamp unit 220 including a UV lamp 150, a UV lamp fixing hole 160, and a UV lamp fixing reflector 170; a wind valley 210 formed by an outer surface of the head unit body and an ultraviolet lamp unit or an inner surface of the outer surface of the head unit and another ultraviolet lamp unit facing the ultraviolet lamp unit; By shortening the length of the UV lamp unit, a gap is formed between the inner surface of the head unit and the finishing unit to diffract the air flow direction by 180 degrees and lead to the next wind valley. It is formed as part of an air sterilization means that kills infectious agents by irradiating.

At this time, the air flow path formed by the wind valley and the air U-turn hole is called an air flow path.

Control means may be configured including a control panel including a fine dust sensor, an ozone sensor, a carbon dioxide sensor, and an operating program.

The connection unit 1200 is formed as part of an air sterilization means by forming an air flow path with the wind valley composed of the outer surface of the connection unit and the ultraviolet lamp unit 220; It serves as a bridge connecting the head unit and the windpipe of the finishing unit.

In the finishing unit 1300, the wind valley 210 and the air U-turn hole 230 are formed by the outer inner surface and the ultraviolet lamp unit 220 to form an air flow path, and include a discharge plate 240 to sterilize air. A part of the means may be configured, and the exhaust outlet 250, the outdoor air indoor inlet 260, and the indoor outlet 270 may be configured.

The head unit 1100, the connection unit 1200, and the finishing unit 1300 are combined to form one quarantine type air sterilization purifier main body (A).

The outer surface of the outer surface and the UV lamp fixed reflector 170 of the UV lamp unit 220 are made of a metal plate having high ultraviolet reflectance, and the inner surface of the outer surface and other UV lamp units facing each other reflect the ultraviolet rays irradiated by the UV lamp. Or, by re-reflecting, it serves to increase the UV irradiation efficiency and functions as a partition to form the wind valley 210.

The air flow path composed of the inner surface of the main body, the UV lamp unit 220, and the air U-turn hole 230 functions as a sterilization chamber and includes the discharge plate 240 to perform the function of air sterilization means.

On the other hand, in the ultraviolet lamp unit 220, according to the intake amount of the air treated by the quarantine type air sterilization purifier 1000, two or three columns or more ultraviolet lamps 210 can be added, and the length of the lamp can be varied. can

In the present invention, when the UV lamp 150 is replaced with an LED UV lamp, the UV lamp unit 220 is installed on both sides of the UV lamp fixed reflector 170 without the UV lamp fixing hole 160. can be configured.

In addition, the wind valley 210 formed by the ultraviolet lamp unit 220 and the inner surface of the outer body of the present invention and the air flow path formed by the air U-turn hole 230 are configured in a zigzag shape to transmit ultraviolet rays to the flowing air. The total UV irradiation amount may be increased by increasing the irradiation time.

In an air sterilization purifier using ultraviolet rays, determining the total irradiation amount of ultraviolet rays required to kill infectious agents is proportional to the output (luminous intensity) of the light source, the distance between the light source and the irradiated object, and the irradiation time. A linear UV lamp 150 or UV LED lamp formed along the flow path is configured, and the air flow is maintained within a short distance from the UV lamp 150, and the UV lamp is fixed after irradiating and passing through the air. It is reflected on the inner surface of the reflector 170 and the exterior to irradiate the air again, thereby increasing the irradiation efficiency of ultraviolet rays.

According to the present invention, when the space (volume) to be installed increases, a light source is added by adding a connection unit, the air flow path is lengthened, and the air volume is increased by increasing the speed of the suction fan, thereby increasing the processing capacity.

The air filter can be composed of a cartridge-shaped air filter set 130 composed of multiple layers of air filters with different functions, such as a pre-filter, a HEPA filter, and a carbon filter, and is configured for effective filtering and easy exchange.

An air filter sterilization UV lamp (140) is provided before and after the air filter set to irradiate the air filter set with ultraviolet rays to kill infectious agents that may accumulate in the air filter set (130), and the air filter set (130) , The air filter functions as an air purifying means together with the sterilizing UV lamp 140, the suction port 120, and the suction fan 110.

In this way, before contaminants such as fine particles in the air are introduced into the air flow passage of the quarantine type air sterilization purifier (1000), the air purifying means is configured to remove fine dust, thereby increasing the air transmittance of ultraviolet rays and the fine particles are exposed to ultraviolet rays. UV rays are efficiently irradiated, including preventing ultraviolet rays from being accumulated in the air flow path including the lamp unit 220 and the inner surface of the outer body and deteriorating the irradiation and reflection performance of the ultraviolet rays.

When the air quality of the heat exchange type ventilator 1400 is detected as poor by the carbon dioxide sensor, the heat exchange type ventilator 1400 is activated under the control of the control means;

An exhaust outlet (250) is formed at the end of the first windpipe of the finishing unit (1300), and indoor air of bad quality sucked from the inlet (120) of the head unit is discharged through the exhaust port (250) of the finishing unit, and the outdoor discharge pipe (340). ), discharged to the outdoors through the indoor and outdoor outlet 330 of the heat exchange type ventilator;

Ventilation is performed by allowing the outside air sucked into the outside air inlet 310 of the heat exchange type ventilator to flow into the room through the outside air intake pipe 320, the outdoor air inlet 260 and the indoor outlet 270 of the finishing unit.

At this time, when the outdoor air temperature and the indoor temperature introduced by the detection of the temperature sensor are lower than the range set in the control means, power is applied to the electric heater 350 to compensate the temperature.

In addition, the present invention increases the distance between the inlet 120 and the indoor outlet 270 as the length of the quarantine type air sterilization purifier increases even when the indoor space size (volume) is large; By increasing the air volume by increasing the rotational speed of the suction fan; Wind pressure in which the indoor air sucked through the inlet 120 of the head unit is discharged to the indoor outlet 270 of the finishing unit increases; Thrust for allowing indoor air to flow in the direction of the suction port 120 is increased by the wind pressure of the outside air flowing into the indoor outlet through the heat exchange type ventilator; By increasing the suction force of the suction fan 110 in the suction port, the force of pulling indoor air is increased; The air circulation range is expanded to evenly purify, sterilize and ventilate the indoor air.

In addition, the heat exchanging ventilator 1400 may include a heat exchanging member, an exhaust fan, an intake fan, an exhaust damper, an intake damper, and a ventilation air filter in the device, and detailed descriptions thereof will be omitted as they are already known in the art.

The discharge plate 240 is a part of the ozone generator and is a part where ozone is generated. The ozone generator is configured in an appropriate position of the present invention, and only the discharge plate 240 is installed in the indoor outlet 270 so as not to disturb the flow of air. It is preferable to configure in

On the other hand, the quarantine type air sterilization purifier 1000 includes a fine dust sensor, an ultrafine dust sensor, a carbon dioxide sensor, an ozone sensor, and a temperature sensor; An air quality sensor (not shown) including a module that transmits the measurement information signal sensed by these sensors to the control panel of the control unit in a wired or wireless manner is installed at an appropriate location in the indoor space to measure air quality and transmits the measurement information signal It transmits to the control panel in a wired/wireless manner. In addition, a radon sensor, a VOC sensor, etc. may be additionally configured, and an air quality sensor may be configured in the body of the present invention.

In the case of sterilization by generating ozone in the absence of a person in the room; By constructing an ozone sensor in the air quality detector, the ozone generator can be controlled so that the ozone produced by the discharge plate 240 is diffused into the room and the ozone concentration reaches a set concentration suitable for sterilization.

The control panel includes a system operation program, receives information signals from the air quality sensor, is mounted on the head unit 1100, and can operate ON/OFF and switch between automatic and manual modes.

In addition, when the control panel detects that the indoor air quality is bad by the air quality sensor and proceeds with the ventilation program; When the temperature of the outside air introduced by the detection of the temperature sensor is lower than the temperature set in the program, it has a function to compensate for the temperature by operating the electric heater 350, and the program can be automatically performed according to the set system operation program. There is, can operate according to the set time, can be operated by a remote controller (not shown).

The ultraviolet lamp (150) of the quarantine type air sterilization purifier (1000) can be turned on and used according to the time of infection (Corona 19, SARS, MERS, etc.) and the flu season or as needed. In this case, the air filter set Since air purification by 130 must be performed as a matter of course, information measured by the fine dust sensor and the ultrafine dust sensor can be ignored.

On the other hand, the power of the ozone generator is applied only for the operating time input on the control panel, and the measurement information by the carbon dioxide sensor is always used as measurement information regardless of the lighting of the ultraviolet lamp 150, and the quarantine type air sterilization purifier ( 1000) is only used when the ultraviolet lamp 150 and the ozone generator are powered off, that is, when the quarantine type air sterilization purifier 1000 is used as an air purifier for ventilation. Fine dust sensor, ultrafine dust sensor, carbon dioxide Depending on the measurement information signal of the sensor, operation and stop and ventilation functions can be performed.

Control panel, air quality sensor, remote controller, temperature sensor, ozone sensor, and system operation program are included to perform the function of control means.

Next, the operation process of the quarantine type air sterilization purifier configured above will be described.

When the control means of the quarantine type air sterilizing purifier (1000) starts in automatic mode, the ultraviolet lamp (150) and the air filter sterilizing ultraviolet lamp (140) are turned on, the suction fan (110) is started, and the air purification means The polluted indoor air is sucked into the inlet 120 of the.

Inhaled indoor air is purified by filtering fine and ultra-fine particles in the air in the air filter set 130 of the air purifying means, and the air containing infectious agents passing through the air filter set 130 is the air in the air sterilizing means. It flows along the flow path and is killed by the ultraviolet rays irradiated by the ultraviolet lamps 150 continuously installed, and the purified air is introduced into the room through the indoor outlet 270.

At this time, infectious agents that may accumulate in the air filter set 130 are killed by ultraviolet rays irradiated from the air filter sterilizing UV lamp 140 .

In addition, the air introduced into the room flows in the direction of the inlet again, and the process of being inhaled through the inlet is repeatedly circulated to kill infectious agents and purify fine dust.

On the other hand, if a large number of people gather in the room while the killing of the infectious agent and the purification of fine dust continues, and the air quality in the closed room deteriorates over time; When the air quality measured by the air quality detector included in the control means is detected to be worse than the set value set in the system operation program, the heat exchange type ventilator (1400) is activated to discharge indoor air to the outdoors and suck in outdoor air to ventilate. is done

Through this process, it is possible to solve air sterilization problems for infectious agents such as coronavirus, air purification and ventilation problems for fine dust, ultrafine dust, ozone, and carbon dioxide.

Ventilation is operated according to the set time entered in the system operation program; when operating according to the set air quality set conditions; It can be set to a case where the two cases are combined and operated, and when the indoor temperature is lowered due to ventilation, the electric heater 350 is operated to compensate for the temperature to suit the set temperature.

On the other hand, operating the quarantine type air sterilization purifier 1000 in a manual mode has several cases as needed, is easy to operate, and is a common technique, so detailed descriptions will be omitted.

When power is applied to the ozone generator under the control of the control unit and the quarantine type air sterilization purifier (1000) is operated using the time when a person is absent indoors, ozone is filled into the room to sterilize and deodorize, and control Ozone is removed before people enter the room, and the sterilization program by ozone is terminated.

That is, by operating the quarantine type air sterilization purifier 1000 in the ozone generating mode using the time when a person is absent from the room, the ozone is filled in the room for a certain period of time, and then naturally extinguished or ventilated to remove it before the person enters the room, thereby removing the indoor air. In addition, it sterilizes possible infection sources in facilities including household items, etc., deodorizes odors, and removes harmful substances such as VOC (volatile organic compounds).

Therefore, even when an infectious disease such as COVID-19 is prevalent, there may be no restrictions on using multi-use facilities.

On the other hand, the quarantine type air purifier (1000) can select automatic and manual modes, and if automatic is selected, it operates according to the system operation program, and if manual is selected, ON / OFF, ventilation, electric heater 350, ultraviolet lamp ( 150) can be manually operated as needed for selective use and adjustment.

The quarantine-type air sterilization purifier 1000 can be used as an air purifier with a ventilation function when the UV lamp 150 is powered off and used.

The technical spirit of the present invention was examined through several examples.

It is obvious that those skilled in the art to which the present invention pertains can variously modify or change the examples examined from the description of the present invention. In addition, even if not explicitly shown or described, a person skilled in the art may make various modifications from the description of the present invention to the technical idea according to the present invention. is obvious, which still belongs to the scope of the present invention. The above embodiments described with reference to the accompanying drawings have been described for the purpose of explaining the present invention, and the scope of the present invention is not limited to these embodiments.

In an environment where airborne infectious diseases such as COVID-19, MERS, and SARS occur every few years, life quarantine is inevitable.

In particular, the spread of infection in multi-use facilities is very serious.

The present invention enables economic and cultural activities to be possible by enabling multi-use facilities to be used even in the risk of spreading infectious diseases, and will greatly contribute to the development of the national health environment and the home appliance industry.

Quarantine type air sterilization purifier (1000)
Quarantine-type air sterilization purifier main body; A
Head unit (1100), connection unit (1200), finishing unit (1300)
Heat Exchange Ventilator (1400)
110; suction fan 120; inlet, 130; air filter set
140; Air filter sterilization UV lamp 150; UV lamp
160; UV lamp fixing hole 170; UV lamp fixed reflector
210; Baramgol 220; UV lamp unit,
230; Air U-turn hall 240; discharge plate
250; bet outlet, 260; Outdoor air indoor inlet, 270; indoor outlet
310; Outside air inlet, 320; External air suction pipe, 330; outdoor outlet,
340; Indoor outdoor discharge pipe, 350; electric heater

Claims (9)

When a heat exchange type ventilator is coupled to a main body formed by combining a head unit, an expansion unit, and a finishing unit, the appearance of the present invention is formed;
The head unit is formed with air purifying means including a suction port, an air filter set, an air filter sterilizing UV lamp, and a suction fan;
It is a part of the air flow path including the wind valley and the air U-turn hole formed by the inner surface of the head unit and the UV lamp unit or the inner surface of the outer surface and the UV lamp unit and the facing UV lamp unit;
In the connection unit, the wind valley formed by the outer surface of the connection unit and the UV lamp unit or the inner surface of the outer surface and the UV lamp unit and the facing UV lamp unit becomes a part of the air flow path;
In the finishing unit, the wind valley formed by the outer surface of the finishing unit and the UV lamp unit or the inner surface of the outer surface and the UV lamp unit and the facing UV lamp unit includes an air U-turn hole and becomes part of the air flow path;
A discharge plate and an electric heater are formed at the end of the finishing unit so that it can be connected to a heat exchange type ventilator by configuring a discharge port and an outdoor air inlet at the end of the finishing unit. An air inlet means is formed;
The main body selects the number of the connection units and connects the head unit and the
It is formed by positioning and combining between the finishing units;
Inside the main body, a series of air passages in a zigzag shape are formed by connecting wind valleys of the head unit, the connection unit, and the finishing unit; Air sterilization means is formed including ultraviolet rays irradiated by the ultraviolet lamp of the ultraviolet unit;
When the present invention is operated in the sterilization and purification mode by the control means, when the suction fan rotates, indoor air passes through the air purification means, the air sterilization means, and the air inlet means in order to flow into the room;
When operating in the ventilation purification mode, when the suction fan and the heat exchange type ventilation fan start, the indoor air sucked in through the air purification unit flows through the wind valley formed first and passes through the indoor and outdoor outlet of the finishing unit to the heat exchange type ventilation fan. through and discharged to the outdoors; A quarantine type air sterilization purifier in which external air is sucked in through the outdoor air inlet of the heat exchange type ventilator and introduced into the room through the outdoor air indoor inlet and the indoor outlet to be ventilated The method according to claim 1, wherein the connection unit is a quarantine type air sterilization purifier composed of a variable number according to selection The method of claim 1, when the head unit, the connection unit, and the finishing unit are combined, a series of zigzag-shaped air flow passages are formed by the outer surface and the UV lamp unit to form an air sterilization means. purifier The method according to claim 3, in order to increase the total amount of ultraviolet light irradiation of the air sterilization means, the air flow path is lengthened in a zigzag shape, and the ultraviolet lamps configured along the air flow path continuously irradiate ultraviolet rays to the flowing air. type air sterilization purifier The method according to claim 3, wherein the outer surface of the body constituting the zigzag-shaped air flow path and the ultraviolet lamp fixed reflector of the ultraviolet lamp unit are made of a metal plate having a high reflectance of ultraviolet rays to reflect and re-reflect the ultraviolet rays irradiated by the ultraviolet lamps. Reflective quarantine type air sterilization purifier The quarantine type air sterilization purifier of claim 1, wherein the air purifying means including the inlet is formed in the head unit, and the air inlet means including the indoor outlet is formed in the finishing unit. The quarantine type air sterilization purifier according to claim 1, wherein at least one air U-turn hole is formed in each of the head unit and the finishing unit. The light source of claim 1 is increased by adding the connection unit; the length of the air flow passage is increased; By increasing the air volume by increasing the rotational speed of the suction fan; A quarantine-type air sterilization purifier that can increase the amount of air purification, sterilization, and ventilation per unit time The distance between the inlet 120 and the indoor outlet 270 increases as the length of the quarantine type air sterilization purifier increases by adding the connection unit even when the volume of the indoor space is large according to claim 8; By increasing the rotational speed of the suction fan to increase the air volume, the indoor air sucked through the inlet of the head unit is discharged to the indoor outlet of the finishing unit, and the increase in wind pressure causes the indoor air to flow in the direction of the inlet. ) is increased; In the inlet, a force to pull indoor air is increased by an increase in suction force drawn by the suction fan; A quarantine-type air sterilization purifier that evenly purifies, sterilizes, and ventilates indoor air with an expanded air circulation range

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