KR102123026B1 - Apparatus for airborne disinfection - Google Patents

Abstract

The present invention relates to a device for sterilizing air, and a filter coated with a photocatalyst in a cylindrical body to improve the sterilization effect irrespective of the type of filter by increasing the number of times the introduced air passes through the filter. A light source plate that emits ultraviolet rays toward the filter is provided to sterilize the air passing through the body, and the body is formed with a rotating induction blade forming a spiral structure along the longitudinal direction on the inner wall, so that the air introduced into the body induces rotation Rotating along the wing and passing through the filter, the sterilizing effect is increased, but the filter is formed in a plate shape and is provided along the longitudinal direction of the center of the body, and the wall surface of the body is longitudinally oriented so as to correspond to the light source plate formed in the form of a band. Accordingly open, the light source plate relates to an air sterilization device, characterized in that coupled to the body and the projection groove structure.

Description

Air sterilization device {Apparatus for airborne disinfection}

The present invention relates to a device for sterilizing air, and more particularly, to an air sterilizing device that increases the sterilizing effect by rotating the air.

In general, a photocatalyst refers to a substance that receives light and promotes a chemical reaction, and a typical example is titanium dioxide. When light is directed to the titanium dioxide, electrons and holes are formed on the surface, and electrons react with oxygen on the surface of the photocatalyst to form superoxide anions, and holes react with moisture present in the air to form hydroxy radicals. do.

At this time, the generated hydroxy radical has a very excellent ability to oxidatively decompose strong organic substances, so it decomposes odorous substances, viruses, bacteria, etc., which are always present in the air, and turns them into water and carbon dioxide. For this reason, photocatalytic reactions are mainly used in environmental purification processes to effectively remove contaminants.

The photocatalytic reaction as described above has been put into practical use in various fields such as home appliances, roads, vehicles, air treatment, medical treatment, and water treatment, and is one of the representative future technologies that are in the spotlight in terms of energy and environment.

As a photocatalyst filter used in air purifiers, etc., in Korean Patent Registration No. 10-0541026 (hereinafter referred to as'quoted invention'), aluminum thin plates having good light reflectivity are stacked in a honeycomb or corrugated shape to allow air to pass through. A technique of forming a cell of and coating titanium oxide on the inner wall of the cell so that light emitted from an ultraviolet lamp is always reflected multiple times in the cell, so that ultraviolet light reaches the deep portion of the cell.

The above cited invention is a honeycomb type photocatalyst filter introduced to solve the problem of a photocatalytic filter having a conventional mesh type, non-woven fabric type, and honeycomb type. Although it is possible to obtain the effect of improving the production, there is a burden of increasing the cost because the cell of the filter must be manufactured in a honeycomb or corrugated shape, and the air introduced into the filter is sterilized while passing through the filter only once. If it is not a honeycomb or corrugated cell, there is a problem that the sterilization efficiency is lowered.

An object of the present invention is to provide an air sterilizing device capable of improving the sterilizing effect irrespective of the type of filter by increasing the number of times the introduced air passes through the filter as a solution to the above problems.

The air sterilizer of the present invention for achieving the above object is provided with a filter coated with a photocatalyst in a cylindrical body and a light source plate that emits ultraviolet rays toward the filter to sterilize the air passing through the body, and the body is provided on the inner wall. A rotating induction wing forming a spiral structure along the longitudinal direction is formed, and air introduced into the body rotates along the rotating induction wing and increases the sterilization effect by passing through the filter, and the filter forms a plate shape and has a length in the center of the body. It is provided along the direction, and the wall surface of the body is opened along the longitudinal direction to correspond to the light source plate formed in the form of a band, and the light source plate is characterized in that it is coupled to the body and the protrusion groove structure.

According to the present invention, when the air passing through the body enters the body, it rotates along the rotating induction blade and passes through the filter several times until it is discharged from the body, thereby increasing the sterilization effect, which increases the contact between the filter and air. It can be used regardless of the type of Invar filter.

1 is a perspective view showing the structure of an air sterilization apparatus according to the present invention,
Figure 2 is a perspective view showing the structure of the air sterilization apparatus according to the present invention,
Figure 3 is a cross-sectional view showing the structure of the air sterilization apparatus according to the present invention,
Figure 4 is a cross-sectional view showing a structure in which the filter and the light source plate applied to the air sterilization apparatus according to the present invention is coupled to the body,
5 is a perspective view showing another structure of the air sterilization apparatus according to the present invention,
Figure 6 is a cross-sectional view showing a structure in which the sterilizing body and the rotating induction body are connected in the air sterilizing apparatus according to FIG.

In the present invention, a filter coated with a photocatalyst in a cylindrical body and a light source plate emitting ultraviolet light toward the filter are provided to increase the number of times the introduced air passes through the filter to improve the sterilization effect regardless of the type of filter. It is provided to sterilize the air passing through the body, and the body is formed with a rotating induction blade forming a spiral structure along the longitudinal direction on the inner wall, and the air introduced into the body rotates along the rotating induction blade and passes through the filter to sterilize effect Is increased, the filter is formed in the form of a plate and is provided along the longitudinal direction in the center of the body, the wall surface of the body is opened along the longitudinal direction to correspond to the light source plate formed in the form of a band, the light source plate and the body It proposes an air sterilization device, characterized in that coupled to the groove structure.

The scope of rights of the present invention is not limited to the embodiments described below, and can be variously modified by those skilled in the art without departing from the technical gist of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying Figures 1 to 6 of the air sterilization device.

The air sterilization apparatus of the present invention is provided with a filter 100 and a light source plate 200 in a cylindrical body A, as shown in FIGS. 1 and 2. The body (A) here can be formed of a sturdy material as well as a flexible material, and air-conditioning devices for vehicles, hospitals, subways, subway stations, and other air-conditioning devices, air-conditioning devices in smoking rooms, air cleaners, and air-conditioning facilities It can be said to be used in places where sterilization and deodorization of air are required, such as devices and deodorization systems. In addition, it is preferable that the body (A) has both ends open so that air can flow in and out.

The filter 100 is coated with a photocatalyst and generally has a mesh structure, but a non-woven fabric or the like may be coated with a photocatalyst, and may be formed in various forms such as a honeycomb structure. In addition, the photocatalyst is capable of sterilizing and deodorizing air in response to ultraviolet rays, and typically includes titanium dioxide, but is not limited thereto.

The light source plate 200 emits ultraviolet rays toward the filter 100, and various means for emitting ultraviolet rays may be provided, but an LED 210 capable of emitting sufficient ultraviolet rays while occupying a minimum space is provided. It is desirable.

Therefore, the air introduced into the body A flows out of the body A through the filter 100, wherein ultraviolet rays emitted from the light source plate 200 generate electrons and holes on the surface coated with the photocatalyst, , They react with moisture in the air to make a hydroxy radical, a strong oxidizing agent, whereby the organic substances contained in the air are oxidatively decomposed, sterilizing and deodorizing the air passing through the body (A).

Particularly, in the air sterilization apparatus according to the present invention, as shown in FIGS. 2 and 3, a rotary induction blade 300 is formed on the inner wall of the body A along the longitudinal direction. Since the rotating induction blade 300 rotates the air introduced into the body A, it passes through the filter 100 several times until it is discharged from the body 100 as shown in FIG. 3. That is, since the number of times the air comes into contact with the filter 100 increases, the sterilization and deodorization effect increases, which improves the sterilization and deodorization effect even if the filter 100 is formed in any type such as a mesh type, a non-woven type, or a honeycomb type. I can do it.

The filter 100 and the light source plate 200 may be formed in various forms, but while the light source plate 200 occupies a minimum space in the body A, the filter 100 is ultraviolet light from the light source plate 200. In order to receive as much as possible and sterilize and deodorize a lot of air in the body A, as shown in FIG. 2, the light source plate 200 is formed in a band shape, and the body A is formed along the longitudinal direction of the body A. It is provided on the wall, and the filter 100 is formed in a plate shape and may be provided along the longitudinal direction of the central portion of the body A.

As described above, the light source plate 200 formed in the form of a strip may be formed in a plurality of LEDs 210 that emit ultraviolet rays at predetermined intervals, and the filter 100 receives as much air as possible within the body A. In order to sterilize, it is preferably formed to have a width similar to the diameter of the central portion of the body A, that is, the body A.

The filter 100 and the light source plate 200 may be fixed and coupled to the body A in various forms, but may have the following fixing and coupling structure in terms of ease of replacement and robustness of coupling.

First, the filter 100 may be fixed to be fitted to the rotary induction blade 300 as shown in FIGS. 2 and 4. The rotary induction blade 300 may be formed by erecting on the inner periphery of the body A while forming a single threaded shape, and in this case, manufacturing cost may be reduced.

However, in order to change the spacing of the threads according to the place of use of the present invention, it is necessary to change the mold required for manufacturing it, and if the spacing of the threads is large, the inflow and outflow of air may not be smoothly made at the outflow inlet. The rotation-inducing wing 300 is preferably formed so that a plurality of dogs constituting a strip form a regular interval on the inner periphery of the body (A) and rotated along the longitudinal direction of the body (A). In this case, according to the use of the present invention, not only can be formed by adjusting the spacing between the rotating induction blades 300, the air can be easily rotated from the inlet and outlet of the body A, so that more air is added to the filter 100 Can effectively contact.

As shown in FIGS. 2 and 4, the rotating guide blade 300 may have an installation groove 310 recessed outwardly at a corresponding point so that both edges of the filter 100 can be fitted. . Therefore, when the rotary induction blade 300 is made of a plurality, the filter 100 can be fitted and fixed to the plurality of rotary induction blades 300 so that the filter 100 can be easily replaced, as well as the filter 100 ) Can be firmly fixed in the body (A).

Next, in order to install the light source plate 200 on the wall surface of the body A, the wall surface of the body A may be opened along the longitudinal direction to correspond to the shape of the light source plate 200. The light source plate 200 is coupled to the open part of the body A, and after the light source plate 200 is fitted at the end of the body A so that the light source plate 200 is not separated from the body A after the combination. It is preferred to have a paper structure.

As an example of this, the light source plate 200 may be coupled to the body (A) and the projection groove structure, more specifically, as shown in Figure 4, the light source plate 200 is the inner side of the body (A) The part facing toward the outside of the body A is formed to be wider than the part facing toward the outside to form a stepped side, and the part opened by the body A to contact the light source plate 200 is the light source plate 200 It is formed so as to correspond to the side stepped of the protrusion groove structure can be coupled to the sliding.

As described above, when the light source plate 200 is coupled to be fitted to the body A, it can be provided on the body A without being affected by the rotation induction blade 300 formed in the body A, In the inner direction of the body (A) is fixed by a rotating induction blade 300, the outside of the body (A) has a structure fixed by a projection groove structure, the light source plate 200 in a firmly fixed state Ultraviolet rays may be emitted toward the filter 100.

On the other hand, as shown in Figures 1 to 3, the body (A) is composed of one, the filter 100, the light source plate 200 and the rotation guide blade 300 may be provided as well as, of course, if necessary As shown in Figure 5, the body (A) includes a sterilizing body (a1) equipped with a filter 100 and a light source plate 200, and a rotating induction body (a2) equipped with a rotating induction blade (300). You can.

At this time, the rotating induction body (a2) and the sterilizing body (a1) is preferably formed alternately, the sterilizing body to the rear of the rotating induction body (a2) so that the air can enter the sterilizing body (a1) after rotating first It is more preferable that (a1) is provided. In addition, since the sterilizing body (a1) does not have a rotating induction wing (300), the inner wall of the sterilizing body (a1) has a filter (100) along the longitudinal direction of the sterilizing body (a1) at the point where the filter (100) is installed. ) Is formed to surround both sides of the edge, a coupling protrusion (not shown) in which the filter 100 can be slidingly coupled may be formed.

In addition, the sterilizing body (a1) and the rotation-inducing body (a2) are coupled so that the ends come into contact with each other, and the engaging jaws 20 are formed at the abutting ends as shown in FIG. In addition, a power terminal 220 may be formed at an end of the light source plate 200 provided in the sterilizing body (a1), as shown in FIG. 6, and a light source plate may be located in the wall surface of the rotating induction body (a1). The electric wire 10 for supplying power to the 200 may be provided, so that a plurality of sterilizing bodies a1 and a rotating induction body a2 can be continuously coupled.

A: Body a1: Sterilized body
a2: rotating induction body
10: wire 20: coupling jaw
100: filter 200: light source plate
210: LED 220: Power terminal
300: rotary induction blade 310: installation groove

Claims (5)

A filter 100 coated with a photocatalyst and a light source plate 200 emitting ultraviolet rays toward the filter 100 are provided in the cylindrical body A to sterilize the air passing through the body A,
The body (A) is formed on the inner wall with a rotating induction blade (300) constituting a spiral structure along the longitudinal direction, the air introduced into the body (A) rotates along the rotating induction blade (300), and the filter (100) By passing, the sterilization effect is increased,
The filter 100 is formed in a plate shape and is provided along the longitudinal direction in the center of the body (A),
The wall surface of the body (A) is opened along the longitudinal direction to correspond to the light source plate (200) formed in the form of a strip, the light source plate (200) is air, characterized in that coupled to the body (A) and the projection groove structure Sterilization device. According to claim 1,
The rotation-inducing wing 300 is formed in a plurality of dogs forming a belt shape at regular intervals on the inner periphery of the body (A) and rotated along the longitudinal direction of the body (A),
The filter 100 is an air sterilization device, characterized in that fitted and fixed to a plurality of rotary induction blades (300). According to claim 1,
The body (A) includes a sterilizing body (a1) equipped with a filter 100 and a light source plate 200, and a rotating induction body (a2) equipped with a rotating induction blade 300,
Air sterilizing device, characterized in that the rotation induction body (a2) and the sterilization body (a1) are alternately formed. delete delete

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