KR200269010Y1 - Air cleaner - Google Patents

Abstract

The present invention relates to an air purifier using a barrier discharge employing a barrier plasma generator, the barrier plasma generator (1) and the prefilter 10 and the barrier plasma generator (1) behind the dust collector (20) and the rear thereof. The barrier plasma generator 1 has a copper plate 2 on one side and a steel wire 3 on the opposite side, and an insulating material between the copper plate 2 and the steel wire 3. Is filled and a large amount of electricity is released into the air by a high potential difference between the steel wire (3) and the copper plate (2)-the electrically charged fine dust is adsorbed to the dust collecting plate by the electrostatic attraction to use the conventional corona discharge The discharge area is increased than the air cleaner to increase the discharge efficiency, and the size of the air cleaner can be reduced by increasing the discharge efficiency.

Description

Air cleaner using barrier discharge {Air cleaner}

The present invention relates to an air cleaner using a barrier discharge employing a barrier plasma generator.

Conventional air purifiers use corona discharges, but their power consumption is high due to their low efficiency and high voltage requirements.

An object of the present invention is to provide an air purifier using a barrier discharge employing a barrier plasma generator in order to compensate for the above disadvantages.

The air purifier of the present invention is composed of a barrier plasma generator, a prefilter in front of the barrier plasma generator, a dust collector in the rear of the barrier plasma generator, and a deodorization filter in the rear thereof. The barrier plasma generator has a copper plate on one side and a steel wire on the opposite side. Insulation material is filled between the steel wires.

1 shows a barrier plasma generator of the present invention.

2 is a diagram illustrating a configuration of a first air cleaner of the present invention.

3 is a diagram illustrating a configuration of a second air cleaner of the present invention.

4 is a diagram illustrating a configuration of a third air purifier of the present invention.

5 is a diagram illustrating a configuration of a fourth air cleaner of the present invention.

<Brief description of symbols for the main parts of the drawings>

1: barrier plasma generator 10: pre-filter

20: dust collector 30: deodorizing filter

40: HEPA filter 50: ozone / anion generator

60 photocatalytic reactor 70 ozone generator

80: negative ion generator

The present invention will be described in detail with reference to the accompanying drawings.

1 shows a barrier plasma generator of the present invention, the barrier plasma generator 1 having a box shape, having a copper plate 2 on one side and a plurality of steel wires 3 on the opposite side.

The number of steel wires 3 is determined by finding the most efficient condition through a discharge efficiency test with respect to power.

An insulating material is filled between the copper plate 2 and the steel wire 3, and the interval between the copper plate 2 and the steel wire 3 is determined by finding an optimum condition. As the insulating material, for example, glass fiber may be used.

The barrier discharge method is such that the electricity is applied to the steel wire 3 to become the electrode and the + electricity is applied to the copper plate 2 to be the + electrode.

Due to the high potential difference between the steel wire 3 and the copper plate 2, a large amount of electricity is released into the air-the electrically charged fine dust is adsorbed to the dust collecting plate described next by electrostatic attraction.

The barrier discharge method increases the discharge area by increasing the discharge area than the conventional corona discharge, and the size of the air cleaner can be reduced by increasing the discharge efficiency, thereby facilitating the design. Barrier discharges also save power compared to corona discharges.

Barrier plasma generators can achieve the ozone generating effect without a separate ozone generator, and the filter life is extended by reducing the number of filters and discharging most of the fine dust with a discharge device, so the replacement cycle is more than doubled.

2 shows a configuration of the first air purifier of the present invention, in which a precipitator 20 and a deodorizer behind the prefilter 10 and the barrier plasma generator 1 are deodorized behind the barrier plasma generator 1 and the front of the barrier plasma generator 1. It consists of a filter 30.

The air purifier discharges clean air by introducing air in the room. In the present invention, an illustration of a blower for introducing air is omitted.

The pre-filter 10 primarily filters the dust of the air flowing into the air purifier, and the dust collector 20 collects the electrically charged fine dusts passing through the barrier discharge zone by electrostatic attraction and deodorizes the filter. (30) eliminates the smell of harmful gases, tars, nicotine, as well as various food smells.

The prefilter 10, the dust collector 20, and the deodorization filter 30 are commercially available and will not be described in detail.

3 shows a configuration of a second air purifier of the present invention,

It consists of the barrier plasma generator 1, the deodorizing filter 30, the HEPA filter 40, and the ozone / anion generator 50. As shown in FIG.

The HEPA filter 40 adsorbs up to 99.97% of fine dust in the air, and the ozone / anion generator 50 generates negative ions in the purified air through several steps to supply clean air to the room, such as in the forest. .

The HEPA filter 40 and the ozone / anion generator 50 are commercially available and will not be described in detail.

4 shows a configuration of a third air purifier of the present invention, which includes a barrier plasma generator 1, a photocatalytic reactor 60, a deodorization filter 30, a HEPA filter 40, and an ozone / anion generator 50. It is composed.

The photocatalytic reactor 60 is capable of completely decomposing VOC and NO _x in the air by oxidation and reduction reactions by electrons and holes generated in the catalyst with optical energy using a TiO ₂ catalyst layer and an ultraviolet lamp, and functioning to sterilization. .

The photocatalytic reactor 60 is used and will not be described in detail.

5 shows a configuration of a fourth air cleaner of the present invention, which is comprised of a barrier plasma generator 1, a photocatalytic reactor 60, an ozone generator 70, a deodorization filter 30, and an anion generator 80. .

The barrier plasma generator 1 and the ozone generator 70 are connected in parallel to control excessive ozone generation without additional equipment.

The ozone generator 70 and the negative ion generator 80 are commercially available and will not be described in detail.

Such an air purifier has twice the dust collecting effect by the barrier plasma generator 1 and the ozone generator 70 and can generate more negative ions and ozone from the secondary discharger.

In addition, semi-permanent air purifiers are manufactured by substantially reducing the use of filters.

The air purifier using the barrier discharge configured as described above increases the discharge area by increasing the discharge area than the conventional air cleaner using the corona discharge, and can reduce the size of the air cleaner by increasing the discharge efficiency. Barrier discharges also save power compared to corona discharges.

Claims (2)

It has a box shape, has a copper plate 2 on one side, a plurality of steel wires 3 on the opposite side, and an insulating material is filled between the copper plate 2 and the steel wire 3, An air purifier using a barrier discharge having a barrier plasma generator configured to apply-to become an electrode and to apply + electricity to the copper plate 2 to become an electrode. delete