KR102165870B1 - a cell for room air sterilized and purifying of include in photocatalyst - Google Patents

Abstract

The present invention relates to a cell for sterilization and purification of air in a space, containing a photocatalyst capable of further improving effects of air purification, sterilization, and the like. The present invention specifically comprises: a plate-like strip (120); a photocatalyst (130) that sterilizes various viruses and bacteria in the air and purifies the air; a circular cell lower support (140) for supporting and fixing a circular cell main body part (110) and the plate-like strip (120); a cell cover part (150) installed to be coupled and fixed with the circular cell lower support (140); and a rubber packing part (160) installed so that a UV lamp (L) is in close contact with and fixed to the circular cell main body part (110).

Description

A cell for room air sterilized and purifying of include in photocatalyst}

The present invention relates to a cell for sterilizing and purifying air inside a space containing a photocatalyst, and in particular, a plurality of plate-shaped strips are integrally addressed in a horizontal direction on a main surface of a circular cell body part, and the cell for air sterilization and purification The air flowing into the interior moves smoothly without clogging in the horizontal direction, and in particular, the contact area with air is further increased by a number of plate-like strips coated with a photocatalyst, thereby remarkably enhancing the air purification effect. In addition, the plate-shaped strips are each formed with inclined portions to decrease the thickness toward the front end, so that the flow of air passing through the plate-shaped strip is smoothly guided, and the photocatalyst of air in contact with the photocatalyst is irradiated with UV light. It relates to a cell for air sterilization and purification inside a space containing a photocatalyst capable of further improving the effect of, as well as the effect of gongga purification and sterilization.

In general, as the population increases and industrialization proceeds rapidly, the appearance of various harmful bacteria as well as air pollution is becoming more intensified, which adversely affects the life activities of humans and animals and plants.

Air pollution and human-to-human infections include MERS coronavirus, super bacteria, H1N1 (type A/bird flu, etc.), infectious pathogens, salmonella, E. coli, Staphylococcus aureus, Listeria, Legionella, norovirus, and Corona 19. Airborne bacteria such as odor, such as Nox (nitrogen oxide), SOx (sulfur oxide), volatile organic compounds (VOCs), formaldehyde (sick house syndrome), ammonia, toluene, acetaldehyde (the main cause of cigarette odor), etc. The content of various harmful combinations is increasing.

If such contaminated air is inhaled without sterilization treatment, it may adversely affect the human body. Accordingly, in recent years, accommodation facilities (hotels, motels, etc.), shopping centers (department stores, marts, etc.), cultural facilities (museums, exhibition halls, concert halls, etc.), medical institutions (hospitals, nursing homes, etc.), educational institutions ( Schools, kindergartens, academies, etc.), transportation facilities (airports, trains, subways, etc.), offices, and shopping malls, install air purifiers to purify the contaminated air so that people can inhale the purified air. It allows you to live in a comfortable environment.

In general, an air purifier used to purify contaminated air such as soot or indoor air purifies contaminated air by using a UV lamp that purifies the air by the wavelength of light.

As described above, various air purifiers using photocatalysts have been proposed, and these conventional photocatalysts are made of a single material such as titanium dioxide, and the effect is low, and by using such a photocatalyst made of a single material, the Since it cannot be made, it was difficult to use the photocatalyst itself as an air purifier.

In addition, conventional air purifiers increase the contact area with air, and in order to effectively contact the photocatalyst with the light shining from the light emitting light with sterilizing power such as UV light, a photocatalyst is usually applied to a grill such as a mesh or wire mesh. And the air passing through this grill contacts the photocatalyst for sterilization and purification.

However, in the conventional air purifier as described above, dust accumulates as air passes through the mesh or wire mesh, and the dust clogs the gap in the mesh or wire mesh, so the effect of air passing through it decreases. Accordingly, there is a disadvantage that the purifying effect of air is also inferior.

Meanwhile, in order to improve the sterilization and deodorization effect of air, a space sterilizer was developed that sterilizes and deodorizes air through a photocatalytic oxidation reaction by a combination of a photocatalytic material and a broadband ultraviolet ray, and examples thereof are Korean Patent Registration No. 10-0660138 (registration date : 2006. 12. 14.), Korean Patent Laid-Open No. 10-2008-0103037 (published date: 2008. 12. 26.), Korean Registered Patent No. 10-0943328 (Registration date: Feb. 11, 2010), It has been proposed in a number of prior documents, including Korean Patent Registration No. 10-1055358 (Registration Date: 2011. 08. 02.).

The space sterilizer according to the prior art, including the above-described prior art, sterilizes and deodorizes air using a photocatalytic oxidation reaction. After sterilizing and deodorizing air using a photocatalyst activated by ultraviolet rays, the sterilized and deodorized air and As a method of purifying indoor air by discharging ions into the air, the sterilization and deodorization effects are greatly improved compared to the existing filter method or plasma type air purifier.

However, in the air sterilizer according to the prior art as described above, as a sterilization device (unit) that sterilizes and deodorizes the introduced air and discharges it is formed integrally with the body (not separated), replacement of parts and repairs as in the existing air cleaner It is not only inconvenient for follow-up management because of extreme difficulty in cleaning and cleaning, in particular, due to the simple air circulation path, the reaction time of the air introduced into the sterilizer with ultraviolet rays and photocatalyst is short, so there is a limit to maximizing the effect of sterilization and deodorization of air. There is a disadvantage that the sterilization and deodorization effects of air are extremely reduced due to the limitation of the ability to inhale the air inside.

On the other hand, the present inventor has previously registered a cell for air sterilization and purification made of a spiral structure formed in a spiral while continuously forming a plurality of wrinkles in a radial direction on a strip of a certain width as Korean Patent Registration No. 10-1771950.

The technical configuration is as shown in Fig. 1, the air sterilization and purification cell 1 coated with a photocatalyst is continuously forming a plurality of wrinkles 3 in a radial direction on a strip 2 of a certain width constituting a base plate. While it is composed of a spiral structure wound in a spiral shape, as well as the effect of a photocatalyst, it is possible to obtain effects such as air purification and sterilization, and air that maximizes the surface area by forming a wrinkle (3) on the strip (2) and winding it in a circular shape. By using the sterilization and purification cell 1, it is possible to double the effect of the photocatalyst, as well as the effects of co-gas purification and sterilization.

However, in the case of the air sterilization and purification cell 1 as described above, it becomes extremely difficult to integrally manufacture a spiral structure wound in a spiral while continuously forming a plurality of wrinkles 3 in the radial direction on the strip 2. , In particular, when the photocatalyst is applied to the surface of the strip 2, which is a spiral structure wound in a spiral while continuously forming the corrugations 3, it is difficult to apply the photocatalyst to the inner surface of the spiral structure, and the effect of the photocatalyst is Of course, there is a big disadvantage in that it is not possible to properly obtain effects such as purification and sterilization.

In addition, the air sterilization and purification cell 1 is difficult to obtain a photocatalytic effect because external dust easily accumulates on the surface due to the characteristics of the spiral wound strip 2, and the empty space through which external air flows is difficult. Since it is narrowed downwards, the circulation of air moving in the left and right horizontal directions is not performed properly, so the photocatalyst applied to the surface of the strip 2 is properly blown into the atmosphere and does not evaporate. There is a big problem in that there is no effect such as cleansing and sterilization of Gongga.

1. Korean Patent Publication No. 10-1771950 (registered on August 22, 2017) 2. Korean Patent Publication No. 10-0660138 (registered on December 14, 2006) 3. Republic of Korea Patent Publication No. 10-2008-0103037 (published on December 26, 2008) 4. Korean Patent Publication No. 10-0943328 (registered on February 11, 2010) 5. Korean Patent Registration No. 10-1055358 (registered on August 02, 2011)

The present invention is to improve the above problems, the object of which is to integrally address a plurality of plate-like strips in a horizontal direction on the main surface of the circular cell main body, and flow into the air sterilization and purification cell. The air moves smoothly without clogging in the horizontal direction, and in particular, the contact area with air is further increased by a plurality of plate-like strips coated with a photocatalyst, so that the air purification effect can be remarkably increased. The plate-shaped strips are each formed with inclined portions so as to be thinner toward the front end, so as to smoothly guide the flow of air passing through the plate-shaped strip, the effect of the photocatalyst of air in contact with the photocatalyst by UV light irradiation is of course , Can further improve effects such as air sterilization and sterilization, and a cell cover part is located on the outside of the air sterilization and purification cell, while safely positioning the air sterilization and purification cell inside, and fixing it without flowing left or right. , Inclined ends are provided on both main surfaces of the sterilizing air penetrating part formed on the main surface of the cell cover part, while inducing a smooth flow of air flowing into the UV lamp of the circular cell body part, sterilizing air by UV light is smoothly irradiated to the outside In addition, air in contact with the photocatalyst applied on the surface of the plate-shaped strip induces air flow in a state in which the air in contact with the photocatalyst applied to the surface of the plate-shaped strip quickly spreads out to the outside through the sterilizing air penetration part of the cell cover. It is to provide a cell for sterilizing and purifying air inside a space containing a photocatalyst that can further promote the sterilization and air purification of various viruses and bacteria.

As a technical configuration for achieving the above object, the cell for sterilizing and purifying air inside the space containing the photocatalyst according to the present invention is a circular hole 111 through which UV light is irradiated by a UV lamp L inserted in the center in the vertical direction. This elongated circular cell body portion 110;

A plurality of circular cells are integrally addressed in a horizontal direction perpendicular to the main surface of the cell body 110, and arc-shaped grooves 121 are formed on both left and right sides to insert a straight bolt 122 into a plate shape. ) Of the strip 120;

A photocatalyst 130 that is applied to the surface of the plate-shaped strip 120 to a thickness of 1.5 to 2 mm, sterilizing various viruses and bacteria in the air and purifying the air;

It is installed under the plate-shaped strip 120, and a plurality of support protrusions 141 are protruded on the inner circumferential surface, and arc-shaped support holes 142 are installed on both left and right sides of the inner circumferential surface, and the plate-shaped strip (120) After being in close contact with the lower portion of the arc-shaped grooves 121 formed on both sides, the straight bolt 122 is coupled to the circular cell lower support for supporting and fixing the circular cell body portion 110 and the plate-shaped strip 120 ( 140);

It is located outside the air sterilization and purification cell 100 consisting of a plurality of plate-shaped strips 120 extending in a horizontal direction on the main surface integrally with the circular cell body part 110, and a plurality of sterilizing air penetration parts on the main surface 151 is provided, and inclined ends 152 are formed on both main surfaces of the sterilizing air penetration part 151, and both sides of the lower side are installed to be coupled and fixed with the circular cell lower support 140 as screws (s). A cell cover part 150; And

It is formed in the center of the circular cell main body 110 and installed on the upper and lower sides of the circular hole 111 through which the UV lamp L is inserted in the vertical direction, so that the UV lamp L is formed in the circular cell main body 110 ) By providing a cell for air sterilization and purification inside a space containing a photocatalyst, characterized in that it is configured, including;

In addition, according to the present invention, the plate-shaped strip 120 integrally addressed on the main surface of the circular cell body portion 110 has a thin thickness toward the front end for smooth air movement inside the air sterilization and purification cell 100. It is characterized in that the inclined portions 123 are respectively formed so as to be formed.

In addition, in the present invention, the photocatalyst 130 applied to the surface of the strip 120 includes 50.5 to 57.5 parts by weight of silicon oxide, 35 to 38 parts by weight of titanium dioxide, 3 to 5 parts by weight of platinum, and 2 to 2.5 parts by weight of copper It is characterized in that it is envisioned, including 2 to 3 parts by weight of rhodium, and 0.5 to 1 parts by weight of silver.

In addition, the air sterilization and purification cell 100 consisting of a plurality of plate-shaped strips 120 extending in a horizontal direction on the main surface integrally with the circular cell body portion 110, a UV lamp (L) installed therein It is characterized in that it is made of aluminum in order to double the reaction of the photocatalyst 130 applied to the surface of the strip 120 by excellent heat transfer of.

According to the cell for air sterilization and purification inside the space containing the photocatalyst of the present invention, a plurality of plate-like strips are integrally addressed in a horizontal direction on the main surface of the circular cell body, and flow into the air sterilization and purification cell. The air moves smoothly without clogging in the horizontal direction, and in particular, the contact area with air is further increased by a plurality of plate-like strips coated with a photocatalyst, so that the air purification effect can be remarkably increased. The plate-shaped strips are each formed with inclined portions so as to be thinner toward the front end, so as to smoothly guide the flow of air passing through the plate-shaped strip, the effect of the photocatalyst of air in contact with the photocatalyst by UV light irradiation is of course , It is possible to further improve the effects such as air sterilization and sterilization inside the space, and a cell cover part is located outside the air sterilization and purification cell inside the space, while safely placing the air sterilization and purification cell inside, The right side is fixed without flow, and inclined ends are provided on both main surfaces of the sterilizing air penetration part formed on the main surface of the cell cover part, while inducing a smooth flow of air flowing into the UV lamp of the circular cell body part, sterilizing air by UV light is In addition to allowing smooth irradiation to the outside, air flow in a state in which air in contact with the photocatalyst applied to the surface of the plate-shaped strip quickly spreads out to the outside through the sterilizing air penetration part of the cell cover. By induction, there is an excellent effect of sterilizing various viruses and bacteria in the air and further promoting the air purification function.

1 is a schematic perspective view of a cell for air sterilization and purification using a conventional photocatalyst.
2 is a perspective view of a cell for sterilizing and purifying air in a space containing a photocatalyst according to the present invention.
3 is an exploded perspective view of a cell for air sterilization and purification inside a space containing a photocatalyst of the present invention.
Fig. 4 is a photograph of a main part of a circular cell main body in which a plurality of plate-shaped strips of the present invention are integrally addressed in a horizontal direction on a main surface of the present invention.
5 is an enlarged cross-sectional view of a section A of FIG. 4.

Hereinafter, a cell for sterilizing and purifying air in a space containing a photocatalyst according to an embodiment of the present invention will be described in detail as follows.

2 is a perspective view of a cell for air sterilization and purification in a space containing a photocatalyst according to the present invention, and FIG. 3 is an exploded perspective view of a cell for air sterilization and purification in a space containing a photocatalyst according to the present invention. 4 is a photograph corresponding to a perspective view of a main part of a circular cell body in which a plurality of plate-shaped strips of the present invention are integrally addressed in a horizontal direction on the main surface, and FIG. 5 is an enlarged cross-sectional view of part A of FIG. A circular cell body portion 110 having a long circular hole 111 through which UV light is irradiated by a UV lamp L is inserted in the direction, and in a horizontal direction perpendicular to the main surface of the circular cell body portion 110. A plurality of speeches are integrated, and arc-shaped grooves 121 are formed on both left and right sides, and a plate-shaped strip 120 into which a straight bolt 122 is inserted, and 1.5 on the surface of the plate-shaped strip 120 The photocatalyst 130 is applied to a thickness of ~2mm to sterilize and purify various viruses and bacteria in the air, and is installed under the plate-like strip 120 and supported on the inner circumferential surface. A plurality of protrusions 141 are installed protruding, and arc-shaped supports 142 are installed on both left and right sides of the inner circumferential surface, and after being in close contact with the lower portions of the arc-shaped grooves 121 formed on both sides of the plate-shaped strip 120, the straight bolt (122) is a circular cell lower support 140 to support and fix the circular cell body portion 110 and the plate-shaped strip 120, the circular cell body portion 110 in a horizontal direction integrally with the main surface It is located outside the air sterilization and purification cell 100 consisting of a plurality of plate-shaped strips 120, a plurality of sterilizing air through parts 151 are provided on the main surface, and the sterilizing air through parts 151 Inclined ends 152 are formed on both main surfaces of the cell cover part 150 and the circular cell body part 110 which are installed to be fixedly coupled to the circular cell lower support 140 as screws (s) on both sides of the lower side. The upper side of the circular hole 111 formed in the center and through which the UV lamp (L) is inserted in the vertical direction And a rubber packing unit 160 installed on the lower side so that the UV lamp L is installed in close contact with the circular cell body unit 110.

At this time, the plate-shaped strip 120 integrally extended to the main surface of the circular cell body portion 110 is an inclined portion so as to be thinner toward the front end for smooth air movement inside the air sterilization and purification cell 100 (123) are each formed, and the photocatalyst 130 applied to the surface of the strip 120 is silicon oxide 50.5-57.5 parts by weight, titanium dioxide 35-38 parts by weight, platinum 3-5 parts by weight, copper 2 to It is envisioned including 2.5 parts by weight, 2 to 3 parts by weight of rhodium, and 0.5 to 1 parts by weight of silver.

In addition, the air sterilization and purification cell 100 consisting of a plurality of plate-shaped strips 120 extending in a horizontal direction on the main surface integrally with the circular cell body portion 110, a UV lamp (L) installed therein In order to double the smooth reaction of the photocatalyst 130 applied to the surface of the strip 120 by the excellent heat transfer of the aluminum material.

An embodiment of a cell for sterilizing and purifying air in a space including the photocatalyst of the present invention configured as described above will be described in detail as follows.

2 and 3, in a state in which a circular hole 111 is formed long in the vertical direction in the center of the circular cell body portion 110 of the air sterilization and purification cell 100, the circular hole 111 The UV lamp (L) is closely inserted inside, and the sterilization work inside the space is performed while being irradiated to the outside of the circular cell body part 110 together with the UV light of the UV lamp (L) and sterilizing air in contact therewith. .

At this time, arc-shaped grooves 121 are formed long on both left and right sides of the circular cell body portion 110, and after the straight bolt 122 is inserted into the arc-shaped groove 121, a coupling nut (unsigned) Through this, the circular cell main body 110 is rigidly fixed and installed without left-right flow in the air sterilization and purification cell 100.

In addition, as shown in Figures 4 and 5, in a state in which a plurality of plate-shaped strips 120 are integrally extended in a horizontal direction perpendicular to the main surface of the circular cell main body 110, A photocatalyst 130 that sterilizes various viruses and bacteria in the air and purifies air is applied to the surface of the plate-shaped strip 120 to a thickness of 1.5 to 2 mm, and the UV lamp (L) Through the air in contact with the plurality of strips 120 and the photocatalyst 130 applied to the surface is scattered to the outside, various viruses and bacteria in the air are sterilized, as well as air purification is promoted.

At this time, if the thickness of the photocatalyst 130 applied to the surface of the strip 120 is 1.5mm or less, the photocatalyst 130 applied to the surface of the strip 120 by long-time light irradiation of the UV lamp (L) When the photocatalyst 130 is applied on the surface of the strip 120 with a thickness of 2 mm or more, the photocatalyst 130 is irregularly applied to the surface while passing through a plurality of application processes of the photocatalyst 130. The thickness of the photocatalyst 130 applied to the surface of the strip 120 is not economical due to the consumption of the expensive photocatalyst 130 and is not able to properly perform sterilization and air purification. It is most preferable to apply with a thickness of 1.5 to 2 mm as in.

In particular, the wavelength and contact area of the lamp is further increased by a plurality of plate-shaped strips 120 coated with a photocatalyst to a certain thickness as described above, and thus, in the generation of sterilizing substances generated by reacting with the photocatalyst. Not only can the sterilization/purification effect of the atmosphere and space be remarkably increased, but also a special wavelength band generated from the UV lamp L, which is inserted and fixedly installed in the center of the circular cell body 110, is It touches the photocatalyst to further enhance the air purification effect.

In addition, a plurality of plate-shaped strips 120 integrally addressed in the horizontal direction on the main surface of the circular cell body portion 110 are inclined portions 123 so as to decrease in thickness toward the front end portion in the horizontal direction. ) Are formed, so that the air flowing into the air sterilization and purification cell 100 moves smoothly in the horizontal direction, and the photocatalyst 130 on the surface of the strip 120 heated by the UV lamp L ) Is in contact with the air moving in the horizontal direction, so that the effect of photocatalyst, as well as effects such as gongga purification and sterilization, can be further improved.

On the other hand, the photocatalyst 130, which is applied to the surface of the plate-shaped strip 120 to a thickness of 1.5 to 2 mm, sterilizes various viruses and bacteria in the air and purifies the air, is 50.5 to 57.5 parts by weight of silicon oxide , 35 to 38 parts by weight of titanium dioxide, 3 to 5 parts by weight of platinum, 2 to 2.5 parts by weight of copper, 2 to 3 parts by weight of rhodium, 0.5 to 1 parts by weight of silver, and silicon oxide (SiO₂) among the constituent elements Has an excellent bonding structure between each atom, has a high melting point, and helps a lot in molding into glass at high temperature melting.

When the silicon oxide is contained in an amount of 50.5 parts by weight or less, the bonding force between each atom becomes weak and glass molding is not performed properly when melting. When the silicon oxide is contained in an amount of 57.5 parts by weight or more, the higher the content Glass molding is helpful, but the content of silicon oxide (SiO₂) contained for the oxidizing power (sterilization power) of the photocatalyst for air purification is relatively low.In the present invention, the silicon oxide is the most containing 50.5-57.5 parts by weight. desirable.

In addition, titanium dioxide (TiO₂) contained with the silicon oxide is a photocatalyst that generates electron-holes on the metal surface by irradiation with light, and they generate OH radicals by a reaction that combines oxygen and water molecules. OHradical is an oxygen-anionic material that has an oxidizing power (sterilizing power) 180 times that of ozone. After sterilizing and neutralizing bacteria and organic compounds, it is converted into H₂O and CO₂, which are harmless to the human body.

Such titanium dioxide (TiO₂) is contained in 35 to 38 parts by weight in the photocatalyst for air purification, and when the content of the titanium dioxide (TiO₂) is 35 parts by weight or less, strong propagation power such as corona flowing into the photocatalyst for air purification It is impossible to properly sterilize and neutralize bacteria and organic compounds, and if the content is more than 38 parts by weight, processing of the photocatalyst for air purification becomes difficult. In particular, the titanium dioxide itself is formed at a high price, so that the conventional photocatalyst for air sterilization It is most preferable to contain 35 to 38 parts by weight of silicon oxide as in the present invention, which can solve the uneconomic disadvantages during manufacture.

Subsequently, platinum (Pt), which is a constituent element included with the titanium dioxide (TiO₂), has strong resistance to corrosion of the photocatalyst for air purification, and is a particularly excellent catalyst. It performs excellently in the conductivity of the photocatalytic oxidation reaction, so that the photocatalyst It further accelerates the oxidation reaction.

Accordingly, the platinum is contained in 3 to 5 parts by weight of the photocatalyst for air purification. At this time, when the content of the platinum (Pt) is 3 parts by weight or less, the photocatalytic oxidation reaction of the photocatalyst for air purification cannot be accelerated, and thus bacteria and organic compounds It is not possible to properly sterilize and neutralize the like, and even if the content is 5 parts by weight or more, there is a disadvantage of causing a photocatalytic oxidation reaction similar to the above.As in the present invention, platinum contains 3 to 5 parts by weight. desirable.

In addition, Rhodium, a constituent element of the photocatalyst for air purification, is a catalyst exhibiting excellent performance in decomposing nitrogen oxides, and is mainly used to quickly remove nitrogen oxides such as automobile exhaust gas, and the nitrogen oxide is rhodium. It is reduced to nitrogen and oxygen, which are constituents of the atmosphere by the catalytic reaction of.

Such rhodium (Rhodium) is contained 2 to 3 parts by weight, at this time, when the rhodium is less than 2 parts by weight, nitrogen oxides, etc. cannot be quickly removed, and when the rhodium is 3 parts by weight or more, nitrogen oxides are decomposed. On the other hand, it is excellent in that it reacts with platinum (Pt), which is a catalyst, to promote its wear. As in the present invention, the rhodium is preferably contained in an amount of 2 to 3 parts by weight.

In addition, the constituent element silver (Silver) plays a role of attracting a large amount of oxygen present in the air, is stable and does not oxidize during the oxidation reaction, it is necessary to further increase the effect of the titanium oxide.

The content of silver as described above is preferably 0.5 to 1 part by weight, at this time, when the content of silver is 0.5 parts by weight or less, oxidation reaction does not occur properly, and when the content of silver is 1 part by weight or more, platinum (Pt) and a catalyst as described above By reacting to promote its wear, the content of silver is preferably 0.5 to 1 part by weight.

Subsequently, the constituent element copper (Copper) is a reaction that improves the catalytic reaction of titanium oxide, such as silver, and the content of such copper is preferably 2 to 2.5 parts by weight, and when the content of copper is 2 parts by weight or less, the above As described above, when the oxidation reaction does not occur properly, and the copper content is 2.5 parts by weight or more, it reacts with platinum (Pt) as a catalyst to promote its wear, and the content of copper is preferably 2 to 2.5 parts by weight.

The compound of the constituent elements of the photocatalyst 130 as described above is formed in a nano-sized size, maximizing a physical reaction when in contact with air, and promoting an advanced oxidation process (AOP).

On the other hand, a circular cell lower support 140 is installed under the plate-like strip 120, and a plate shape of the circular cell main body 110 on the support protrusions 141 protruding from the inner circumferential surface thereof. Of the strip 120 to be stably supported, and arc-shaped supports 142 are installed on both left and right sides of the inner peripheral surface of the circular cell lower support 140, and arc-shaped grooves formed on both sides of the plate-shaped strip 120 (121) After being in close contact with the lower portion, the straight bolt 122 is coupled so that the circular cell body portion 110 and the plate-shaped strip 120 can be firmly supported and fixed without flowing left or right.

In addition, a cell cover part 150 is located outside the air sterilization and purification cell 100 consisting of a plurality of plate-shaped strips 120 extending in a horizontal direction on the main surface integrally with the circular cell body part 110 , Both sides of the lower side are fixed to the circular cell lower support 140 as a screw (s), and a square-shaped sterilizing air penetration part 151 is formed on the front and rear and left and right sides of the main surface of the cell cover part 150 In addition, inclined ends 152 are formed on both main surfaces of the sterilizing air penetration part 151, so that the air flowing into the UV lamp L of the circular cell main body 110 through the inclined ends 152 is smooth. A photocatalyst applied to the surface of the strip 120 in the form of a plate, as well as to induce flow, and to perform sterilization and air purification of the outer space by smoothly irradiating the sterilizing air by UV light to the outside. The air in contact with the air 130 induces an air flow in a state that quickly spreads to the outside through the sterilizing air penetrating part 151 of the cell cover part 150, thereby sterilizing various viruses and bacteria in the air. , It can further promote air purification.

In addition, rubber packing parts 160 are installed at the upper and lower sides of the circular hole 111 which is formed in the center of the circular cell body part 110 and through which the UV lamp L is inserted in the vertical direction, and the UV lamp (L) Air sterilization and purification cell 100 consisting of plate-shaped strips 120 which are integrally formed with the circular cell body part 110 in a horizontal direction on the main surface as well as sealing and fixing the upper and lower parts thereof. ), the heat of the UV lamp (L), which is made of aluminum and installed inside the air sterilization and purification cell 100, is excellently transferred to the photocatalyst 130 applied to the surface of the strip 120, and the strip (120) It is possible to double the smooth reaction of the photocatalyst 130 applied to the surface.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited to the specific embodiments described above. That is, a person of ordinary skill in the technical field to which the present invention pertains can make a number of changes and modifications to the present invention without departing from the spirit and scope of the appended claims, and all such appropriate changes and modifications It should be considered that equivalents are also within the scope of the present invention.

100...Air sterilization and purification cell 110...Cell body part
111... round hall
120...plate-shaped strip 121...arc groove
122...Straight bolt 123...Inclined part
130...Photocatalyst 140...Round cell lower support
141...support protrusion 142...arc support
150...Cell cover part 151...Sterile air penetration part
152... inclined end 160... rubber packing part
L...UV lamp s... screw

Claims (4)

A circular cell body portion 110 having a long circular hole 111 through which UV light is irradiated by inserting a UV lamp L in the vertical direction in the center;
A plurality of circular cells are integrally addressed in a horizontal direction perpendicular to the main surface of the cell body 110, and arc-shaped grooves 121 are formed on both left and right sides to insert a straight bolt 122 into a plate shape. ) Of the strip 120;
A photocatalyst 130 that is applied to the surface of the plate-shaped strip 120 to a thickness of 1.5 to 2 mm, sterilizing various viruses and bacteria in the air and purifying the air;
It is installed under the plate-shaped strip 120, and a plurality of support protrusions 141 are protruded on the inner circumferential surface, and arc-shaped support holes 142 are installed on both left and right sides of the inner circumferential surface, and the plate-shaped strip (120) After being in close contact with the lower portion of the arc-shaped grooves 121 formed on both sides, the straight bolt 122 is coupled to the circular cell lower support for supporting and fixing the circular cell body portion 110 and the plate-shaped strip 120 ( 140);
It is located outside the air sterilization and purification cell 100 consisting of a plurality of plate-shaped strips 120 extending in a horizontal direction on the main surface integrally with the circular cell body part 110, and a plurality of sterilizing air penetration parts on the main surface 151 is provided, and inclined ends 152 are formed on both main surfaces of the sterilizing air penetration part 151, and both sides of the lower side are installed to be coupled and fixed with the circular cell lower support 140 as screws (s). A cell cover part 150; And
It is formed in the center of the circular cell main body 110 and installed on the upper and lower sides of the circular hole 111 through which the UV lamp L is inserted in the vertical direction, so that the UV lamp L is formed in the circular cell main body 110 ) A rubber packing unit 160 installed to be in close contact with each other; a cell for air sterilization and purification inside the space containing a photocatalyst, characterized in that it comprises a.
The method of claim 1,
The plate-shaped strip 120 integrally addressed to the main surface of the circular cell body portion 110 has an inclined portion 123 so as to be thinner toward the front end for smooth air movement inside the air sterilization and purification cell 100. A cell for air sterilization and purification inside a space containing a photocatalyst, characterized in that each is formed.
The method of claim 1,
The photocatalyst 130 applied to the surface of the strip 120 is 50.5 to 57.5 parts by weight of silicon oxide, 35 to 38 parts by weight of titanium dioxide, 3 to 5 parts by weight of platinum, 2 to 2.5 parts by weight of copper, 2 to 3 parts by weight of rhodium A cell for air sterilization and purification inside a space containing a photocatalyst, characterized in that it is envisioned including 0.5 to 1 parts by weight of silver.
The method of claim 1,
The air sterilization and purification cell 100 consisting of a plurality of plate-shaped strips 120 extending in a horizontal direction on the main surface integrally with the circular cell body part 110, excellent heat transfer of the UV lamp L installed therein A cell for air sterilization and purification inside a space containing a photocatalyst, characterized in that it is made of aluminum in order to double the reaction of the photocatalyst 130 applied to the surface of the strip 120.

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