KR200411188Y1 - Air Cleaning Device Using Photocatalyst - Google Patents

Abstract

A duct member that forms a passage through which fluid flows and a reflection surface is formed on the inner surface of the duct member so as to purify the contaminated air as a whole and improve the purification efficiency and to be installed by assisting the photocatalyst coating. A blower installed in the duct member, at least one ultraviolet lamp installed at predetermined intervals inside the duct member and irradiating ultraviolet rays to the passage of the duct member, and a porous air purifying member installed inside the duct member and coated with a photocatalyst. It provides an air purifier using a photocatalyst comprising a.

Air, purification, photocatalyst, coating, duct, blower, reflection, oxidation, ultraviolet

Description

Air Purifier Using Photocatalyst {Air Cleaning Device Using Photocatalyst}

1 is a perspective view showing an embodiment of an air purifier using a photocatalyst according to the present invention.

Figure 2 is a cross-sectional view of the duct member showing an embodiment of an air purifier using a photocatalyst according to the present invention.

3 is a cross-sectional view of a blower showing an embodiment of an air purifier using a photocatalyst according to the present invention.

4 is a cross-sectional view taken along the line A-A of FIG.

Figure 5 is an enlarged cross-sectional view showing an air purifying member in one embodiment of an air purifier using a photocatalyst according to the present invention.

6 is a partial cross-sectional view showing an auxiliary air purifying member in one embodiment of an air purifier using a photocatalyst according to the present invention.

FIG. 7 is a cross-sectional view taken along the line B-B in FIG. 6. FIG.

8 is a perspective view showing another embodiment of an air purifier using a photocatalyst according to the present invention.

9 is a cross-sectional view showing another embodiment of an air purifier using a photocatalyst according to the present invention.

The present invention relates to an air purifier using a photocatalyst, and more particularly, a photocatalyst configured to maximize the purification efficiency by installing a photocatalyst in a place where contact with the photocatalyst is made with a large area of forced air circulating and the photocatalyst coating is completed. It relates to an air purifier used.

In general, an air purifier is installed in a place where air pollution is relatively high, such as an enclosed place or a crowded public place, thereby converting the polluted air cleanly and cleanly.

The air purifier converts contaminated air into clean and clean air by sucking and discharging air.

On the other hand, in recent years, residents have problems with health problems and discomfort due to harmful substances from building materials or wallpaper used when building new houses or buildings. It is often done.

The photocatalyst coating is a material that covers the surface of various objects with a material that causes a catalytic reaction when light is received. In order to maintain a living environment, it is often performed on the interior walls of various buildings and surfaces of objects such as household goods.

In the photocatalyst, when ultraviolet rays are exposed, electrons and electron holes are formed to oxidatively decompose contaminants such as organic compounds by forming hydroxy radicals and super oxides having strong oxidation power, and thus water and water. Titanium dioxide, which is converted into carbon dioxide gas, is mainly used.

By the way, the photocatalyst coating is oxidatively decomposed to the harmful substances distributed adjacent to the coating surface, but there is a limit to increase the purification efficiency of the air because the oxidative decomposition of the harmful substances distributed in addition is not made well.

The present invention has been made in view of the above point, to provide air purifier using a photocatalyst which is made to contact the photocatalyst with the largest possible area of the air circulated forcibly to purify the air and the ultraviolet light is evenly irradiated on the photocatalyst coating surface. , Its purpose is.

Another object of the present invention is to provide an air purifier using a photocatalyst that assists the conventional photocatalyst coating because it is installed in a place where the photocatalyst is coated to help circulation of the air and purify the air distributed in a place where the purification is difficult. will be.

The air purifier using the photocatalyst proposed by the present invention forms a passage through which a flow of fluid flows, and a duct member having an inner surface with a reflective surface, a blower installed at one end of the duct member, and a predetermined inside of the duct member. And at least one ultraviolet lamp installed at intervals of the whole and irradiating ultraviolet rays to the passage of the duct member, and a porous air purifying member installed inside the duct member and coated with a photocatalyst.

The duct member is formed in a substantially cylindrical or rectangular cylinder shape or the like.

The air purifying member is made of a transparent material, and a plurality of cylindrical pipes, each of which is installed in the longitudinal direction of the duct member, is fixed so that neighboring surfaces are in contact with each other, and a photocatalyst is coated on the surface thereof.

The blower is formed with a suction inlet at the center of the front face of the duct member, and a plurality of support bars are formed inside the inlet to traverse the inlet at a predetermined interval, and around the inlet of the front plate. It comprises a cylindrical support case fixed to one side in contact with, a motor fixed to the center of the support case, a rotary blade coupled to the shaft of the motor.

In the above, a portion of the upper surface of the duct member may be opened to form an emission groove in which ultraviolet rays emitted from the ultraviolet lamp are emitted.

The discharge groove may be provided with a cover made of a transparent material.

In addition, the present invention may further install an auxiliary purifying member at a predetermined interval from the air purifying member inside the duct member, and may further install an auxiliary blower at the other end of the duct member.

The auxiliary purifying member is formed by woven thin bands or thin threads made of a material capable of reflecting light and is coated with a photocatalyst.

It is also possible to install a perforated plate or a mesh support member on both sides of the auxiliary purification member.

Next, a preferred embodiment of an air purifier using a photocatalyst according to the present invention will be described in detail with reference to the drawings.

First, an embodiment of the air purifier using the photocatalyst according to the present invention, as shown in Figures 1 to 3, the duct member 10, the blower 20 is installed on one end of the duct member 10 and At least one ultraviolet lamp 30 installed at a predetermined interval inside the duct member 10, an air purifying member 40 installed inside the duct member 10, and the air purifying member ( 40) and an auxiliary air purifying member installed at a predetermined interval.

The duct member 10 is formed in the shape of a cylinder or a square cylinder to form a passage 12 through which the fluid flows.

The inner surface of the duct member 10 is made of a reflective surface so as to be reflected inside while shielded as ultraviolet light is irradiated from the ultraviolet lamp 30.

In the reflective surface, the duct member 10 may be manufactured using a material such as stainless steel or aluminum, or may be manufactured using a synthetic resin, etc., and coating a reflective material on the inner surface thereof.

The ultraviolet lamp 30 is preferably set to the size, the amount of water, or the like installed so that the ultraviolet rays are irradiated to the passage 12 of the duct member 10 as a whole.

For example, the ultraviolet lamp 30 is installed to form one or more long on the upper portion of the duct member (10).

Although not shown in the drawing, the ultraviolet lamp 30 may be formed to be formed long in the lower portion, it may be formed in a small size is also provided with a plurality in the longitudinal direction or the direction perpendicular to the length of the duct member 10. It is possible.

As shown in FIG. 4, it is also possible to provide a protective plate 32 having a transparent color to prevent breakage or adsorption of foreign substances, as shown in FIG. 4.

By providing the protection plate 32, the passage 12 of the duct member 10 can be partitioned up and down.

The blower 20 transfers air from one end of the duct member 10 to the other end so that air outside the duct member 10 passes through the passage 12.

1 to 3, the blower 20 is installed to block the front surface of the duct member 10, the suction port 23 is formed in the center and the suction port 23 inside the suction port 23 ) Is a front support plate 22 formed with a plurality of support arms 24 traversed at predetermined intervals, and a cylindrical support case fixed in contact with one surface around the suction port 23 of the front plate 22 ( 25), the motor 26 is fixed to the center of the support case 25, and the rotary blade 28 is coupled to the shaft 27 of the motor 26.

The air introduced through the blower 20 as described above passes through the air purifying member 40.

The air purification member 40 is porous and the photocatalyst is coated on the surface.

For example, the air purifying member 40 is made of a transparent material, as shown in Figures 1 to 5, is installed long along the longitudinal direction of the duct member 10 and a plurality of neighbors are fixed in contact with the outer peripheral surface of each other It includes a cylindrical tube 42 and a coating layer 44 formed by coating a photocatalyst on the surface of the cylindrical tube 42.

The cylindrical tube 42 is made of a transparent glass tube or a transparent synthetic resin tube and the like, and a plurality of them are fixed to each other through an adhesive or the like.

A space 46 is formed between the cylindrical pipes 42 installed adjacent to each other, and the air introduced by the blower 20 also passes through the space 46.

The coating layer 44 is a photocatalyst coating to have a transparent color.

Air passing through the air purification member 40 as described above is discharged to the outside of the duct member 10 after contacting the auxiliary air purification member 50.

The auxiliary air purifying member 50 is a form formed by being able to reflect light (ultraviolet rays), thin bands or thin threads woven together, and is coated with a photocatalyst.

The auxiliary air purifying member 50 can be configured, for example, in the form of agglomeration of chips generated during cutting by a lathe, or in the form of a scrubber made of metal used to clean a bowl (porous foam).

The auxiliary air purifying member 50 may be made of a material capable of transmitting light (ultraviolet rays).

As shown in Fig. 6 and 7, it is also possible to provide a support member 52 in the form of a net on both sides of the auxiliary air purification member 50 as described above.

Although not shown in the drawings, a perforated plate or the like may be used as the support member 52.

In the air purifier using a photocatalyst according to an embodiment of the present invention made as described above, although not shown in the drawing, an auxiliary blower may be further installed at the other end of the duct member 10.

When the auxiliary blower is installed, the air introduced into one end of the duct member 10 by the blower 20 can be smoothly discharged to the other end of the duct member 10.

Since the configuration of the auxiliary blower can be implemented in the same configuration as that of the above blower, a detailed description thereof will be omitted.

And another embodiment of the air purifier using a photocatalyst according to the present invention, as shown in Figures 8 and 9, a portion of the upper surface of the duct member 10 is opened to emit ultraviolet light emitted from the ultraviolet lamp 30 It is also possible for the discharge groove 14 to be formed.

When the emission grooves 14 are formed as described above, since the ultraviolet rays emitted through the emission grooves are irradiated to the photocatalyst coating surface previously constructed on the ceiling or the wall surface, it is possible to improve the air purification efficiency.

In the discharge groove 14, the cover 16 made of a transparent material may be installed.

Also in the above-described other embodiments, the present invention can be implemented in the same configuration as the above-described embodiment except for the above-described configuration, and thus detailed description thereof will be omitted.

Air purifier using a photocatalyst according to the present invention made as described above is fixed to the ceiling or wall installed.

In the above, a preferred embodiment of the air purifier using the photocatalyst according to the present invention has been described, but the present invention is not limited thereto, and the utility model registration claims and the detailed description of the invention, various modifications are made within the scope of the accompanying drawings. It is possible to do this and this also falls within the scope of the present invention.

According to the air purifier using the photocatalyst according to the present invention, the contaminated air is forced to circulate, the photocatalyst is coated, and passes through an air purifying member formed by fixing a plurality of transparent tubes, and ultraviolet rays are irradiated onto the transparent tubes. The contaminated air is oxidatively decomposed while contacting the photocatalyst coating surface with a large area.

Therefore, it is possible to purify the polluted air evenly distributed throughout the room.

Ultraviolet rays are irradiated on the photocatalyst coated on the auxiliary air purifier formed in the form of porous foam, and contaminated air passes through the coating surface, so that the contaminated air is purified secondarily, thereby greatly improving the air purification efficiency. do.

In addition, when the present invention is installed in the place where the photocatalyst is coated as the emission groove is formed in a part of the upper surface of the duct member, ultraviolet ray is irradiated onto the conventional photocatalyst coating surface, thereby enhancing the oxidative decomposition performance by the photocatalyst coating.

Furthermore, it helps to circulate the air in the photocatalyst coated place and purifies the air distributed in the place where the purification is not good, it is possible to maximize the purification efficiency.

Claims (8)

A duct member which forms a passageway through which fluid flows and whose inner surface is a reflective surface, A blower installed at one end of the duct member, One or more ultraviolet lamps installed at predetermined intervals inside the duct member and irradiating ultraviolet rays to the passage of the duct member as a whole; An air purifier using a photocatalyst comprising a porous air purifying member installed inside the duct member and coated with a photocatalyst. The method according to claim 1, Further comprising an auxiliary purifying member which is installed at a predetermined interval with the air purifying member inside the duct member, The auxiliary air purifying member is an air purifier using a photocatalyst formed of a thin band made of a material capable of reflecting light or a thin thread woven together and coated with a photocatalyst. The method according to claim 2, Further comprising support members installed on both sides of the auxiliary air purification member, The support member is an air purifier using a photocatalyst made of a perforated plate or a mesh. The method according to any one of claims 1 to 3, The air purifying member is made of a transparent material and a plurality of cylindrical pipes each installed in the longitudinal direction of the duct member is fixed so that the neighboring surfaces are in contact with each other outer peripheral surface and the photocatalyst is coated with a photocatalyst on the surface. The method according to claim 4, The duct member is a portion of the upper surface is opened is formed with a discharge groove for emitting ultraviolet light emitted from the ultraviolet lamp, The air purifier using a photocatalyst having a cover made of a transparent material in the discharge groove. The method according to claim 4, And an auxiliary blower installed at the other end of the duct member to discharge air inside the duct member. The method according to claim 4, The air purifier using a photocatalyst further comprises a protective case of a transparent material installed inside the duct member to surround the ultraviolet lamp. The method according to claim 4, The blower is formed with a suction inlet at the center of the front face of the duct member, and a plurality of support bars are formed inside the suction inlet with a predetermined distance therebetween, and around the inlet of the frontplate. The air purifier using a photocatalyst comprising a cylindrical support case fixed to one side in contact with, a motor fixed to the center of the support case, and a rotary blade coupled to the shaft of the motor.

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