KR20050078142A - Air purification apparatus - Google Patents

Abstract

The present invention relates to an air purifier, wherein an air inlet port and an air outlet port are formed, and a flow path extending from the air inlet port to the air outlet port is provided at a predetermined length, and is installed at the air outlet port to blow air from the air inlet direction toward the air outlet port. And an ozone lamp provided along the longitudinal direction of the flow path on the flow path in the housing, and an ultraviolet lamp provided on the flow path between the ozone lamp and the blow fan in the housing. According to such an air purifier, the structure is simple and the sterilization and deodorization efficiency can be increased, and the amount of residual ozone can be reduced.

Description

Air purification apparatus

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air purifier, and more particularly, to an air purifier capable of reducing the amount of residual ozone while increasing sterilization and deodorization efficiency.

The air purification structure for sterilizing and deodorizing polluted air includes a filter method using a filter having high adsorption of harmful substances such as activated carbon, an ultraviolet radiation method that emits sterilizing ultraviolet rays, and ozone that emits ozone having sterilization and deodorization properties. Emission systems or mixing systems in which these are combined are used.

Examples of a mixed method in which the ultraviolet irradiation method and the ozone emission method are applied are disclosed in Korean Utility Model Registration No. 0182607, Korean Utility Model Registration No. 0265613, and Korean Utility Model Registration No. 0329780.

These devices have a structure in which ultraviolet lamps and ozone lamps or ozone generators are arranged in parallel to each other in the same space.

On the other hand, ozone, which has sterilization and deodorization functions, has been identified as a cause of photochemical smog, and is known to cause respiratory disorders when inhaled by the human body. The amount of ozone used should be such that it is not harmful to humans or to living things such as livestock.

Therefore, considering that the decomposition time of ozone in the natural state is about 2 to 6 hours at room temperature, in the case of an air purifier that introduces air at a constant speed by a fan, a short time for the purifying air to pass through the purifier In other words, ozone must be sufficiently decomposed within seconds.

However, the above-described conventional apparatuses are disposed in the purified air because the decomposition rate of ozone generated by the ozone lamp or the ozone generator is lowered because the ozone lamp or the ozone generator and the ultraviolet lamp are disposed opposite to each other in the same space. The ozone residual amount is high, and there is a disadvantage in that the sterilization and deodorization efficiency is lowered.

The present invention was devised to improve the above problems, and an object thereof is to provide an air purifier having a structure capable of reducing the amount of residual ozone while increasing sterilization and deodorization efficiency.

In order to achieve the above object, an air purifying apparatus according to the present invention includes: a housing having an air inlet and an air outlet formed therein and having a predetermined length of a passage leading from the air inlet to the air outlet; A blower fan installed at the air outlet port to blow air from the air inlet toward the air outlet port; an ozone lamp installed along the length direction of the flow path on the flow path in the housing; And an ultraviolet lamp provided on a flow path between the ozone lamp and the blowing fan in the housing.

Preferably, at least one flow path guide plate is installed to narrow the flow path of the housing in a direction crossing the flow path and has a hole formed larger than the diameter of the ultraviolet lamp so that the ultraviolet lamp can pass therethrough. do.

In addition, it is preferable that the ozone lamp emits light having a wavelength of 184.9 nanometers and 253.7 nanometers, and the ultraviolet lamp emits light having a wavelength of 253.7 nanometers.

Hereinafter, an air purifier according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view illustrating an air purifier according to the present invention, and FIG. 2 is a cross-sectional view of a combined air purifier of FIG. 1.

Referring to the drawings, the air purifier 10 includes a housing 11, 12, a blowing fan 17, an ozone lamp 21, an ultraviolet lamp 25, and a flow path guide plate 27.

The housings 11 and 12 are formed of a lower case 11 and a lid 12 which are formed to be separated and coupled to each other by a coupling member such as a bolt 15 in consideration of the interchangeability of the lamps 21 and 25. have.

As for the housings 11 and 12, stainless steel, which is a material having high corrosion resistance to ozone, is preferably applied. In the case of stainless, SUS 304 or SUS 316 is preferably applied.

An air inlet 11a is formed at the front of the lower case 11, and an air outlet 11b is formed at the rear of the lower case 11.

The blowing fan 17 is provided in the lower case 11 adjacent to the air outlet 11b.

The ozone lamp 21 is provided in the air inlet 11a side of the lower case 11 along the flow path which becomes the movement direction of air. Reference numeral 22 is a lamp holder, and reference numeral 23 is a ballast.

The ozone lamp 21 can be applied that can mainly emit light of the wavelength band of 184.9nm with high ozone generating efficiency.

Preferably, the ozone lamp 21 is preferably one that can emit light with a wavelength of 253.7 nm, which is a high sterilizing power, and a wavelength of 184.9 nm, which has a high ozone generating efficiency.

The ultraviolet lamp 25 is provided between the ozone lamp 21 and the blowing fan 17.

The ultraviolet lamp 25 is one capable of mainly emitting light of 253.7 nm, which has a high sterilizing power and a high ozone resolution. Reference numeral 26 is a lamp holder.

The ozone lamp 21 and the ultraviolet lamp 25 can be manufactured so that desired short wavelength light or light of a plurality of wavelengths can be emitted by appropriately adjusting the type and mixing ratio of the gas injected into the glass tube.

The flow guide plate 27 is provided between the ultraviolet lamps 25.

The flow path guide plate 27 narrows the flow path so that the contaminated air introduced through the air inlet 11a sufficiently stays in the housings 11 and 12 while increasing the contact efficiency with the lamps 21 and 25. It is provided so that an airflow may be formed toward (21) and (25).

The flow path guide plate 27 is provided in the lower case 11 so that portions other than the holes 27a can block the flow path.

Moreover, the ultraviolet lamp 25 penetrates and is installed between the holes 27a of the flow guide plate 27.

Operation to interrupt the power supply line from the power cord to the lamps 21 and 25 through the ballast 23 and the lamp holders 22 and 26 and the power supply to the lamps 21 and 25 and the blowing fan 17. The switch is omitted.

In addition, it is a matter of course that a timer can be installed to operate the power supply to the lamp 21, 25 according to a set time.

Look at the operation of the air purifier of this structure.

When the blower fan 17 is operated, air is sucked through the air inlet 11a, and the air sucked into the housing 11 and 12 is first absorbed by the 184.9 nm wavelength of light emitted from the ozone lamp 21. It is generated and sterilized and deodorized, and sterilized by light having a wavelength of 253.7 nm.

The undecomposed ozone in the ozone generated in this process is moved along the flow path leading to the ultraviolet lamp 25 by the airflow, and the ozone is decomposed by the light of the 253.7 nm wavelength emitted from the ultraviolet lamp 25 to generate OH radicals. Create As is known, OH radicals have significantly higher bactericidal properties than ozone.

Therefore, in the process of passing through the passage in which the ultraviolet lamp 25 is installed, the residual ozone is mostly decomposed to generate OH radicals, and the air contaminated with the outside is sterilized and deodorized secondarily. As a result, the purified air passed through the air purifier 10 is mainly oxygen, OH radicals, and ozone can be reduced to less than 0.1 ppm.

In the air purifier 10 having such a structure, contaminated air passes through the ozone lamp 21 and the ultraviolet lamp 25 sequentially, so that the OH radiator is disposed in a conventional manner in which the ozone lamp and the ultraviolet lamp are disposed in parallel. It was confirmed that curling efficiency and sterilization deodorization efficiency were much better.

As described so far, the air purifier according to the present invention provides a simple structure, but can increase sterilization and deodorization efficiency and reduce the amount of residual ozone.

1 is an exploded perspective view showing the separation of the air purifier according to the present invention,

FIG. 2 is a combined cross-sectional view of the air cleaner of FIG. 1.

<Description of Symbols for Major Parts of Drawings>

10: air purifier 11: lower case

12: cover 17: blowing fan

21: ozone lamp 25: ultraviolet lamp

Claims (3)

A housing having an air inlet port and an air outlet port, the flow passage leading from the air inlet port to the air outlet port having a predetermined length; A blowing fan installed at the air outlet side to blow air from the air inlet toward the air outlet; An ozone lamp disposed along the longitudinal direction of the flow path on the flow path in the housing; And an ultraviolet lamp provided on a flow path between the ozone lamp and the blower fan in the housing. The apparatus of claim 1, further comprising: at least one flow path guide plate provided to narrow the flow path of the housing along a direction crossing the flow path, the at least one flow path guide plate having a hole formed larger than the diameter of the ultraviolet light lamp so that the ultraviolet light lamp can penetrate; Air purifier, characterized in that it further comprises. The method of claim 1, The ozone lamp emits light of a wavelength of 184.9 nanometers and 253.7 nanometers, The ultraviolet lamp is an air purifier, characterized in that applied to emit light of a wavelength of 253.7 nanometers.