KR101523656B1 - Anti-microbial Nonwoven Filter Containing Optical Fibers and Air Cleaner Having the Same - Google Patents

Abstract

The present invention relates to an antibacterial filter for applying an optical fiber mixed nonwoven fabric and an air purifier including the same. More particularly, the present invention relates to an antibacterial filter using an optical fiber mixed nonwoven fabric, , Microbes such as fungi, viruses and the like which are harmful to human body can be effectively killed in a short period of time and the filter material can be coated with a photocatalyst to increase the bactericidal effect. Thus, dust particles, which is a disadvantage of the existing antibacterial filter, It is possible to overcome the problem of lowering the sterilization effect caused by the trapping.

Description

TECHNICAL FIELD [0001] The present invention relates to an antibacterial filter applied to an optical fiber mixed nonwoven fabric and an air purifier including the same,

The present invention relates to an antibacterial filter for applying an optical fiber mixed nonwoven fabric and an air purifier including the same, and more particularly to an antibacterial or sterilizing technology for treating an harmful microorganism collected in a filter when air or water is purified using a filter Technology. The antibacterial and sterilizing techniques include heat, ultraviolet rays, radiation, and chemical treatment, and the present invention corresponds to an antibacterial technique using ultraviolet rays.

High efficiency filters used in air purification can effectively trap almost all harmful microorganisms.

However, the microorganisms trapped in the filter can survive for a long time and even proliferate. Various antibacterial filters have been developed to solve these problems.

Here, antibacterial technology in which an antimicrobial substance is coated on a filter surface, antibacterial technology in which an ion cluster is attached to a microorganism captured by a filter by generating an ion cluster on the filter front side in the case of an air purification filter, and microorganisms are killed is applied. There is a problem that the harmful microorganisms can not be effectively killed by the prior art because the dust is continuously accumulated and serves as a protection against microorganisms.

1, a method of irradiating the surface of the filter 1 with an ultraviolet light 3 to kill the microorganism 2 has been tried. However, when the ultraviolet light 3 is irradiated only on the surface of the filter 1, And the microorganisms (2) trapped therein could not be killed.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

In order to sterilize harmful microorganisms such as bacteria, fungi, viruses and the like, ultraviolet rays, visible light, or natural light are irradiated from the inside of the filter through the optical fiber surface constituting the filter material to kill the harmful microorganisms collected on the filter fiber surface, An antibacterial filter for applying an optical fiber mixed nonwoven fabric and an air purifier including the antibacterial filter to overcome the antibacterial function of the conventional antibacterial filter and the low antibacterial performance caused by continuous collection of the antibacterial filter.

In order to achieve the above object, the present invention provides an optical fiber composite nonwoven fabric comprising an optical fiber mixed nonwoven fabric which is formed by irregularly mixing ordinary fibers with an optical fiber capable of emitting light at one end and traveling along a longitudinal direction,

A light source part irradiated with a light source at one end of the optical fiber mixed nonwoven fabric;

And a power unit connected to the light source unit to apply power to operate the light source. The present invention relates to an antibacterial filter for applying an optical fiber mixed nonwoven fabric.

The present invention also provides an optical fiber composite nonwoven fabric which is formed by mixing an optical fiber capable of emitting light at one end portion and traveling along a longitudinal direction through an optical fiber surface and a common fiber, A filter medium composed of a filtration layer for filtering particulate matter in the air;

A light source part irradiated with a light source at one end of the optical fiber mixed nonwoven fabric;

And a power unit connected to the light source unit to apply power to operate the light source. The present invention relates to an antibacterial filter for applying an optical fiber mixed nonwoven fabric.

As described above, the antibacterial filter and the air purifier including the optical fiber mixed nonwoven fabric according to the present invention irradiate ultraviolet rays, visible light, or natural light directly into the filter through surface light emission of the optical fiber, It is possible to effectively sterilize microorganisms harmful to human bodies such as fungi and viruses in a short time and coat the photocatalyst with the photocatalyst to increase the bactericidal effect. As a result, the antibacterial filter has the disadvantage of the existing antibacterial filter, It is possible to overcome the problem of lowering the sterilization effect caused by continuous collection.

1 is a schematic view showing a conventional filter,
2 is a cross-sectional view of an antibacterial filter for applying an optical fiber mixed nonwoven fabric according to an embodiment of the present invention,
3 is a plan view of an antibacterial filter for applying an optical fiber mixed nonwoven fabric according to an embodiment of the present invention,
4 is an exploded plan view showing an antibacterial filter for applying an optical fiber mixed nonwoven fabric according to an embodiment of the present invention,
5 is a side view showing an antibacterial filter for applying an optical fiber mixed nonwoven fabric according to an embodiment of the present invention,
6 is a side view showing an antibacterial filter for applying an optical fiber mixed nonwoven fabric for multilayer structure according to an embodiment of the present invention,
7 is a side sectional view showing an optical fiber according to an embodiment of the present invention,
FIG. 8 is a schematic view showing an air cleaner equipped with an antibacterial filter according to an embodiment of the present invention,
Fig. 9 is an enlarged view showing part A of Fig. 8,
10 is a schematic view showing an air cleaner equipped with an antibacterial filter according to a first embodiment of the present invention,
FIG. 11 is a schematic view showing an air cleaner equipped with an antibacterial filter according to a second embodiment of the present invention,
12 is a schematic view showing an air purifier equipped with an antibacterial filter according to a third embodiment of the present invention.

The present invention has the following features in order to achieve the above object.

An antibacterial filter for an optical fiber mixed nonwoven fabric according to the present invention comprises: an optical fiber mixed nonwoven fabric which is formed by irregularly mixing an optical fiber capable of emitting light at one end and traveling along a longitudinal direction through a surface thereof;

A light source part irradiated with a light source at one end of the optical fiber mixed nonwoven fabric;

And a power unit connected to the light source unit to apply power to operate the light source.

The antibacterial filter for an optical fiber hybrid nonwoven fabric according to the present invention comprises an optical fiber mixed nonwoven fabric formed by mixing an optical fiber capable of emitting light at one end and traveling along a longitudinal direction through a surface thereof and a common fiber, A filter medium which is formed to be laminated and does not include the optical fiber but filters the particulate matter in the air;

A light source part irradiated with a light source at one end of the optical fiber mixed nonwoven fabric;

And a power unit connected to the light source unit to apply power to operate the light source.

The present invention having such characteristics can be more clearly described by the preferred embodiments thereof.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

FIG. 2 is a cross-sectional view of an antibacterial filter for applying an optical fiber mixed nonwoven fabric according to an embodiment of the present invention, FIG. 3 is a plan view of an antibacterial filter for applying an optical fiber mixed nonwoven fabric according to an embodiment of the present invention, FIG. 5 is a side view showing an antibacterial filter for applying an optical fiber mixed nonwoven fabric according to an embodiment of the present invention. FIG. 6 is a side view showing an antibacterial filter according to an embodiment of the present invention. FIG. 7 is a side sectional view showing an optical fiber according to an embodiment of the present invention. FIG. 7 is a side view showing an optical fiber according to an embodiment of the present invention.

As shown in FIGS. 2 to 7, the optical fiber mixed nonwoven fabric-applied antibacterial filter 100 of the present invention includes an optical fiber 20, which is received at one end and travels along a longitudinal direction, 11) are irregularly mixed to form an optical fiber mixed nonwoven fabric (50); A light source part 30 irradiating a light source to one end of the optical fiber mixed nonwoven fabric 50; And a power supply unit 40 connected to the light source unit 30 to apply power to operate the light source.

2 to 7, the optical fiber blend nonwoven fabric 50 includes a plurality of fibers 11 and a plurality of optical fibers 20 that emit light at a surface between the plurality of fibers 11, All. The plurality of fibers 11 may be conventional synthetic fibers.

In addition, the optical fiber mixed nonwoven fabric 50 may be coated with a photocatalyst. The photocatalyst may be prepared by various methods such as a sol-gel method and may be coated on the optical fiber mixed nonwoven fabric 50 by spraying or coating. The photocatalyst may be titanium dioxide (TiO 2), zinc oxide (ZnO), tungsten oxide (WO 3), or the like, and may be activated by ultraviolet rays, visible rays or mixed light thereof to kill harmful microorganisms have.

4 to 6, the optical fiber mixed nonwoven fabric 50 may include a plurality of fibers 11 without the optical fiber 20 and may include a filter layer 60 for filtering particulate matter in the air, Fiber non-woven fabric 50. The filter media 10 are formed on the upper and lower surfaces of the optical fiber blend nonwoven fabric 50.

6, a plurality of the optical fiber mixed nonwoven fabrics 50 and a plurality of filtration layers 60 may be alternately stacked.

A connector (not shown) is further provided to connect the light source unit 30 with one end face of the optical fiber mixed nonwoven fabric 50.

7, when the light source of the light source unit 30 is irradiated to one end of the optical fiber 20, the light source is transmitted in the longitudinal direction of the optical fiber 20, and the light is transmitted through the core unit 21 of the optical fiber 20 The transmitted light is diverted through the surface of the clad part 22 and effectively kills the harmful microorganisms 2 captured by the filter medium 10 or the optical fiber 20.

The optical fiber 20 includes a core portion 21 extending in the longitudinal direction and having a refractive index higher than that of air and a core portion 21 having a refractive index lower than the refractive index of the core portion 21, A clad portion 22, and a light diverging portion 23 from which the clad portion 22 is partially removed.

It is also possible to combine the materials having various refractive indexes or adjust the thickness of the clad part 22 in the construction of the core part 21 and the clad part 22 of the optical fiber 20, It is possible to emit light through the surface of the substrate 22.

The optical fiber 20 may be formed of a plastic material, and the light diverging unit 23 is uniformly distributed on the surface of the optical fiber 20.

In order to ensure flexibility, the optical fiber 20 is formed to have a diameter of 2 mm or less, which is 1 mm in one embodiment of the present invention. At this time, the filter medium 10 including the optical fiber 20 is coated with a photocatalyst to improve the sterilizing effect.

3 to 7, the light source unit 30 is a device for generating a light source irradiated to one end of the optical fiber mixed nonwoven fabric 50. The light source unit 30 includes various devices, Is connected to a printed circuit board (PCB) 41 to control the light source. Since the irradiation of the light source of the light source unit 30 is a commonly known technique, a separate function and structure are not described.

Here, the light source may be any one of visible light, ultraviolet light, and natural light, and at least one of them may be used at the same time.

At this time, the irradiation time of the light source is sufficient for sterilizing effect even if the light source is used within one hour per day to prevent the destruction of the polymer constituting the optical fiber mixed nonwoven fabric 50 due to the use of the light source for a long time. That is, the irradiation time of the light source may be set separately and sterilized for a preset time.

3 to 7, the power supply unit 40 is connected to the light source unit 30 and supplies power to the light source unit 30 so that the power generated by the PCB 41 is supplied to the PCB 41, .

FIG. 8 is a schematic view showing an air cleaner equipped with an antibacterial filter according to an embodiment of the present invention, FIG. 9 is an enlarged view showing part A of FIG. 8, FIG. 10 is a view showing an antibacterial filter according to the first embodiment of the present invention 11 is a schematic view showing an air cleaner equipped with an antibacterial filter according to a second embodiment of the present invention, and FIG. 12 is a schematic view showing an antibacterial filter according to a third embodiment of the present invention. FIG. 2 is a schematic view showing an air cleaner provided;

8 to 12, the air purifier 200 equipped with the antibacterial filter of the present invention is an air purifier 200 equipped with the above-described optical fiber layer applied antibacterial filter 100, An antibacterial filter 100 is inserted into the duct case 160 of the air purifier 200 and the light source unit 30 is installed at one end of the antibacterial filter 100, And a power supply unit 40 are provided.

Here, the antibacterial filter 100 provided in the air cleaner 200 is formed of a bending type filter bent in the form of "? "In order to increase the filtration area. This is an embodiment, This is possible.

As shown in FIG. 10, the air cleaner 200 includes an inlet 161 through which polluted air flows, a duct 160 through which an outlet 162 through which filtered clean air is discharged, A pretreatment filter 110 installed at the inlet 161 side of the pretreatment filter 110 for firstly filtering the contaminated air and a filter 110 disposed at the rear surface of the pretreatment filter 110 for filtering the fine dust in the contaminated air An antibacterial filter 100 installed on the rear surface of the antibacterial filter 100 for adsorbing and filtering off volatile organic compounds (VOC) and odors in the air; And an air blower 130 for conveying the filtered clean air.

11, as a second embodiment of the air purifier 200, a charging device 140 for electrically charging foreign substances in the air is further provided between the pre-treatment filter 110 and the optical fiber layer applied antibacterial filter 100 Respectively.

Here, the charging device 140 may be applied with a corona discharge or an electrospray method. The charging device 140 to which the corona discharge method is applied is composed of an earth electrode 141 and a discharge electrode 142 so that a corona discharge is generated by receiving power from an external power source unit. At this time, the ground electrodes 141 are spaced apart from each other as a flat plate, and the discharge electrode 142 is provided between the plurality of ground electrodes 141 in the form of a metal wire, a metal needle, and a carbon fiber.

12, the air purifier 200 may include a HEPA filter (High Efficiency Particulate Air Filter) or a ULPA Filter (hereinafter, referred to as " HEPA Filter ") between the antibacterial filter 100 and the adsorption filter 120 described in the first embodiment Ultra Low Penetration Air Filter) is further installed.

Here, the high-performance filter 150 filters foreign substances such as minute dust that can not be filtered by the antibacterial filter 100. The air purifier 200 is applied to a clean room for building air conditioning, an industrial field, a hospital, or the like .

10: filter medium 20: optical fiber
21: core part 22: clad part
23: Light emitting portion 30: Light source portion
40: power supply unit 41: PCB
50: optical fiber mixed nonwoven fabric 60: filtration layer
100: Antibacterial filter 110: Pretreatment filter
120: adsorption filter 130: blower
140: Charging device 141: Earth electrode
142: discharge electrode 150: high performance filter
160: duct case 161: inlet
162: outlet 200: air purifier

Claims (16)

An optical fiber mixed nonwoven fabric 50 formed by mixing an optical fiber 20 capable of emitting light through a surface thereof and a general fiber 11 in a longitudinal direction and being received at one end of the optical fiber mixed nonwoven fabric 50, And a filtering layer (60) formed to filter particulate matter in the air without including the optical fiber (20);
A light source part 30 irradiating a light source to one end of the optical fiber mixed nonwoven fabric;
And a power supply unit 40 connected to the light source unit 30 to apply power to operate the light source,
A connector is further provided to connect one end surface of the optical fiber mixed nonwoven fabric 50 and the light source unit 30. The power source unit 40 includes a printed circuit board (PCB)
The filter layer 60 without the optical fiber 20 and the filter medium 10 are coated with a photocatalyst and the filter medium 10 is formed by a plurality of the optical fiber mixed nonwoven fabric 50 and the plurality of filter layers 60 Alternately stacked,
The optical fiber 20 included in the optical fiber mixed nonwoven fabric 50 includes a core portion 21 having a refractive index higher than that of air and having a refractive index lower than that of the core portion 21, Wherein the clad part (22) surrounding the core part (21) and the light diffusing part (23) partially removing the clad part (22) are provided.
The method according to claim 1,
Wherein the optical fiber (20) included in the optical fiber mixed nonwoven fabric (50) is a plastic material.
The method according to claim 1,
Wherein the light source is a visible light or an ultraviolet light.
The method according to claim 1,
Wherein the light source is natural light.
The method according to claim 1,
Wherein the light source is a lamp or an LED.
The method according to claim 1,
Wherein the light source is a package in which a plurality of light sources are aligned in a line.
An air purifier (200) having an antibacterial filter (100) for applying an optical fiber mixed nonwoven fabric according to claim 1.
8. The air cleaner (200) according to claim 7, wherein the air cleaner (200)
A pretreatment filter 110 installed at a front end of the optical fiber mixed nonwoven fabric-applied antibacterial filter 100;
An adsorption filter 120 installed at the rear end of the optical fiber mixed nonwoven fabric-applied antibacterial filter 100 to remove volatile organic compounds and odors;
A blower 130 installed at a rear end of the adsorption filter 120 to introduce air;
And an air purifier.
8. The air cleaner (200) according to claim 7, wherein the air cleaner (200)
A pretreatment filter 110 installed at a front end of the optical fiber mixed nonwoven fabric-applied antibacterial filter 100;
A high performance filter 150 installed at the rear end of the optical fiber mixed nonwoven fabric applying antibacterial filter 100;
An adsorption filter 120 installed at a rear end of the high performance filter 150 to remove volatile organic compounds and odors;
A blower 130 installed at a rear end of the adsorption filter 120 to introduce air;
And an air purifier. delete delete delete delete delete delete delete

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