KR102148432B1 - The sterilizer filter and sterilizing apparatus - Google Patents

Abstract

The present invention relates to a filter which removes harmful bacteria from flowing air by a photocatalytic action of a UV-LED and a sterilization device using the filter. Specifically, the sterilization filter (100) comprises: an optical element (120) disposed on one side of a board plate (110), formed in plural, and emitting light; and a photocatalytic filter (130) disposed adjacent to the LED.

Description

The sterilizer filter and sterilizing apparatus}

The present invention relates to a filter that removes harmful bacteria from flowing air by the photocatalytic action of UV-LED and a sterilization device using the filter.

Patent Invention 001 is an invention of a deodorization sterilization device using a photocatalyst and UV light for deodorizing and sterilizing food waste, and suggests a technology using UV light, which has superior sterilization power than the existing photocatalytic method.

Patent Invention 002 is an invention for an air purifier, UV LED for photocatalyst installed on a UV LED substrate; And a photocatalytic filter that is spaced apart from the UV LED substrate on a surface facing the UV LED for the photocatalyst; and the ultraviolet rays irradiated from the UV LED for the photocatalyst have a peak wavelength of 340 to 380 nm. .

Patent Invention 003 is an invention for a refrigerator sterilization device using a UV lamp for ozone generation that can sterilize various microorganisms generated in the refrigerator and oxidize odorous substances. It is installed in the refrigerator in the vertical direction, and For ozone generation including a housing with an air inlet formed, an air outlet formed at the top, an air flow passage connecting between the air inlet and the air outlet, and a UV lamp installed inside the housing to generate ozone It presents a refrigerator sterilization device using a UV lamp.

Patent Invention 004 is the invention of a three-light circle UV sterilizer for a photocatalytic coating layer, and a folding auxiliary support is attached with a hinge to the tip of the handle with an ON/OFF switch, a ballast and a cord, and a folding UV lamp connected by a hinge is attached to the tip of the auxiliary unit A three-light source UV sterilizer for the attached photocatalyst coating layer is presented.

KR 10-2005-0111459 A (Publication date November 25, 2005) KR 10-2016-0054730 A (Publication date May 17, 2016) KR 10-2057057 B1 (registration date December 12, 2019) KR 20-0351769 Y1 (Registration date May 19, 2004)

The present invention relates to a filter that removes harmful bacteria from flowing air by the photocatalytic action of UV-LED and a sterilization device using the filter.

The present invention is an invention for the sterilization filter 100, specifically disposed on one surface of the board plate 110, formed in plural, and an optical element 120 for irradiating light; It consists of a configuration including a; photocatalytic filter 130 disposed adjacent to the LED.

The present invention is an invention for a sterilizing filter, and in the configuration presented above, the photocatalytic filter includes: a body 131 having a plurality of air flow ports; A reaction layer 132 coated on the body surface; is added.

The present invention is an invention for a sterilizing filter, and in the configuration presented above, the board plate and a case 140 for accommodating the photocatalytic filter are added.

The present invention relates to a sterilization device, specifically, an inlet is formed on one side, an outlet is formed on the other side, and a duct 200 through which air flows; It consists of a configuration including; a sterilization filter 100 accommodated in the duct.

The present invention is an invention for a sterilization device, and in the above-mentioned invention, a first damper 310 installed inside the duct and positioned in front of the sterilization device; A second damper 320 installed inside the duct and positioned at a rear end of the sterilizing device; A circulation duct 330 having one side communicating with the front end of the first damper and the other side communicating with the rear end of the second damper; And a second blowing fan 340 mounted inside the circulation duct.

The present invention is an invention for a sterilization device, and in the above-mentioned invention, an electric heat heater 410 installed inside the duct and located in front of the sterilization device includes;

The present invention is an invention for a sterilization device, and in the above-described invention, a dehumidifying device 510 installed in the duct and located in front of the sterilizing device includes;

The present invention is an invention for a sterilization device, and in the above-mentioned invention, it is installed on the cross section of the duct, absorbs ultraviolet rays, and includes a light shielding screen 610 having a plurality of vents.

The present invention has the effect of sterilizing harmful bacteria present in the flowing air through a catalytic action.

The present invention uses a plurality of LED elements, and by applying a plurality of wavelengths, it is possible to increase the sterilization effect.

In the present invention, since the LED and the photocatalytic filter are configured in separate cases, the efficiency of assembly and replacement can be improved.

According to the present invention, since the photocatalytic filter has an air flow port, the air flows smoothly, and since the air flow port has a cross-sectional change, the internal flow rate may be reduced or a vortex may be generated to increase the sterilization effect of harmful bacteria in the air.

Since the sterilization apparatus of the present invention uses a circulation duct, it has the effect of discharging only air that has been sterilized through a plurality of sterilization actions.

The present invention can increase the sterilization effect through the dual action of a thermal reaction and a catalytic reaction.

1 is a layout diagram of an optical device and a photocatalytic filter of the present invention.
Figure 2 is a cross-sectional shape of the photocatalytic filter of the present invention.
3 is a perspective view of a photocatalytic filter of the present invention
Figure 4 is an exploded perspective view of a case incorporating an optical device and a photocatalytic filter of the present invention.
5 is a cross-sectional view of a case in which an optical device and a photocatalytic filter of the present invention are incorporated
Figure 6 is a cross-sectional view of an embodiment of the case coupling means of the present invention.
Figure 7 is a cross-sectional view of the cylindrical case of the present invention.
8 is a conceptual diagram of a duct with a built-in sterilization device of the present invention.
Figure 9 is a diagram showing the arrangement of the sterilizer mounted inside the duct of the present invention.
Figure 10 is a perspective view of the combined plate and cylindrical sterilization device of the present invention.
Figure 11 is a flow chart of the circulation duct operation of the present invention.
12 is a conceptual diagram of a heating device and a photocatalytic device mixed sterilizer of the present invention.
13 is a conceptual diagram of a dehumidifying device and a photocatalyst device of the present invention.

Hereinafter, in order to describe in detail enough that a person of ordinary skill in the art can easily implement the present invention, a most preferred embodiment of the present invention will be described in detail.

The numbers cited in the following examples are not limited only to the objects of reference, and may be applied to all examples. An object that exhibits the same purpose and effect as the configuration presented in the examples corresponds to an equal substitution object. The upper concept presented in the examples includes the lower concept object that is not described.

[Embodiment 1-1] The present invention relates to a sterilizing filter 100, specifically, an optical element 120 disposed on one surface of the board plate 110, formed in plural, and irradiating light; It consists of a configuration including a; photocatalytic filter 130 disposed adjacent to the LED.

[Example 1-2] The present invention relates to a sterilizing filter, and in Example 1-1, the optical device is formed in a UV-A type and/or UV-C type; and includes.

[Embodiment 2-1] The present invention relates to a sterilizing filter, and in Embodiment 1-1, the photocatalytic filter includes: a body 131 having a plurality of air flow ports; It consists of a configuration comprising a; reaction layer 132 coated on the body surface.

[Example 2-2] The present invention relates to a sterilizing filter, and in Example 2-1, the material of the reaction layer is formed of titanium dioxide or blue titanium dioxide.

[Example 2-3] The present invention relates to a sterilizing filter, and in Example 2-1, the body material is ceramic.

[Example 2-4] The present invention relates to a sterilizing filter, and in Example 2-1, the through direction of the air flow port is formed in a straight line or a curved line.

[Example 2-5] The present invention relates to a sterilizing filter, and in Example 2-1, the shape of the air flow port is circular or polygonal.

[Embodiment 2-6] The present invention relates to a sterilization filter, and in Example 2-1, the air flow port includes a cluster formed of regular or irregularly shaped porous holes.

The object of the present invention (Examples 1-1 to 2-6) is to remove organic matter (bacteria, bacteria, etc.) and odors in airflow.

Specifically, an optical element is placed adjacent to the body where the air flow port exists, and the ultraviolet rays generated from the optical element cause the reaction layer and the catalyst plate on the body surface, and odor and harmful substances are removed by the chemical reaction generated by the catalytic reaction. It is characterized by oxidative decomposition.

In order to implement this, the optical device is preferably a UV LED, and the reaction layer is formed of titanium dioxide. Alternatively, use blue titanium dioxide. UV-LEDs can be used in A type or C type. If necessary, A-type and C-type can be used simultaneously.

The air condition is determined by an air sensor to be described later, and according to the air condition, A type or C type may be selectively used, or two may be used in plurality. When a plurality of types A and C are used, the sterilization efficiency is maximized.

A feature of the present invention is to improve the sterilization efficiency in the process of flowing air and to minimize the air flow resistance. To implement this, the body has a plurality of air flow ports, and the air flow ports may be formed in a straight line or curved shape. As another embodiment, the cross section of the air flow port may be formed in a polygonal or circular shape. As another embodiment, the air flow port may include regular or irregular porous holes.

As a specific embodiment, in order to increase the air flow area and take a stable structural shape, a plurality of honey cup shapes may be taken as a cross section. If necessary, a circular or polygonal shape may be arranged.

The air flow port may form a straight line in the longitudinal direction, or may be gradually expanded in the longitudinal direction. When the cross-sectional area is expanded in the longitudinal direction, since the flow velocity is lowered, the effect of prolonging the catalytic action time inside the air flow port can be obtained.

In another embodiment, the air flow port may form an orifice therein or may form a plurality of curved surfaces. This causes an artificial turbulence to act on the air, delaying the time to stay inside the air flow port of harmful bacteria according to the turbulence action, thereby increasing the catalytic reaction time.

[Example 3-1] The present invention relates to a sterilizing filter, and in Example 1-1, the board plate and the case 140 for accommodating the photocatalytic filter;

[Example 3-2] The present invention relates to a sterilizing filter, and in Example 3-1, the case comprises: a first case 141 for coupling the board plate; A second case 142 for coupling the photocatalytic filter; And a fixing means 143 for selectively fastening the first case and the second case.

[Example 3-3] The present invention is an invention of a sterilizing filter, and in Example 3-2, a first through hole 144 formed in the first case, formed in a plurality, and penetrated; A second through hole 145 formed in the second case, formed in plurality, and penetrated; And a plurality of photocatalytic filters, each of which is inserted into the second through hole.

[Example 3-4] The present invention relates to a sterilizing filter, and in Example 3-2, the first case and the second case are formed in a cylindrical shape.

The present invention (Examples 3-1 to 3-4) aims at modularizing a sterilizing filter.

Consisting of a first case for mounting a light source and a second case for mounting a photocatalytic filter, a sterilizing filter is formed by a combination of the two cases. The two first and second cases may be fastened with a fixing means to be implemented as an integral type. The fixing means may be coupled by using a plurality of bolts, fastening with a band on the outside of the case, fixing with a clamp mounted on the outside of the case, or by fitting a protrusion protruding from the case of Hani with a groove formed in another case. .

In another embodiment, a photocatalytic filter may be mounted on one side of one case structure, and a light source may be mounted on the other side.

The first case and the second case each have a through hole, and the through hole coincides with a corresponding surface in a condition in which the first case and the second case are combined. Accordingly, the air can flow in a straight line through the first through port and the second through port. Each photocatalytic filter is coupled to the second through hole of the second case, and a UV-LED is coupled to one surface of the first case.

The first case and the second case are preferably implemented in a plate shape, and may be formed in a cylindrical shape if necessary. When formed in a cylindrical shape, a photocatalytic filter is mounted in the second case, a UV-LED element is mounted in the first case, and the first case is inserted into the second case. That is, in the case of a cylindrical shape, air flows from one side in the axial direction of the cylinder, and air is discharged in the circumferential direction of the cylinder, and a photocatalytic reaction is induced during the discharge in the circumferential direction.

In the sterilizing filter of the present invention, a pre-filter (first filter), an activated carbon filter (second filter), and a HEPA filter (third filter) are sequentially disposed, and a photocatalytic filter (fourth filter) may be installed at the final stage. . This is to improve the diversity of air purification. The pre-filter is made in the form of a non-woven fabric and is intended to pre-filter dust having a relatively large size. The activated carbon filter removes volatile substances and odors, and can remove organic compounds. The HEPA filter is for removing fine dust, and the photocatalytic filter is for sterilization and decomposition of various harmful substances.

The first to fourth filters presented above may be combined in one or a combination of two or more. For example, it may be combined with a combination of a second filter and a fourth filter, a third filter and a fourth filter, and the second to fourth filters. The first to fourth filters are preferably inserted into one case, and each may be configured in the form of a cartridge.

[Embodiment 4-1] The present invention relates to a sterilization apparatus, specifically, an inlet is formed on one side, an outlet is formed on the other side, and a duct 200 through which air flows; Sterilizing device including; the sterilizing filter 100 of Example 1-1 accommodated in the duct.

[Embodiment 4-2] The present invention is an invention for a sterilizing filter, and in Embodiment 4-1, a first blowing fan 210 mounted inside the duct and driven by an electric motor; It is mounted inside the duct and includes a pre-filter 220 that filters foreign substances.

[Example 4-3] The present invention relates to a sterilizing filter, and in Example 4-1, a first gas measurement sensor 231 is accommodated in the duct and measures harmful gas.

[Example 4-4] The present invention relates to a sterilization filter, and in Example 4-2, a main controller 232 that senses the gas measurement sensor signal and operates the first blowing fan and the LED Includes;

[Example 4-5] The present invention relates to a sterilization filter, and in Example 4-1, the sterilization filter is mounted in plural and spaced apart at a predetermined interval.

[Embodiment 4-6] The present invention relates to a sterilizing filter, and in Embodiment 1-1, a through hole 241 penetrating inside and outside the duct; It includes; a guide 242 for guiding the position of the sterilization filter entering along the through hole.

The present invention (Examples 4-1 to 4-5) relates to a sterilization device, and a sterilization filter is mounted inside a duct through which air flows. If necessary, a blower fan may be installed inside or outside the duct to provide air flow. The blowing fan may be mounted at the inlet and/or outlet of the duct.

As previously suggested, the duct may have a plurality of filters installed therein, and the duct forms a guide for setting the filter mounting position. The filter is formed in the form of a cartridge, and can be seated in the duct along the guide.

The duct forms a cover and enables the cartridge to be fastened by the cover. The cover may be located at an open position on one side of the middle portion of the duct, or may be formed at an inlet of the duct. That is, when formed in the inlet, the cover must have a plurality of air injection holes.

When the filter is placed inside the duct, a difference in air pressure before and after the filter occurs. This causes a disadvantage in that the flow energy is lowered by the filter. In order to overcome this, a plurality of filters are installed in the duct in multiple times, and a sterilization effect can be achieved step by step.

In addition, for the purpose of reducing flow resistance and generating air vortex, the plurality of filters partially close the duct cross-section, and each filter may be positioned in a zigzag manner to form a curved air flow direction. Alternatively, the diaphragm 230 may be mounted instead of the filter.

[Embodiment 5-1] The present invention is an invention for a sterilization device, and in Example 4-1, a first damper 310 installed inside the duct and located in front of the sterilization device; A second damper 320 installed inside the duct and positioned at a rear end of the sterilizing device; A circulation duct 330 having one side communicating with the front end of the first damper and the other side communicating with the rear end of the second damper; Consists of a configuration including; a second blowing fan 340 mounted inside the circulation duct.

[Example 5-2] The present invention relates to a sterilization device, and in Example 5-1, a second gas measurement sensor 351 positioned at a rear end of the sterilization device is included.

[Example 5-3] The present invention is an invention for a sterilization device, and in Example 5-1, by detecting the second gas measurement sensor signal, the first damper, the second damper, and the second blowing fan are It includes; circulation controller 352 to operate.

The present invention (Examples 5-1 to 5-3) is to mount a circulation duct inside the duct, and aim to completely sterilize harmful bacteria inside the duct.

That is, the first damper is installed at the front end of the sterilization filter inside the duct, and the second damper is installed at the rear end. The first damper and the second damper communicate with separate circulation ducts. That is, air may circulate several times through the duct and the circulation duct by the operation of the first and second dampers. During the circulation process, the circulating air sterilizes a plurality of photocatalysts by the sterilization filter, and after being repeated several times, only the second duct is opened to discharge completely sterilized air.

A blower fan is installed to generate circulation power inside the duct, and a gas state measurement sensor is installed at the front and rear of the sterilization filter. This operation is done by the circulation controller. The circulation controller detects the sensor signal and operates the first duct, the second duct, and the blowing fan.

During the circulation process, in order to improve the circulation efficiency, the second blowing fan may adjust the circulation speed step by step. For example, one minute circulates at a low speed, the next one circulates at a medium speed, and the next one minute circulates at a high speed. In addition, the circulation step is implemented in multiple stages, and the time difference according to the speed change can be controlled.

[Embodiment 6-1] The present invention is an invention of a sterilization device, and in Example 4-1, an electric heating heater 410 installed inside the duct and located in front of the sterilization device is composed of a configuration including: .

[Example 6-2] The present invention relates to a sterilization device, and in Example 6-1, a thermometer 421 installed in the electric heater; And a temperature controller 422 that senses the thermometer signal and drives the electric heater.

[Example 7-1] The present invention relates to a sterilization device, and in Example 4-1, it includes a dehumidifying device 510 installed inside the duct and located in front of the sterilizing device.

[Example 7-2] The present invention relates to a sterilization device, and in Example 7-1, a drain pipe 521 communicating with the dehumidifying device and discharging moisture collected by the dehumidifying device includes; do.

The present invention (Examples 6-1 to 7-2) aims to increase circulation efficiency. An electric heater can be additionally installed inside the duct. The electric heater is intended to sterilize harmful bacteria by high temperature heat. That is, harmful bacteria are firstly sterilized by an electric heater, and secondly, a photocatalyst can be used to sterilize.

In addition, by installing a dehumidifying device inside the duct, it is possible to collect moisture contained in the external air. The collected condensate is discharged to the outside through the drain pipe, and if necessary, the drain container and the drain pump can discharge the condensed water through the drain pipe.

[Embodiment 8-1] The present invention is an invention of a sterilization device, and in Embodiment 4-1, a light-shielding screen 610 installed on the cross section of the duct, absorbing ultraviolet rays, and having a plurality of vents formed therein; includes do.

[Example 8-2] The present invention relates to a sterilization device, and in Example 8-1, the light-shielding screen includes a plurality of layers formed by overlapping each other.

The present invention (Examples 8-1 to 8-2) is to prevent the UV wavelength inside the duct from being discharged to the outside. UV light inside the sterilizer is harmful to the human body. Therefore, it is necessary to prevent ultraviolet rays from leaking out of the duct. To solve this, a shading screen is installed. The shading screen discharges air and should only block ultraviolet rays. Accordingly, the shading screen has a plurality of vents, the plurality of shading screens are formed in multiple, and each shading screen must be spaced apart by a predetermined interval.

100: sterilization filter 110: board plate
120: optical device 130: photocatalytic filter
131: body 132: reaction layer
140: case 141: first case
142: second case 143: fixing means
144: first through hole 145: second through hole
200: duct 210: first blowing fan
220: pre-filter 230: diaphragm
231: first gas measurement sensor 232: main controller
241: through hole 242: guide
310: first damper 320: second damper
330: circulation duct 340: second ventilation fan
351: second gas measurement sensor 352: circulation controller
410: electric heater 421: thermometer
422: temperature controller 510: dehumidification device
521: drain pipe 610: shading screen

Claims (8)

delete delete delete delete In the sterilization device,
An inlet port is formed on one side, an outlet port is formed on the other side, and a duct 200 through which air flows;
A sterilization filter that is accommodated in the duct, is disposed on one surface of the board plate 110, is formed in a plurality, and includes an optical element 120 for irradiating light and a photocatalytic filter 130 disposed adjacent to the optical element ( 100);
A first damper 310 installed inside the duct and positioned in front of the sterilizer;
A second damper 320 installed inside the duct and positioned at a rear end of the sterilizing device; And
A circulation duct 330 having one side communicating with the first damper 310 and the other side communicating with the second damper;
Sterilizing device including; a second blowing fan (340) mounted inside the circulation duct.
The method of claim 5,
Sterilization device including; installed inside the duct, the electric heat heater 410 located in front of the sterilization device.
The method of claim 5,
Sterilizing device including; installed inside the duct, a dehumidifying device 510 located in front of the sterilizing device.
delete

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