KR200498040Y1 - sterilization apparatus - Google Patents

Abstract

The posted content refers to clean air after sterilizing harmful bacteria such as fine dust and corona bacteria contained in the air inhaled indoors at public restaurants or group feeding places such as schools and military bases with many visitors using a UV ultraviolet ray lamp. It relates to a device for sterilizing harmful bacteria in indoor air, including corona bacteria, for discharging and circulating
The device for sterilizing harmful bacteria in indoor air, including corona bacteria, according to an embodiment of the present specification
It is installed in public places where many people enter and is applied to a device for sterilizing harmful bacteria in indoor air by circulating indoor air to sterilize harmful bacteria in the air.
Air inlets for sucking indoor air containing harmful bacteria are formed at multiple locations, and ultraviolet rays are irradiated to harmful bacteria in the air that are sucked in through the air inlets and circulated along the first serial air passage formed in a zigzag shape and multi-layered form. A main frame in which at least one UV ultraviolet lamp for sterilization is installed on the ceiling;
an auxiliary frame formed on the main frame and having at least one air outlet for discharging clean air moving along a second air movement passage communicating with the first air movement passage to the outside;
an ozone-generating lamp formed on the auxiliary frame and used to sterilize bad odors and mold in indoor air;
a water tank formed on the auxiliary frame to humidify dried indoor air;
Indoor air containing corona bacteria, characterized in that it has a control panel to control the UV ultraviolet lamp, a blowing fan that moves indoor air along the first and second air movement passages, and the ozone generating lamp on and off. Provides a device for sterilizing harmful bacteria.

Description

Device for sterilizing harmful bacteria in indoor air, including corona bacteria {sterilization apparatus}

This specification relates to a device for sterilizing harmful bacteria in indoor air, including corona bacteria. More specifically, it relates to fine dust contained in the air inhaled indoors, such as group feeding places such as schools and military bases with many visitors, or public restaurants, etc. This relates to a device for sterilizing harmful bacteria of highly contagious viruses (coronavirus, etc.) in indoor air, including coronavirus, for sterilizing harmful bacteria in indoor air, including coronavirus, by using a UV ultraviolet lamp (UV LED element) and then discharging and circulating clean air. .

Unless otherwise indicated herein, the material described in this section is not prior art to the claims of this application, and is not admitted to be prior art by inclusion in this section.

Recently, the COVID-19 pandemic has become a social problem around the world, and daily lifestyles are changing significantly due to social distancing and limited number of people.

In particular, masks are required to be worn both indoors and outdoors in indoor spaces such as public restaurants, group feeding places, companies or schools, and on public transportation to combat highly contagious pathogens, and the government or local governments are mandating the spread of the COVID-19 pandemic. We are putting all our efforts into quarantine to block this, and as a result, enormous social costs are being spent due to the deployment of numerous quarantine workers.

In general, indoor air purification technology is mainly used to remove indoor dust, odor, bacteria, viruses, etc., and to purify indoor air using activated carbon filters, electric dust collection, or negative ions.

It is difficult to effectively keep indoor air clean with the above-mentioned activated carbon filter alone, and in addition, when electrostatic precipitating negative ions are used, ozone oxides harmful to the human body may be generated. In particular, when exposed to ozone indoors for a long time, you may feel nauseated and have severe symptoms. In some cases, it can cause very serious problems, including vomiting symptoms.

A simple air purifying and sterilizing and deodorizing device has been registered in Korea Registered Utility Model Publication No. 20-0323021 (August 14, 2003).

In the embodiment of the present specification, clean air, in which pathogens such as fine dust and corona bacteria contained in polluted indoor air inhaled through the air inlet, have been sterilized by a UV ultraviolet lamp, is discharged through the air outlet to produce indoor air. It is related to a sterilization device for harmful bacteria in indoor air, including coronavirus, that prevents respiratory diseases in indoor residents and protects people's lives from coronavirus infectious diseases by continuously circulating it.

According to an embodiment of the present specification to achieve the above and other purposes of the present specification,

It is installed in public places where many people enter and is applied to a device for sterilizing harmful bacteria in indoor air by circulating indoor air to sterilize harmful bacteria in the air.

Air inlets for sucking indoor air containing harmful bacteria are formed at a plurality of locations, and ultraviolet rays are irradiated to harmful bacteria in the air sucked through the air inlets and circulating along the first serial air passage formed in a zigzag shape and multi-layered form. A main frame in which at least one UV ultraviolet lamp for sterilization is installed on the ceiling;

an auxiliary frame formed on the main frame and having at least one air outlet for discharging clean air moving along a second air movement passage communicating with the first air movement passage to the outside;

an ozone-generating lamp formed on the auxiliary frame and used to sterilize bad odors and mold in indoor air;

a water tank formed on the auxiliary frame to humidify dried indoor air;

Indoor air containing corona bacteria, characterized in that it has a control panel for controlling the UV ultraviolet lamp, a blowing fan that moves indoor air along the first and second air movement passages, and the ozone generating lamp on and off. Provides a device for sterilizing harmful bacteria.

The device for sterilizing harmful bacteria in indoor air, including corona bacteria, according to an embodiment of the present specification having the above-described configuration has the following advantages.

Harmful bacteria such as fine dust and corona bacteria contained in the polluted indoor air inhaled through the air inlet are sterilized by UV ultraviolet ray lamps, and clean air is discharged through the air outlet to continuously circulate indoor air. It is reliable and practical as it can prevent diseases of the respiratory system in indoor residents and reduce the enormous social costs incurred in treating patients infected with the coronavirus infection in public places.

Figure 1 is a perspective photograph as a drawing of a device for sterilizing harmful bacteria in indoor air, including corona bacteria, according to a preferred embodiment of the present specification;
Figure 2 is a drawing substitute photo of the control panel for controlling the turning on and off of the ultraviolet lamp and ozone generating lamp for sterilizing harmful bacteria in the sterilization device shown in Figure 1;
Figure 3 is a schematic diagram showing the flow of air sterilized during indoor air circulation in the sterilization device shown in Figure 2;
Figure 4 is a perspective photograph showing an air outlet that discharges clean air sterilized from harmful bacteria in the sterilization device shown in Figure 1;
Figure 5 is a photograph of a UV ultraviolet lamp used in the sterilization device shown in Figure 1, which sterilizes harmful bacteria during circulation of indoor air.

Hereinafter, a device for sterilizing harmful bacteria in indoor air, including corona bacteria, according to a preferred embodiment of the present specification will be described in detail with reference to the accompanying drawings.

Referring to Figures 1 to 5, a device for sterilizing harmful bacteria in indoor air, including corona bacteria, according to an embodiment of the present specification.

A device for sterilizing harmful bacteria in indoor air that is installed in public places where many people enter (for example, schools, group feeding places such as military bases, public restaurants, etc.) and circulates indoor air to sterilize harmful bacteria in indoor air. applied to,

Air inlets 10 for sucking indoor air containing harmful bacteria are formed at a plurality of locations, and the air is sucked in through the air inlets 10 and circulated along the first serial air movement passage 20 formed in a zigzag shape and a multi-layer shape. A main frame (30) in which at least one UV ultraviolet lamp (100) is installed on the ceiling to sterilize harmful bacteria in indoor air by irradiating ultraviolet rays;

There is at least one air outlet 50 formed on the main frame 30 and discharging clean air moving along the second air movement passage 40 communicating with the first air movement passage 20 to the outside. An auxiliary frame 60 formed above;

At least one conventional ozone generating lamp (70) is formed on the auxiliary frame (60) and is used to sterilize bad odors and mold in indoor air;

A typical water tank (80) formed on the auxiliary frame (60) and used to humidify dried indoor air;

Conventional controls for controlling the turning on and off of the UV ultraviolet lamp (70), the blowing fan (not shown) that moves indoor air along the first and second air movement passages (20, 40), and the ozone generating lamp (70). It is characterized by having a panel (90).

According to a more preferred embodiment, the above-described air outlet 50 is

When the clean air sterilized by the UV ultraviolet lamp (100) (UV LED device) of the first air movement passage (20) passes through the second movement passage (40), the air is kept from being polluted by the contaminated air remaining inside. It is characterized by having a cartridge-type air purification module (110) to which a HEPA filter (not shown) is detachably coupled so that it can be filtered and discharged to the outside through the air outlet (50).

At this time, since the air purification module 110 to which the HEPA filter is detachably coupled is commonly used in air purifiers or air conditioners equipped with heat exchangers, a detailed description of their configuration and functions will be omitted.

Although not shown in the drawing, the air outlet 50 described above is

It is characterized by being equipped with a plasma ionizer (not shown) to supply a large amount of plasma ions so that the exhaust air can contain a large amount of plasma ions.

As a result, the germs, bacteria, and fine dust floating in the indoor air are converted into inactivated substances by a large amount of plasma ions generated from the plasma ion generator, thereby improving the ability to remove fine dust and sterilize pathogens.

At this time, since the above-described plasma ion generator is commonly used in the technical field to which this specification pertains, a detailed description of its configuration and function will be omitted.

Hereinafter, a device for sterilizing harmful bacteria in indoor air, including corona bacteria, according to an embodiment of the present specification will be described according to the accompanying drawings.

As shown in Figures 1 to 5, harmful bacteria sterilization devices for indoor air installed in group feeding places (schools, military bases, company cafeterias, etc.) or public restaurants contain indoor air that may be generated due to the entry and exit of many people. Clean air that has been sterilized from pathogens harmful to the human body, such as fine dust and highly contagious viruses, can be discharged and circulated indoors.

To explain this in detail, various harmful bacteria harmful to the human respiratory system, COVID-19 infectious bacteria, etc. are transmitted through the air inlet 10 formed at a plurality of locations on the lower side of the main frame 30 by rotating the aforementioned blower fan (not shown). You inhale indoor air containing

At this time, when indoor air is sucked in through the air inlet 10 by rotating the blowing fan, dust, etc. contained in the indoor air and suspended by the filtration filter 10a such as non-woven fabric formed inside the air inlet 10 is removed. Foreign substances are filtered out.

When indoor air, in which foreign substances such as dust have been filtered by the filtration filter 10a, passes through the air inlet 10 and is sucked into the main frame 30, a serial type formed in a zigzag shape and a multi-layer shape is formed on the main frame 30. It moves while forming a zigzag movement path along the first air movement passage 20.

That is, the indoor air sucked through the air inlet 10 moves to the right in the drawing along the lower air movement passage 20a formed at the bottom of the first air movement passage 20.

As described above, when sucked through the air inlet 10 and moved to the right side of the lower air movement passage 20a, the UV ultraviolet lamp 100 formed on the bottom surface of the ceiling partition 120 of the lower air movement passage 20a ), it is possible to perform primary sterilization of harmful bacteria in the indoor air by using a certain amount of UV rays irradiated from ).

Indoor air moved to the right side of the lower air movement passage 20a passes through the opening 120a formed in the ceiling partition 120 and moves to the middle air movement passage 20b, thereby changing the direction of air movement.

That is, the indoor air moved into the middle air movement passage 20b moves to the left in the drawing, so the UV ultraviolet lamp 100 formed on the bottom surface of the ceiling partition 130 of the middle air movement passage 20b It is possible to perform secondary sterilization of harmful bacteria in indoor air by a certain amount of UV rays irradiated from.

The indoor air moved to the left of the middle air movement passage 20b passes through the opening 130a formed in the partition wall 130 and moves to the upper air movement passage 20c, so the air movement direction is changed again.

That is, since the indoor air moved in the upper air movement passage 20c moves in the right direction in the drawing, it is irradiated from the UV ultraviolet lamp 100 formed on the bottom surface of the ceiling partition 140 of the upper air movement passage 20c. It is possible to perform tertiary sterilization of harmful bacteria in indoor air using a certain amount of UV rays.

As described above, the indoor air sucked through the air inlet 10 of the main frame 30 is divided into a lower air movement passage 20a forming the first air movement passage 20, a middle air movement passage 20b, and , the air movement trajectory can be increased by passing the upper air movement passage 20c in a zigzag shape.

Therefore, when indoor air is moved along the first air movement passage 20, various harmful bacteria harmful to the human body contained in indoor air are eliminated by UV ultraviolet rays irradiated from the UV ultraviolet ray lamps 100 formed on the ceiling partitions 120, 130, and 140. It can be sterilized efficiently.

Clean indoor air sterilized by ultraviolet rays irradiated from the UV ultraviolet lamp 100 while moving along the above-described first air movement passage 20 is connected to the ceiling partition 140 of the upper air movement passage 20c. It is moved to the second air movement passage 40 of the auxiliary frame 60 through the formed opening 140a.

The clean air moved in the second air movement passage 40 of the auxiliary frame 60 is discharged into the room through the air outlet 50 connected to the second air movement passage 40.

As described above, when clean air passing through the second air movement passage 40 is discharged into the room through the air outlet 50, when the sterilized clean air passes through the second movement passage 40, it is discharged indoors. To prevent contamination by residual polluted air, polluted air can be filtered by the cartridge-type air purification module 110 formed at the air outlet 50 and clean air can be discharged into the room (second air movement). UV ultraviolet lamp (100) is not installed inside the passage (40).

At this time, since the air purification module 110 including the above-described HEPA filter is commonly used in the technical field to which this specification pertains, a detailed description of its configuration and function will be omitted.

In order to see the power saving effect by turning on the above-mentioned UV ultraviolet lamp 100 for a set time, it is connected to a timer (not shown) and the UV ultraviolet lamp 100 is turned on repeatedly for a certain period of time or for 10 to 20 minutes every hour. It can be used to make it work.

The UV ultraviolet lamp (100) (UV-C LED), which sterilizes harmful bacteria and COVID-19 infectious agents contained in indoor air, is a lamp that emits ultraviolet rays with a wavelength of 230 nm to 270 nm, and is an ion lamp and luminescent lamp. Various types of lamps, such as diodes, can be used, and since these are commonly used in the technical field to which this specification pertains, detailed descriptions of their configuration and methods of use are omitted.

Here, although the above-described specification has been described with reference to preferred embodiments, those skilled in the art may modify and modify the present specification in various ways without departing from the spirit and scope of the specification as set forth in the following claims. You will understand that you can change it.

10; air inlet
20; 1st air passageway
30; main frame
40; Second air passageway
50; air outlet
60; auxiliary frame
70; Ozone generating lamp
80; water tank
90; control panel
100; UV ultraviolet lamp
110; Air purification module

Claims (2)

It is installed in public places where people enter and is applied to a device for sterilizing harmful bacteria in indoor air by circulating indoor air to sterilize harmful bacteria in the air.
Indoor air containing harmful bacteria is inhaled, and air inlets where filtration filters for filtering dust contained in the indoor air are formed at a plurality of locations, and are sucked in through the air inlets to form a series of zigzag and multi-layer shapes. A main frame in which at least one UV ultraviolet lamp is installed on the ceiling to sterilize harmful bacteria in the indoor air circulating along the first air passage by irradiating ultraviolet rays;
an auxiliary frame formed on the main frame and having at least one air outlet for discharging clean air moving along a second air movement passage communicating with the first air movement passage to the outside;
an ozone-generating lamp formed on the auxiliary frame and used to sterilize bad odors and mold in indoor air;
a water tank formed on the auxiliary frame to humidify dried indoor air;
A device for sterilizing harmful bacteria in indoor air, including corona bacteria, comprising the UV ultraviolet lamp, a blowing fan that moves indoor air along the first and second air movement passages, and a control panel for controlling the turning on and off of the ozone generating lamp. In:
The air outlet is
When the clean air sterilized by the UV ultraviolet lamp of the first air movement passage passes through the second air movement passage, the air is filtered so as not to be contaminated by the contaminated air remaining inside and is discharged to the outside through the air outlet. It is equipped with a cartridge-type air purification module to which a HEPA filter is detachably attached, and a plasma ionizer to sterilize harmful bacteria floating in indoor air by generating plasma ions in the discharged air. A device for sterilizing harmful bacteria in indoor air containing corona bacteria. delete

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