KR101898530B1 - photocatalysis purifier - Google Patents

Abstract

A photocatalysis purifier capable of purifying air, water, and the like. According to the present invention, the photocatalysis purifier comprises: a continuous structure which includes circular holes formed with equidistant intervals along the longitudinal direction of a mesh net formed of a stainless steel material, wherein the central portions of the neighboring circular holes are curved to form a zigzag shape to arrange the circular holes coaxially and form a multilayered structure; a titanium dioxide coating layer coated on the outer surface of the continuous structure; and UV lamps fitted to the circular holes.

Description

The present invention relates to a photocatalysis purifier,

The present invention relates to a photocatalyst purification apparatus using a photocatalyst, which can purify air, water, and the like.

Generally, a semiconductor used as an electrode is irradiated with ultraviolet rays as a luminescent lamp to a photocatalyst which is separated into a negative charge and a positive charge by contacting an electrolyte made of titanium dioxide (TiO 2), which is easy to handle and easy to handle, A purifying device for sterilizing and deodorizing by means of a hydroxide radical is known.

Korean Patent No. 0671232 discloses an apparatus for treating a gas contamination using photocatalytic reaction by a photocatalytic reaction by an electrodeless ultraviolet lamp which purifies a plurality of photocatalyst coated plates coated with air by passing air or water, . However, such a structure not only occupies a large volume, but also has a problem that the airflow is not smooth.

Korean Patent No. 0732504 discloses a photocatalytic coating unit comprising a plurality of coating plates coated with a photocatalyst on the inner side of a main tube, a photocatalytic coating unit disposed to form a flow path for wastewater, and a non-contact ultraviolet lamp including a UV generating unit, Disclosed is a water sterilization purifier and a water sterilization purifier employing the apparatus. However, such a structure has a problem in that a flow path is formed in a part of the whole of the structure, and the flow of air is not good, and the contact area with the coating plate is small.

In the Korean Registered Utility Model No. 20-02546111, a photocatalytic plate is formed in a spiral shape, and a center of the photocatalytic plate is made to penetrate through a luminous lamp, so that air or water flows along a spiral passage formed by the photocatalytic plate, There is disclosed an apparatus for purifying water and air using a spiral photocatalytic plate capable of widening a contact area of air pollutants to improve the ability of purifying contaminated water and air.

However, in such a structure, there is a problem that water and air can be moved only into a spiral passage, making smooth movement difficult. Further, in the structure in which the size of the purifier having such a structure is increased or a plurality of the purifiers are continuously connected, the flow of water and air may be further reduced.

In addition, when the photocatalytic plate is formed by a spiral structure, there is a problem in that it is difficult to attach and fix the luminescent lamp, and it is also difficult to make a large size.

Korea Patent No. 0671232 Korean Patent No. 0732504 Korean Registered Utility Model No. 20-02546111

Accordingly, it is an object of the present invention to provide a photocatalytic purification apparatus which can be easily manufactured, can be applied in various sizes as required, has a very good flow of fluid, widens a contact surface area, and can efficiently generate a purifying action by a photocatalyst do.

A photocatalytic purification apparatus of the present invention for achieving the above-described object is characterized in that a circular hole is formed at regular intervals along the longitudinal direction of a mesh net made of stainless steel, and a midway point of the neighboring circular holes is bent, And the circular holes are coaxially arranged to form a multi-layered structure; A titanium dioxide coating layer coated on an outer surface of the continuous structure; And a UV lamp fitted in the circular hole.

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Preferably, the mesh net has an elongated plate-like shape such as a rectangular shape, and the intermediate point of the neighboring circular holes is bent twice and bent into a continuous rectangular concave-convex shape.
Preferably, the mesh network is formed such that, when folded, each of the folded unit structures forms a hexagon.

Preferably, the photocatalytic purification apparatus includes a housing in which an inlet is formed at one side and an outlet is formed at the other side, and the continuous structure is fixedly installed along a flow path formed inside the housing.

Preferably, the housing is formed in a zigzag shape in the flow path from the inlet to the outlet, and the continuous structure is installed along the flow path.

According to the photocatalytic purification apparatus of the present invention, since the continuous structure is formed in a staggered shape using the stainless mesh network, the flow of the fluid can be smoothly and densely arranged, and the surface area of the mesh network per unit volume can be widened, There is an effect that it can be improved.

The photocatalytic purification apparatus of the present invention has an effect of being excellent in workability because a continuous structure can be formed long.

1 is a conceptual diagram of a photocatalytic purification apparatus according to the present invention.
2 is a sectional view of a continuous structure according to a preferred embodiment of the present invention.
3 is a cross-sectional view showing a state in which a UV lamp is mounted on the continuous structure of FIG. 2;
Figure 4 is an illustration of a mesh network for making continuous structures.
5 is a sectional view of a continuous structure according to another embodiment of the present invention.
6 is an illustration of a mesh network for forming another continuous structure;

Hereinafter, a photocatalytic purification apparatus according to the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the drawings and detailed description thereof illustrate one feasible example according to the technical idea of the present invention, and the technical scope of protection of the present invention is not limited thereto.

2 is a sectional view of a continuous structure according to a preferred embodiment of the present invention. FIG. 3 is a sectional view showing a state in which a UV lamp is mounted on the continuous structure of FIG. 2. FIG. 5 is a cross-sectional view of a continuous structure according to another embodiment of the present invention, and Fig. 6 is a view showing an example of a mesh network for forming another continuous structure. Fig. .

As shown in the drawings, the apparatus for purifying photocatalyst according to the present invention permits a fluid having fluidity such as air or water to pass through and purify.

The housing 100 is basically provided to allow a fluid such as air or water to move while being moved, and the shape of the housing 100 can be variously modified.

In a preferred embodiment of the present invention, a case of purifying a gas such as air will be described as an example. An inlet 110 is formed on one side of the housing 100 and an outlet 120 is formed on the other side and a fan is installed in each of the inlet 110 and the outlet 120 so that air flows in through the inlet 110 And then discharged through the outlet 120 through the interior of the housing 100.

More preferably, the inside of the housing 100 can be configured in a zigzag shape so that the moving distance of the air from the inlet 110 to the outlet 120 can be maximized.

The shape of the housing 100 and the internal flow path may be variously modified in consideration of the object to be cleaned or the installation place. The continuous structure 200 is built in the housing 100.

The continuous structure 200 is formed using a mesh net M made of a stainless steel material and a rectangular mesh net M having a length longer than the width is suitable. M) may be used appropriately.

A circular hole 210 is formed at regular intervals along the longitudinal direction of the mesh net M and a continuous structure is formed in a zigzag shape by bending at a midpoint between the neighboring circular holes 210. [ (M) are bent in a zigzag shape, the circular holes (210) formed in the mesh net at equal intervals are arranged coaxially to form a continuous structure (200) having a multilayer structure.

In an embodiment of the present invention, the mesh network M is formed in a rectangular shape having a long overall length, and a plurality of circular holes 210 are formed at a distance from a middle position in the width direction of the mesh net M, A bending line is set at an intermediate point of the circular hole 210 and the bending line is bent in a zigzag shape. At this time, the neighboring unit structure 200a has an acute angle.

Therefore, in one continuous structure 200, a plurality of unit structures 200a are continuously and repeatedly folded at a predetermined angle to form a repeated lamination structure, and the angle formed between neighboring unit structures 200a is varied at various angles . As the angle formed between the unit structures 200a is smaller, the number of the unit structures 200a housed in the housing 100 of the same size will be increased, thereby maximizing the purification efficiency.

On the other hand, the continuous structure 200 is formed with a titanium dioxide coating layer (not shown) on the outer surface thereof. The titanium dioxide coating layer serves as a photocatalyst and acts to decompose harmful substances contained in air or water.

A UV lamp 300 is used to induce the reaction of the titanium dioxide coating layer, and the UV lamp 300 is fixedly installed in the circular hole 210 of the continuous structure 200. The effect of UV light on titanium dioxide coating layer is as follows.

When UV light reaches the photocatalytic titanium dioxide, electrons and holes are generated. Each of them reacts with O2 and H2O in the air to generate superoxide anion and two types of radical oxygen on the surface of titanium dioxide.

Particularly, since the hydroxyl radical has a high oxidation and reduction potential, it has an excellent effect in purification of NOx, SOx, volatile organic compounds (VOCS) and various odors, and also has excellent effect on BOD, chromaticity, Pollutants and environmental hormones, as well as disinfecting more than 99% of pathogenic bacteria and bacteria such as pathogenic Escherichia coli, Staphylococcus aureus, 0-157.

FIG. 5 is a schematic diagram showing another embodiment of the photocatalytic purification apparatus according to the present invention.

As shown in the drawings, the continuous structure 200, which is one of the important elements of the photocatalytic purification apparatus according to the present invention, can be modified as follows.

A plurality of circular holes 210 are continuously formed at equal intervals in the mesh net M so as to be bent at an intermediate point of a neighboring circular hole 210, In the case of this embodiment, bending is performed twice between neighboring circular holes 210 so as to bend so as to form a continuous rectangular concave-convex shape.

6, the basic shape of the unit structure 200a may be a hexagon-like shape, as shown in FIG. 6. However, the basic structure of the unit structure 200a is not limited thereto. As shown in Fig. In other words, the mesh network M is provided in an elongated plate shape. In the simplest case, the mesh network M itself may be a rectangle having a long length, and when each of the unit structures 200a is bent, So that the mesh network M itself can be manufactured and used.

The photocatalytic purification apparatus of the present invention as described above can be configured such that the continuous structure 200 is formed in the housing 100 with as many unit structures 200a as possible as much as necessary, So that contaminated air is introduced through the inlet 110 formed in the housing 100 and discharged to the outlet 120 formed at the other end of the housing. During the flow of air along the interior of the housing 100, The titanium dioxide coating layer coated on the outer surface of the UV lamp 300 and the light generated from the UV lamp 300 effectively decompose the volatile organic compounds and the oxides contained in the air.

Particularly, the continuous structure 200 of the present invention has a multilayer structure using a stainless mesh net (M), thereby minimizing the flow resistance of the air, and widening the surface area of contact with the air, thereby achieving a smooth cleaning action.

The present invention is a technique suitable for use as a purifying apparatus for a fluid such as air or water.

100: Housing
110: inlet 120: outlet
200: continuous structure
210: Round hole
200a: unit structure
M: Mesh Network
300: UV lamp

Claims (5)

A housing in which an inlet is formed at one side, an outlet is formed at the other side, and a flow path is formed in a zigzag shape from the inlet to the outlet;
Wherein a circular hole is formed at equal intervals along the longitudinal direction of the mesh net made of stainless steel and the intermediate point of the neighboring circular holes is bent so as to be in a zigzag shape so that the circular holes are coaxially arranged to form a multi- A plurality of continuous structures disposed along the flow path;
A titanium dioxide coating layer coated on an outer surface of the continuous structure;
And a UV lamp fitted in the circular hole,
The mesh network has an elongated plate-like shape such as a rectangular shape. The middle point of the adjacent circular holes is bent twice, and is bent into a continuous rectangular uneven shape. When bent, each of the bent unit structures is formed into a hexagonal shape Wherein the photocatalyst purification apparatus is a photocatalyst purification apparatus. delete delete delete delete

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