KR20170124390A - A filter for purification and sterilization, and a sterilizer using the filter - Google Patents

Abstract

The present invention relates to an adsorption filter for air purification and sterilization, wherein the adsorption filter is manufactured by the steps of: manufacturing a phyllite mixture by mixing liquefied pulp and liquefied loess selectively or together and by mixing phyllite powder; and coating a metal-meshed net with the phyllite mixture. The present invention relates to an adsorption filter assembly for air purification and sterilization, which is manufactured by arranging a first filter and a second filter in parallel. The first filter is manufactured by the steps of: manufacturing a phyllite mixture by mixing liquefied pulp and liquefied loess selectively or together and by mixing phyllite powder; and coating a metal-meshed net with the phyllite mixture. Also, the second filter is manufactured by coating a metal-meshed net with a photo-catalytic matter. As the photo-catalytic matter, titanium dioxide (TiO2), manganese dioxide (MnO2), and copper (Cu) are used selectively or together. The adsorption filter and the adsorption filter assembly can adsorb and remove cesium (Cs), which is a radioactive matter, and fine dust. The present invention relates to an air purification sterilizer comprising the filter or the filter assembly; and an ultraviolet lamp for irradiating ultraviolet rays onto the filter or the filter assembly. Air purifying and sterilizing functions are ensured.

Description

FIELD OF THE INVENTION [0001] The present invention relates to an adsorption filter for air purification and sterilization, and an air purification sterilizer using the filter.

The present invention relates to a process for producing a phyllite mixture by mixing phylloidal powders after selectively or mixing together liquid pulp and liquid loess; And a step of coating the cemented carbide mixture on a metal mesh net. The present invention relates to an adsorption filter for air purification and sterilization.

The present invention relates to a process for producing a phyllite mixture by mixing phylloidal powders after selectively or mixing together liquid pulp and liquid loess; And coating the cemented carbide mixture on a metal mesh net to prepare a first filter and coating a metal mesh net with a photocatalyst material to produce a second filter, To an adsorption filter assembly for air purification and sterilization.

The photocatalyst material is characterized in that titanium dioxide (TiO2), manganese dioxide (MnO2) and copper (Cu) are used selectively or together.

The filter and filter assembly are characterized in that they can adsorb and remove cesium (Cs), which is a radioactive substance, and fine dust.

The present invention relates to the filter or filter assembly; And an ultraviolet lamp that emits ultraviolet light to the filter or filter assembly.

In addition to the harmful effects of secondhand smoke, it is urgently required to take measures against side effects caused by fine dust. This is because if the toxic substances contained in the smoke and fine dust accumulate in the bronchi and the lungs of a person, it will directly or indirectly cause diseases such as various respiratory diseases.

In the case of fine dust, it increases the concentration of heavy metals in the rain or snow, absorbs and scatters light while floating in the air, thereby deteriorating the visual field, and accumulating on the leaf surface of the plant to form photosynthesis assimilation, respiration, And it has a bad influence on plant growth.

Therefore, it is necessary to examine whether the performance of the existing air purifier can sufficiently remove tobacco smoke or fine dust, and if the function is insufficient, a technique capable of improving it is required.

On the other hand, the size of solid particles in the air varies from 0.001 to 500 μm, from visible to invisible, and among these, fine particles having a diameter of 10 μm or less are called fine dust particles. Particularly, it is known that there are more than 2.5 million particles (about 70% of all particles) of 0.01 to 1.0 μm in cigarette smoke.

Considering that the domestic high-grade hepa filter is known to be capable of purifying up to 0.3 μm, 70% of the cigarette smoke in the HEPA filter means that it is impossible to filter, and furthermore, Particles (e.g., noxious gas particles that cause sick house syndrome, etc.) also can not be filtered.

The air purification sterilizer employing the HEPA filter is roughly composed of a HEPA filter and a motor, and has a structure in which air is sucked into the filter. In other words, the HEPA filter is a collection of irregularly arranged fibers that when the air is sucked into the filter using a motor, the particles in the air are blocked by the fibers and are caught on the fibers by electrostatic forces. However, when the motor is small, the air sucking capability is insufficient and a limit is imposed on the cleaning area.

Therefore, a filter capable of removing particles in the air as well as a particle size that can be purified by the HEPA filter, and which may not depend on the flow of air according to the capacity of the motor, and an air purifier I need it.

Meanwhile, in Fukushima nuclear power plant in 2011, radioactive contamination by cesium (Cs), which is a radioactive substance, has become a problem due to an accident. Accordingly, a function of a filter capable of adsorbing and removing a radioactive substance is also required.

On the other hand, the photocatalytic oxidation type air purifying sterilizer adopts a method of purifying air using a substance promoting the photochemical reaction as a catalyst. In the prior art Patent No. 10-1419481 (published on Apr. 14, 2014), the air is purified using a metal foam photocatalyst filter 20. When a titanium dioxide photocatalyst is coated on a metal foam and an ultraviolet lamp 30 ), Which is a method of purifying and sterilizing.

This may be positive in that it can overcome the limitations of the HEPA filter. However, the manufacturing cost of the metal foam is rather high, and there is a limit to the nature of the material to adopt the shape of the metal foam in the desired shape inside the sterilizer.

Accordingly, when the present applicant forms a photocatalytic filter using a phyllite having a porous structure and containing a mineral substance, it is possible to overcome the limitations of conventional HEPA filters as well as the disadvantages of metal foam filters. Thereby revealing the present invention.

In addition, the present invention can be also applied to the fact that radioactive materials can be adsorbed by using phyllotaxes to remove radioactive pollutants from the atmosphere.

In brief, phyllite is a type of metamorphic rock produced by the metamorphism of pressure due to pressure and heat. It is composed of quartz and feldspar, Sericite, chlorite, and calcite.

The antimicrobial and deodorizing functions of phyllite are adopted in the prior art, and in the prior patent publication No. 10-0766539 (published on October 12, 2007) (Announcement of August 31, 2007) states that phyllite is adopted in the flooring.

In addition, the radioactive contamination cleanup function of phyllite cancer was adopted in the radioactive decontamination equipment exported to Japan in 2013 by KEPCO nuclear fuel. After the soil contaminated with the radioactivity deposited on the roadside drainage channel was removed, the radioactivity in the soil was purified using a sedimentation agent containing phyllite as a main component.

Patent Registration No. 10-1419481 (published on July 14, 2014) Registered Patent Publication No. 10-0766539 (published on October 12, 2007) Registered Patent Publication No. 10-0754424 (published on Aug. 31, 2007)

It is an object of the present invention to provide an air purifying and sterilizing apparatus capable of removing particles in the air as well as a particle size capable of purifying an existing filter, To provide a filter and a filter assembly.

Disclosure of Invention Technical Problem [8] The present invention provides a filter and a filter assembly having an air purification and sterilizing function capable of modifying a desired shape with a low manufacturing cost.

It is a technical object of the present invention to provide an air purification sterilizer employing the filter or filter assembly.

According to the present invention,

A filter for air purification and sterilization, which is manufactured using a step of preparing a phylloidal mixture by mixing phyllo-pulp and liquid loess with phyllotaxis powder and a step of coating the phyllosilicate mixture on a metal mesh net, So as to solve the technical problem.

According to the present invention,

A filter assembly in which a first filter and a second filter are arranged in parallel,

The first filter comprises:

Preparing a cemented carbide mixture by mixing the cemented carbide powder and the liquid phase pulp and the liquid loess alternately or together, and coating the cemented carbide mixture on a metal mesh net,

The second filter,

The present invention provides a filter assembly for air purification and sterilization, which is manufactured by coating a metal mesh net with a photocatalyst material.

According to the present invention,

The filter assembly; And

And an ultraviolet lamp which irradiates the filter with ultraviolet rays.

The present invention has a remarkable effect of being able to remove particles in the air as well as the particle size that the existing filter can purify.

INDUSTRIAL APPLICABILITY The present invention has a remarkable effect of adsorbing a radioactive substance and removing a radioactive contamination source from the atmosphere.

INDUSTRIAL APPLICABILITY The present invention has a remarkable effect that it is possible to provide an air purification filter which can be modified to a desired shape with a low manufacturing cost.

1 is a view showing an example of an air purification sterilizer.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may properly define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

Before describing the present invention with reference to the accompanying drawings, it should be noted that the present invention is not described or specifically described with respect to a known configuration that can be easily added by a person skilled in the art, Let the sound be revealed.

Example  1. Adsorption filter for air purification and sterilization

First, after the liquid pulp and the liquid ocher are selectively or mixed together Phyllite  Mix the powders.

The reason for using the liquid pulp is to use the porous structure of phyllite and the characteristics of the constituent material by adsorbing and coating the phyllite powder on the metal mesh net. In addition, after the filter is manufactured, it is deformable so that it can be deformed into various shapes and inserted into the sterilizer. In particular, phyllite cancer has a positive characteristic as a condition capable of adsorbing a radioactive substance, so that the negative characteristic of the radioactive substance can be adsorbed well.

Pulps are cellulose fibers obtained by mechanical or chemical means in wood or plants. The pulp is a liquid wetted product in the form of a liquid containing a moisture, and is manufactured to have a moisture content such that it can be mixed well with the phyllite powder by a method such as compression.

Here, 'pulp' refers to a large category of cellulose fibers, which is used as a concept that includes both seed fibers, bast fibers, leaf fibers and grass used as raw materials for paper.

In addition, the particle size of the liquid pulp and the phyllite powder is adjusted and mixed so as to be adsorbed and coated on the metal mesh net to a thickness of wire or iron semi-solid. That is, the shape of the final mesh network can be freely changed. For example, each particle size is formed to be about 200 mesh and mixed.

The reason for using liquid loess is the same as that for using liquid pulp, and the shape of the final mesh net can be freely changed as described above.

In addition, it is a matter of course that, in the case of using yellow loess, the advantageous function of the far-infrared ray generated in the yellow loess and the sterilizing function can be added. Hwangto has active yeast, which is called katatase, which has the function of decomposing harmful substances and can also function as antibacterial or admiral. Accordingly, by mixing phylloide powder in liquid ocher, the phyllite powder is adsorbed to utilize the porous structure of the phyllite and the characteristics of the constituent material, as well as the functionality of the loess.

Phyllite  The mixture was mixed with metal In mesh network  The filter is prepared by coating.

The feldspar mixture is adsorbed in a metal mesh network, and the metal of the metal mesh network may be copper or nickel. In addition, the metal mesh network may be in the form of a metal foam which can be freely deformed. For example, it can be rolled into a cylindrical shape, wrinkled into a small ball shape, or stretched into a square shape.

Example  2. Adsorption filter assembly for air purification and sterilization

Example  1 to produce a first filter.

metal In mesh network Photocatalyst  Material In mesh network  To prepare a second filter.

As the catalyst material, titanium dioxide (TiO2), manganese dioxide (MnO2) or copper (Cu) is selectively used. Depending on the design conditions, 0.5 parts by weight of manganese dioxide and 0.3 parts by weight of copper may be used, or 1: 1: 1, based on 1 part by weight of titanium dioxide. Or may be coated with only one material.

Here, the coating of the first filter and the coating of the second filter may be different. In the case of the first filter coated with the liquid cyanide mixture, a method of putting the metal mesh net into the mixture, In the case of a second filter on which the material is coated, a nano-adsorption process may be employed. Depending on the design conditions, other methods may be used as well as methods capable of solving the technical problems of the present specification.

Here, the catalytic material functions as a photocatalyst for accelerating the photoreaction. That is, ultraviolet rays are absorbed to generate electrons and holes on the surface, and these active factors decompose harmful substances, thereby accelerating the photoreaction.

The first filter and the second filter are arranged in parallel to form a filter assembly.

Example  3. Manufacture of air purification sterilizer

The filter according to the present invention can be freely deformed and used as a mesh network. When a filter or filter assembly is used in an air-cleaning sterilizer, it is desirable to include an ultraviolet lamp so that the photocatalyst contained in the filter or filter assembly functions. Here, it is needless to say that the filter in Example 1 as well as the active material in phyllotaxis can be further activated by the ultraviolet lamp.

It can also be used with deodorizing, antibacterial and sterilizing filters that can be added inside the sterilizer to further enhance the air purification function.

FIG. 1 shows an example of an air purification sterilizer in which a filter or filter assembly 100 is combined with an ultraviolet lamp.

It is needless to say that various modifications and variations are possible within the technical scope of the present invention.

Claims (3)

A method for air purification and sterilization, comprising the steps of: preparing a mixture of phylloidal rocks by mixing phylloidal pulp and liquid loess with phyllosilicate powder; and coating the phylloidal mixture to a metal mesh net.
A filter assembly in which a first filter and a second filter are arranged in parallel,
The first filter comprises:
Preparing a cemented carbide mixture by mixing the cemented carbide powder and the liquid phase pulp and the liquid loess alternately or together, and coating the cemented carbide mixture on a metal mesh net,
The second filter,
A filter assembly for air purification and sterilization, characterized by being fabricated by coating a metal mesh netting with a photocatalytic material.
A filter assembly according to claim 1; And
And an ultraviolet lamp that emits ultraviolet rays to the filter.

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