KR20210051756A - Car air purifier - Google Patents

Abstract

The present invention relates to an air purifier for a vehicle. More specifically, the air purifier for a vehicle uses a method where an ultraviolet ray is radiated to a photocatalytic filter where a titanium dioxide (TiO_2) thin film of which a surface area is maximized by a chemical vapor deposition (CVD) method is coated to dissolve a volatile organic compound (VOC) existing in a gas form to be removed from a surface of the titanium dioxide thin film.

Description

Vehicle air purifier{CAR AIR PURIFIER}

The present invention relates to an air purifier for a vehicle, and in particular, a gas form on the surface of a titanium dioxide thin film by irradiating ultraviolet rays to a photocatalytic filter coated with _{a titanium dioxide (TiO 2) thin film that maximizes the surface area by a CVD (chemical vapor deposition) method.} It relates to an air purifier for a vehicle employing a method of decomposing and removing volatile organic compounds (VOC) present in the furnace.

In general, air purifiers control indoor air without self-cleaning capability through control of harmful and pollutant substances in particulate or gaseous form, antibacterial, deodorization or supply of negative ions, etc. to control indoor air quality (IAQ : Indoor Air Quality).

Air purifiers can be divided into mechanical, electric, and complex types according to the dust collection method, and each method can be classified into various detailed methods. The core of air purifier technology lies in the filter system, and different principles are applied to each method.

Air purifiers can be classified into household, vehicle and portable depending on their use. In particular, in the case of vehicle air purifiers, the demand for air purification in situations such as external activities and vehicle movement is increasing, and the release of portable and small devices is increasing.

However, in the conventional vehicle air purifier, since indoor air pollutants mainly exist as suspended substances in the form of gases or particles, it is difficult to completely remove it with the existing internal ventilation facilities, so a separate air purification facility is essential to improve removal efficiency. In addition, there was a problem that the removal efficiency of volatile organic compounds existing in gaseous form was low.

[Patent Document 1] Korean Utility Model Publication No. 1997-29048 (Publication date: July 24, 1997)

Therefore, the present invention has been made in view of the above points, and an object of the present invention is to eliminate the need for a separate air purification facility for removing suspended substances in the form of gases or particles, and the removal efficiency of volatile organic compounds present in gaseous form is improved. It is an object of the present invention to provide an improved, vehicle air purifier.

In order to achieve the above object, the vehicle air purifier according to the embodiment of the present invention is a pretreatment configured to filter dust contained in the air introduced through the air intake unit by the suction force of the air intake fan by the inertia and diffusion principle of the particles. filter; An activated carbon filter configured to absorb and remove odors and harmful gases by receiving the air filtered by the pretreatment filter; A HEPA filter configured to remove fine dust or viruses by receiving the air filtered by the activated carbon filter; And by receiving the air filtered by the HEPA filter and receiving ultraviolet rays irradiated from the UV irradiation device, it photodecomposes volatile organic compounds that exist in gaseous form, and performs photooxidation reduction, sterilization, antibacterial and deodorizing functions of air pollutants. It characterized in that it comprises a; photocatalytic filter configured to be drawn out through the air outlet.

In the vehicle air purifier according to the embodiment, the photocatalytic filter may be coated with a titanium dioxide (TiO2) thin film whose surface area is maximized by a CVD (chemical vapor deposition) method.

In the vehicle air purifier according to the embodiment, the power supplied to the air intake fan and the UV irradiation device uses power supplied from the vehicle battery when the vehicle is started, and by a solar cell when the vehicle is turned off. Electric energy produced and stored in the storage battery can be used.

According to an exemplary embodiment of the present invention, there is provided a vehicle air purifier comprising: a pretreatment filter configured to filter dust contained in air introduced through an air intake unit by a suction force of an air intake fan according to a principle of inertia and diffusion of particles; An activated carbon filter configured to absorb and remove odors and harmful gases by receiving the air filtered by the pretreatment filter; A HEPA filter configured to remove fine dust or viruses by receiving the air filtered by the activated carbon filter; And by receiving the air filtered by the HEPA filter and receiving ultraviolet rays irradiated from the UV irradiation device, it photodecomposes volatile organic compounds that exist in gaseous form, and performs photooxidation reduction, sterilization, antibacterial and deodorizing functions of air pollutants. By including a photocatalytic filter configured to be drawn out through the air discharge unit, a separate air purification facility is not required to remove suspended solids in the form of gas or particles, and the removal efficiency of volatile organic compounds present in gaseous form is improved. There is an excellent effect that it can be.

1 is a control block diagram of an air purifier for a vehicle according to an embodiment of the present invention.
FIG. 2 is a view comparing the shape of a thin film formed by a CVD (chemical vapor deposition) method and a shape of a thin film formed by a conventional sol-gel method when forming a thin film coated on the photocatalytic filter of FIG. 1.

In describing the embodiments of the present invention, when it is determined that a detailed description of known technologies related to the present invention may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of users or operators. Therefore, the definition should be made based on the contents throughout the present specification. The terms used in the detailed description are only for describing the embodiments of the present invention, and should not be construed as limiting. Unless explicitly used otherwise, expressions in the singular form include the meaning of the plural form. In the present description, expressions such as "comprising" or "feature" are intended to refer to certain features, numbers, steps, actions, elements, some or combination thereof, and one or more It should not be construed as excluding the presence or possibility of other features, numbers, steps, actions, elements, any part or combination thereof.

In each system shown in the drawings, the elements in some cases each have the same reference number or a different reference number, suggesting that the elements represented may be different or similar. However, elements may have different implementations and operate with some or all of the systems shown or described herein. The various elements shown in the figures may be the same or different. Which is referred to as the first element and which is referred to as the second element is arbitrary.

In the present specification, "transmitting", "transmitting" or "providing" data or signals from one component to another component means that one component directly transmits data or signals to another component, as well as It includes transmitting data or signals to other components through at least one other component.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

1 is a control block diagram of an air purifier for a vehicle according to an embodiment of the present invention.

The air purifier for a vehicle according to an exemplary embodiment of the present invention, as shown in FIG. 1, includes a pretreatment filter 100, an activated carbon filter 200, a HEPA filter 300, and a photocatalytic filter 400.

The pretreatment filter 100 filters dust contained in the air introduced through the air intake unit I by the suction force of the air intake fan F by the inertia and diffusion principle of the particles, and draws it out to the activated carbon filter 200. It plays a role. The pretreatment filter 100 has high dust collection efficiency.

The active car phone filter 200 serves to receive the air filtered by the pretreatment filter 100 and adsorb and remove odors and harmful gases. The active car phone filter 200 has a high porosity and adsorbs organic compounds.

The HEPA filter 300 serves to remove fine dust or viruses by receiving air filtered by the activated carbon filter 200. The HEPA filter 300 has a structure similar to a net to allow air to pass through and prevent the passage of particulates. It is mainly manufactured by compressing glass fibers, and its performance varies depending on the fiber diameter or filter thickness. It is wrinkled so that the collecting area of the particles is widened and is protected with a partition. The HEPA filter also filters pollen and cigarette smoke, including fine dust, and microbes such as fungi, bacteria, and viruses caught in the filter can also be destroyed due to lack of moisture.

The photocatalytic filter 400 receives the air filtered by the HEPA filter 300, receives ultraviolet rays irradiated from the UV irradiation device 500, and photodecomposes the volatile organic compounds (V0C) existing in the form of gas and atmosphere. It functions as photo-oxidation reduction, sterilization, antibacterial and deodorization of pollutants, and the purified air is withdrawn through the air outlet (O). The photocatalytic filter 400 is coated with _{a titanium dioxide (TiO 2} ) thin film that maximizes the surface area by a CVD (chemical vapor deposition) method. Since the photocatalytic filter 400 is formed in a needle shape by the CVD method, as shown in FIG. 2, the surface area of the photocatalytic filter 400 is tens of times more than a thin film formed by a coating method such as a conventional sol-gel method. As it was increased, the purification capacity was remarkably improved compared to the prior art.

Power supplied to the air intake fan (F) and the UV irradiation device 500 uses power supplied from the vehicle battery when the vehicle is started, and electricity produced by the solar cell when the vehicle is turned off and stored in the storage battery. Use energy.

According to the air purifier for a vehicle according to an embodiment of the present invention configured as described above, the pretreatment filter configured to filter dust contained in the air introduced through the air intake unit by the suction force of the air intake fan according to the principle of inertia and diffusion of particles; An activated carbon filter configured to absorb and remove odors and harmful gases by receiving the air filtered by the pretreatment filter; A HEPA filter configured to remove fine dust or viruses by receiving the air filtered by the activated carbon filter; And by receiving the air filtered by the HEPA filter and receiving ultraviolet rays irradiated from the UV irradiation device, it photodecomposes volatile organic compounds that exist in gaseous form, and performs photooxidation reduction, sterilization, antibacterial and deodorizing functions of air pollutants. By including a photocatalytic filter configured to be drawn out through the air discharge unit, a separate air purification facility is not required to remove suspended substances in the form of gases or particles, and the removal efficiency of volatile organic compounds present in gaseous form is improved. Can be

In the drawings and specification, an optimal embodiment has been disclosed, and specific terms are used, but these are used only for the purpose of describing the embodiments of the present invention, and are used to limit the meaning or the scope of the present invention described in the claims. Was not done. Therefore, those of ordinary skill in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

100: pretreatment filter
200: activated carbon filter
300: HEPA filter
400: photocatalytic filter
500: UV irradiation device
I: air intake
O: air outlet
F: air intake fan

Claims (3)

A pretreatment filter 100 configured to filter dust contained in the air introduced through the air intake unit I by the suction force of the air intake fan F by the inertia and diffusion principle of the particles;
An activated carbon filter 200 configured to absorb and remove odors and harmful gases by receiving the air filtered by the pretreatment filter;
A HEPA filter 300 configured to remove fine dust or viruses by receiving the air filtered by the activated carbon filter; And
The air filtered by the HEPA filter is introduced, and UV irradiated by the UV irradiation device 500 is applied to photo-decompose volatile organic compounds (V0C) existing in gaseous form, as well as photo-oxidation reduction, sterilization, and antibacterial of air pollutants. And a photocatalyst filter 400 configured to perform a deodorizing function and to be drawn out through the air outlet (O).
The method of claim 1,
The photocatalytic filter is
An air purifier for vehicles coated with a thin film of _{titanium dioxide (TiO 2} ) that maximizes the surface area by CVD (Chemical Vapor Deposition).
The method of claim 1,
Power supplied to the air intake fan and the UV irradiation device is
When the vehicle is started, the power supplied from the vehicle's battery is used.
When the vehicle is turned off, it is produced by solar cells and uses the electric energy stored in the storage battery.

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