KR20220146724A - Air purifier for air conditioner - Google Patents

Abstract

The present invention relates to an air purifying sterilizer detachably attached to an air conditioner, which is detachably installed at an air inlet of an air conditioner, and is capable of sterilizing indoor infectious bacteria and removing indoor odors while operating the air conditioner. According to the present invention, the air purifying sterilizer detachably attached to an air conditioner comprises: a main body unit having an air passage therein so that air to be sterilized can be supplied into the air inlet; and a sterilizing filter unit in which a plurality of filters and an ultraviolet irradiation plate are sequentially stacked in the air passage of the main body unit to sterilize infectious bacteria included in the air to be sterilized passing through the air passage and simultaneously remove odors.

Description

Air purifying sterilizer for detachable air conditioner {AIR PURIFIER FOR AIR CONDITIONER}

The present invention relates to an air purifying sterilizer for attaching and detaching an air conditioner that is detachably installed at an air intake port of an air conditioner to sterilize indoor infectious bacteria and remove indoor odors while operating the air conditioner.

Recently, the spread of infectious bacteria is faster by air than by water and food. In particular, novel viruses such as corona have a long survival time in the air, and it is difficult to sterilize them through UV irradiation in the natural environment.

In other words, infectious diseases transmitted through food have a low risk of infection if food is not boiled or spoiled food is consumed. However, since a virus such as corona has a high airborne infection rate, the air must be sterilized.

Conventionally, a method of treating polluted indoor air mainly uses an air purifier to remove fine dust and remove odors, but most of these conventional air purifiers do not have an air sterilization function. Some air purification sterilizers have a function of purifying the air polluted by a filter and sterilizing the air by irradiating ultraviolet rays through an ultraviolet lamp.

However, the air purification sterilizer lacks an air purification and sterilization function because the inflow output strength is weaker than the inflow and blowing wind speed of the air conditioner, and the contaminated air is first introduced and discharged into the air conditioner.

In order to compensate for such a problem, the conventional air sterilizer has a plurality of air inlets formed on the case front plate, and air is introduced through the air inlets to pass through the filter. Then, the UV lamp installed inside the sterilizer and the photocatalytic filter reacted to perform the air sterilization function. A blowing fan is installed in the sterilizer to perform a blowing function.

The air sterilizer of this configuration is mounted in a predetermined place in the form of a stand, and the air that has passed through the filter is irradiated with ultraviolet wavelengths to sterilize the air.

However, in the conventional air sterilizer, a large amount of air is introduced into the inner space of the case, and the introduced air is partially sterilized by the UV light irradiated by the UV lamp, and some is unsterilized and may be discharged into the room. Accordingly, rather than sterilizing the entire incoming air, only the air irradiated with ultraviolet rays is sterilized, and there is a problem in that the indoor odor cannot be effectively solved.

Korean Patent Laid-Open Publication No. 10-2001-0113604 (published on December 28, 2001)

The present invention has been devised to solve the above problems, and is detachably installed at the air intake port of the air conditioner, and provides an air purifying sterilizer for attaching and detaching an air conditioner that sterilizes indoor infectious bacteria and removes indoor odors while operating the air conditioner but it has a purpose.

The air purifying sterilizer for attaching and detaching an air conditioner according to the present invention for realizing the object as described above is detachably coupled to the air intake port of the air conditioner body, and an air passage is provided therein so that the air to be sterilized can be supplied into the air intake port. a main body provided; and a sterilization filter unit in which a plurality of filters and an ultraviolet irradiation plate are sequentially stacked in the air passage of the main body to sterilize infectious bacteria contained in the air to be sterilized passing through the air passage and to remove odors at the same time. .

In this case, the sterilization filter unit may include a pre-filter, a carbon filter, a first LED ultraviolet irradiation plate, a photocatalyst filter, and a second LED ultraviolet irradiation plate sequentially stacked along the direction in which the air to be sterilized is moved.

In addition, the photocatalytic filter may include a laminated titanium mesh filter and a copper mesh filter.

In addition, the titanium mesh filter and the copper mesh filter, the titanium mesh and the copper mesh constituting each filter may be arranged in disorder to generate a vortex when the air to be sterilized is passed.

In addition, the titanium mesh may include forming anatase-type titanium dioxide on the surface of the titanium mesh by treatment in an oxygen atmosphere electric furnace at 450 to 550° C. for 23 to 25 hours.

In addition, the copper mesh may include an enlarged surface area of the copper mesh while forming a predetermined surface roughness through a sand blasting process.

In addition, in the first LED ultraviolet irradiation plate and the second LED ultraviolet irradiation plate, a plurality of band-shaped LED ultraviolet lamps are arranged to be spaced apart from each other at regular intervals, and the LED ultraviolet lamps of the first and second LED ultraviolet irradiation plates are arranged in a zigzag form. Thus, it is possible to generate a vortex when the air to be sterilized passes.

In addition, between the air inlet and the bonding surface of the body portion, a gasket for sealing the gap therebetween; may further include interposed.

The air purifying sterilizer for attaching and detaching the air conditioner according to the present invention having the above configuration is detachably installed at the air intake port of the air conditioner, and it can sterilize indoor infectious bacteria and efficiently remove indoor odors when the air conditioner is operated. .

In particular, the air purifying sterilizer according to the present invention uses a semi-permanent titanium dioxide mesh and coats an anatase thin film coating agent on a copper mesh with antibacterial and deodorizing power with a dip coater, thereby preventing UV degradation that occurs in polymer materials and having a semi-permanent photocatalytic effect. Higher air purification and sterilization ability can be achieved by using a photocatalytic filter.

1 is a front view showing a state in which an air purifying sterilizer for attaching and detaching an air conditioner according to the present invention is installed in an air conditioner body;
2 is an exploded perspective view of a sterilization filter unit according to the present invention;
3 is a cross-sectional view taken along line II' of FIG. 1 showing a laminated structure of an air purifying sterilizer for attaching and detaching an air conditioner according to the present invention;
4 is a detailed view of part 'A' of FIG. 3 .

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

Here, in adding reference numerals to the components of each drawing, it should be noted that only the same components are marked with the same reference numerals as much as possible even though they are displayed on different drawings.

1 is a front view showing a state in which an air purifying sterilizer for attaching and detaching an air conditioner according to the present invention is installed in an air conditioner body, and FIG. 2 is an exploded perspective view of a sterilizing filter unit according to the present invention.

Referring to FIG. 1 , an air purifying sterilizer 10 for attaching and detaching an air conditioner according to a preferred embodiment of the present invention may include a body part 100 and a sterilization filter part 200 .

The configuration of the present invention will be described in detail as follows.

First, the body part 100 constitutes the main frame of the air purifier and sterilizer 10 , and may be coupled to the air intake port 3 of the air conditioner body 1 .

In this case, the body part 100 may be formed to have a corresponding size so as to cover the entire air intake port 3 . And an air passage (L) may be provided therein so that the air to be sterilized can be supplied to the air inlet (3).

In addition, a flange 110 provided with a fastening hole (not shown) so as to be detachably fixed to the surface of the air conditioner body 1 through a fastening member 111 such as a bolt or screw on the edge of the main body 100 . ) may be provided. As such, as the body part 100 is detachable, periodic maintenance and cleaning of the sterilization filter part 200 to be described later is possible.

In addition, a gasket 120 for sealing a gap therebetween may be interposed between the bonding surface of the air inlet 3 and the body part 100 . Preferably, the gasket 120 (refer to FIG. 3) may be formed of a pad made of a silicon material.

In this case, in the present invention, an example of the case in which the body part 100 is formed in a rectangular frame shape will be shown and described. Of course, the present invention is not limited thereto.

In the sterilization filter unit 200 , a plurality of filters and an ultraviolet irradiation plate may be sequentially stacked in the air passage L of the body unit 100 . The sterilization filter unit 200 can sterilize infectious bacteria contained in the sterilization target air passing through the air passage L and remove odors at the same time.

Referring to FIG. 2 , the sterilization filter unit 200 includes a pre-filter 210 , a carbon filter 220 , a first LED ultraviolet irradiation plate 230 , and a photocatalytic filter 240 along the direction in which the air to be sterilized moves. , the second LED ultraviolet irradiation plate 250 may be sequentially stacked.

The sterilization filter unit 200 will be described in detail as follows.

First, the pre-filter 210 is a filter located on the first surface side of the indoor air to be sterilized, and can filter pet hair, lint, hair, dust, etc. contained in the air to be sterilized. The pre-filter 210 may protect high-performance filters such as HEPA/deodorization filters and increase the lifespan. It can be washed with water and can be used semi-permanently without deterioration in performance even after using it for a long time.

The carbon filter 220 may serve as a filter to remove various odors. As the carbon filter 220 can apply a known technology, detailed operation description thereof will be omitted. The carbon filter 220 can be manufactured to a level that removes odors (odors) without receiving resistance from the incoming air, and it is preferable to replace them periodically.

The first LED ultraviolet irradiation plate 230 and the second LED ultraviolet irradiation plate 250 may be manufactured in a form in which a plurality of band-shaped LED ultraviolet lamps 231 and 251 are arranged to be spaced apart from each other at regular intervals.

In this case, the LED ultraviolet lamps 231 and 251 of the first and second LED ultraviolet irradiation plates 230 and 250 may be mutually arranged in a zigzag form. Accordingly, a vortex may be generated when the air to be sterilized passes.

For reference, the first and second LED UV irradiation plates 230 and 250 may use LED UV-C lamps. This LED UV-C lamp has a longer lifespan than a generally used fluorescent lamp type UV lamp, requires less power, and can improve the air purification and sterilization power compared to the prior art by increasing the UV irradiation density to the photocatalytic filter 240 .

Preferably, the UV-A lamp is also arranged between the LED UV-C lamps used in the first and second LED UV irradiation plates 230 and 250 so that the UV lamp arrangement of the C-A-C-A type can be made. Accordingly, the sterilization target air introduced into the body 100 may have electron holes having strong oxidizing power and reducing power by reaction between the C lamp and the A lamp. These electron holes generate OH radicals by reacting with water and oxygen in the atmosphere, thereby maximizing the sterilization effect of VOCs and various bacteria included in the contaminated air.

Meanwhile, the photocatalytic filter 240 may be interposed between the first LED ultraviolet irradiation plate 230 and the second LED ultraviolet irradiation plate 250 .

Specifically, the photocatalytic filter 240 serves to sterilize the air to be sterilized and remove odors at the same time. structure can be made.

In this case, in the titanium mesh filter 241 and the copper mesh filter 243 , the titanium mesh 241a and the copper mesh 243a constituting each filter may be randomly arranged. Accordingly, a vortex may be generated when the air to be sterilized passes. The photocatalyst and photochemical reaction can be sufficiently caused by this air vortex.

Specifically, the titanium mesh 241a is GR 2 class 25 mesh (ASTM B 863, Black CP Ti wire) in an oxygen atmosphere electric furnace of 450 ~ 550 ℃ (preferably 500 ℃) 23 ~ 25 hours ( Preferably for 24 hours) to make anatase-type titanium dioxide on the surface of the titanium mesh.

In addition, the copper net 243a of 25 mesh can form a predetermined surface roughness through a sand blasting process and at the same time increase the surface area of the copper net.

In addition, the photocatalytic filter 240 may use a dip coater so that the coating layer is not peeled off when the thin film anatase coating solution is coated. After the coating process is performed, the photocatalytic filter 240 having excellent performance can be manufactured by performing natural drying for a predetermined time, performing a first heat treatment at 120° C., and then performing a second heat treatment in an electric furnace at 500° C. This process may be repeated at least three times to form an appropriate thickness of the coating layer and to improve bonding strength. Here, the reason for coating titanium dioxide on copper is to utilize the antibacterial and deodorizing power, heat storage, antistatic, electromagnetic wave blocking, and electrical conductivity of copper.

For reference, conventional air purifying sterilizers have been used by coating a photocatalyst solution on a filter such as a plastic or fiber such as a polymer material, but the polymer material deteriorates when it is irradiated with UV light for a long time, so it crumbles or its efficacy drops sharply, so it should be replaced .

On the other hand, the air purifying sterilizer 10 according to the present invention uses a semi-permanent titanium dioxide mesh 241a and coats an anatase thin film coating agent on the copper mesh 243a having antibacterial and deodorizing power with a dip coater. By using the photocatalyst filter 240 which prevents the phenomenon and has a semi-permanent photocatalytic effect, it is possible to exhibit a higher air purification and sterilization ability.

Specifically, when explaining the principle of air purification through the photocatalytic filter 240 , when titanium dioxide (TiO ₂ , anatase), which is a photocatalyst constituting the photocatalytic filter 240 , receives an ultraviolet wavelength, anion electrons and cation holes It reacts with moisture in the atmosphere to create ozone (O ₃ ) and super radicals (OH). Accordingly, it is possible to exhibit strong sterilization and odor removal performance.

The air purifying sterilizer 10 for attaching and detaching an air conditioner according to the present invention having the above configuration is detachably installed in the air intake port 3 of the air conditioner, and when the air conditioner is operated, it can sterilize indoor infectious bacteria and remove indoor odors at the same time. have.

Referring to FIG. 3 , the air purifying and sterilizing device 10 provides indoor sterilization target air (hereinafter abbreviated as 'air') through the air intake fan 5 provided in the air conditioner body 1 without a separate blowing system. It may be sucked into the body part 100 .

The air sucked into the main body 100 first passes through the pre-filter 210 to filter out various kinds of dust contained in the air.

While passing through the pre-filter 210 , the air from which various dust has been filtered passes through the carbon filter 220 to remove various odors.

Then, the air that has passed through the pre-filter 210 is irradiated with the first LED UV irradiation plate 230 and the photocatalytic filter 240, the titanium mesh filter 241 and the copper mesh filter 243, and the second LED UV radiation. While passing through the plate 250 sequentially, it is possible to sterilize infectious bacteria contained in the air flowing into the air conditioner and remove odors through a photochemical reaction caused by UV irradiation by the LED UV lamps 231 and 251 .

In this case, as shown in FIG. 4 , the air passing through the first and second LED UV irradiation plates 230 and 250 and the photocatalytic filter 240 generates a vortex due to a disordered arrangement, resulting in sterilization and odor removal performance. This can be improved.

The air from which sterilization and odors have been removed while passing through the air purifier 10 is supplied to the inside of the air conditioner through the air intake 3 of the air conditioner body 1, and the supplied air is cooled and then returned to the room. can be supplied. In winter, only the blowing function of the air conditioner is performed to purify and sterilize the indoor air and circulate it.

In the above, the present invention has been illustrated and described with reference to specific specific embodiments, but the present invention is not limited to the above-described embodiments, and various changes and modifications are possible without departing from the technical spirit of the present invention.

1: Air conditioner body 3: Air intake port
5: air intake fan 10: air purifying sterilizer
100: body part L: air passage
110: flange 111: fastening member
120: gasket 200: sterilization filter unit
210: pre-filter 220: carbon filter
230: first LED ultraviolet irradiation plate 231: LED ultraviolet lamp
240: photocatalytic filter 241: titanium mesh filter
241a: titanium mesh 243: copper mesh filter
243a: copper mesh 250: second LED ultraviolet irradiation plate
251: LED UV lamp

Claims (8)

a body part detachably coupled to the air inlet of the air conditioner body and having an air passage therein so that air to be sterilized can be supplied into the air inlet; and
A plurality of filters and an ultraviolet irradiation plate are sequentially stacked in the air passage of the main body, and a sterilization filter unit that sterilizes infectious bacteria contained in the sterilization target air passing through the air passage and removes odors at the same time; Air purifier sterilizer.
According to claim 1,
The sterilization filter unit,
A pre-filter, carbon filter, first LED ultraviolet irradiation plate, photocatalyst filter, and second LED ultraviolet irradiation plate are sequentially stacked along the direction in which the sterilization target air moves.
3. The method of claim 2,
The photocatalytic filter is
An air purifying sterilizer for attaching and detaching an air conditioner comprising a laminated titanium mesh filter and a copper mesh filter.
4. The method of claim 3,
The titanium mesh filter and the copper mesh filter,
An air purifying sterilizer for attaching and detaching an air conditioner in which a titanium mesh and a copper mesh constituting each filter are arranged in a disorderly manner to generate a vortex when the air to be sterilized passes through.
4. The method of claim 3,
The titanium network,
An air purifying sterilizer for attaching and detaching an air conditioner comprising forming anatase-type titanium dioxide on the surface of the titanium mesh by treatment in an oxygen atmosphere electric furnace at 450 to 550° C. for 23 to 25 hours.
4. The method of claim 3,
The copper mesh,
An air purifying sterilizer for attaching and detaching an air conditioner, comprising expanding the surface area of the copper mesh while forming a predetermined surface roughness through a sand blasting process.
3. The method of claim 2,
The first LED ultraviolet irradiation plate and the second LED ultraviolet irradiation plate,
A plurality of band-shaped LED UV lamps are arranged to be spaced apart from each other at regular intervals, and the LED UV lamps of the first and second LED UV irradiation plates are arranged in a zigzag shape so that a vortex is generated when the air to be sterilized is passed. Detachable air purifying sterilizer.
According to claim 1,
Between the air intake and the bonding surface of the main body,
A gasket for sealing the gap between; an air purifying sterilizer for attaching and detaching an air conditioner further comprising an interposed one.

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