KR200317757Y1 - sterilization device of the air - Google Patents

Abstract

The present invention relates to a device for sterilizing airborne bacteria and drug-resistant bacteria that can effectively sterilize airborne bacteria and drug-resistant bacteria.

The present invention comprises the first to third chambers (30-50) and the water tank (8) installed in the lower portion thereof, induces the growth of bacteria contained in the air to induce the growth of bacteria during cell division It is useful as a germicidal device in the air at home by cutting ultraviolet rays through the UV lamp (3) to the cell protective film to penetrate copper ions and photocatalytic titanium oxide to more effectively sterilize the bacteria living in the air. It can be used.

Description

Sterilization device of airborne bacteria and drug-resistant bacteria

The present invention relates to an apparatus for sterilizing bacteria inhabiting air, and more particularly, to an apparatus for sterilizing airborne bacteria and drug-resistant bacteria in air to effectively sterilize airborne bacteria and drug-resistant bacteria.

In general, various kinds of bacteria live in the air, and in daily life, people usually inhale these bacteria without any filtration, which is a very bad effect on the health of the elderly.

Recently, various air purifiers have been proposed to solve these drawbacks, and they have been used a lot in real life.

However, such a conventional air purifier has a drawback in that airborne bacteria and chemically resistant bacteria cannot be completely removed.

The present invention is to solve the conventional problems as described above, the object of the present invention, airborne bacteria and chemical resistance bacteria inhabiting in the air to effectively sterilize through a photocatalytic ceramic filter and ultraviolet lamp, etc. To provide a suspension of bacteria and drug resistant bacteria sterilization.

In particular, the present invention induces the growth of bacteria that live in the air, and during the cell division, air can be applied to the cell protective film of bacteria to injure the wound, and at the same time, to penetrate copper ions and photocatalyst titanium oxide to perform sterilization more effectively. To provide a suspended bacteria and drug resistant bacteria sterilization apparatus.

1 is a schematic configuration diagram of the airborne bacteria and drug-resistant bacteria sterilization device in the present invention

2 is a front view of the present invention

3 is a side view of the present invention

<Explanation of symbols for main parts of drawing>

1: Blow and 1A: Prefilter

2: air passage 3: ultraviolet lamp

4: Photocatalyst Ceramic Filter 5: Pressure Chamber

6: Electron valve for drain piping 7: Air inlet pipe

8: Water tank 9: Tank connection pipe

10: water supply solenoid valve 11, 17: pressure valve

12: Water level sensor 13: Ground

15: fixing nut 16: rod

18: Spring 19: Reduction ceramic

20: connection head 21: static electricity generating film

22: injection heater 23: silicone packing

The present invention for achieving the above object is a blower (blower) for sucking air, a pre-filter for first filtering the air sucked in the blower, and generates static electricity by friction with the sucked air The electrostatic generating film is provided on one side of the first chamber to increase the potential of the air, and the mobile passage through which the air having the increased potential moves through the electrostatic generating film moves to the cell protective film of bacteria contained in the air at high pressure. Pressure chamber to generate copper ions from the pure copper inside, an ultraviolet lamp installed in the pressure chamber to generate ultraviolet rays, a photocatalytic ceramic filter installed at the bottom of the ultraviolet lamp and reacting to increase the density of air and cations A first chamber and a second chamber each having the same configuration as a pressure valve for; on one side of the second chamber A third chamber provided with a reducing ceramic for reducing the air oxidized by the process and discharging it to the outside; It is installed in the lower portion of the first chamber to the third chamber, the water level sensor for adjusting the water level, the electronic valve for water supply, the connection head for balancing the water level, the input heater for increasing the temperature of the water to increase sterilization effect It is characterized by consisting of an included water tank.

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

1 is a perspective view of the present invention, Figure 2 is a front view, Figure 3 is a side view.

The present invention is composed of the first chamber 30, the second chamber 40, the third chamber 50 and the water tank 8 installed in the lower portion thereof, the first chamber 30 and the second chamber 40 is made of the same structure.

The invention devises static electricity while rubbing with a blower (1) for sucking air, a prefilter (1A) for firstly filtering the sucked air installed in the blower (1), and the sucked air. An electrostatic generating film 21 for increasing the potential of air is provided at one side of the first chamber 30.

The first chamber 30 and the second chamber 40 have the same structure, the movement passage 2 through which the air whose potential is raised through the electrostatic generating film 21 moves, and in the air at high pressure. A pressure chamber 5 which applies pressure to the cell protective film of the bacteria contained therein and generates copper ions from the inner copper copper, an ultraviolet lamp 3 installed in the pressure chamber 5 to generate ultraviolet rays, and the ultraviolet lamp It is comprised by the photocatalyst ceramic filter 4 provided in the lower end of (3), and responding to a lamp, and the pressure valve 11 for increasing the density of air and cation.

The water tank (8) has a water level sensor (12) for adjusting the water level, a plurality of connection heads (20) installed at the bottom to balance the water level in the water tank (8), and sterilizing effect by raising the temperature of the water. It is configured to include an input heater 22 to increase the.

In addition, at the end of the third chamber 50, a reducing ceramic 19 and a silicon packing 23 are installed to reduce the air oxidized by the previous process and discharge it to the outside.

In the figure, reference numeral 7 denotes an air inlet pipe.

Referring to the operation of the present invention configured as described above are as follows.

First, when the operation button is turned on, the blower 1 is driven and air in the room is introduced into the sterilizer through the prefilter 1A.

The air introduced in this way generates static electricity while rubbing the inside of the pipe and the static electricity generating film 21, thereby increasing the potential.

In addition, the air whose potential rises by the static electricity generating film 21 moves through the air passage 2 of the first chamber 30 and reaches the ultraviolet lamp 3.

At this time, strong copper ions are emitted from the pure copper inside the pressure chamber 5 due to the ultraviolet rays having a wavelength of 254 nm and the heat generated from the ultraviolet lamp 3, and the copper ions are wound by the ultraviolet rays. Penetrates into the cells of bacteria.

And by maintaining the partial pressure of oxygen from the humidity of the water tank (8) to maximize the function of the photocatalyst titanium oxide supported on the ceramic filter (4), by increasing the density of air and cations by the pressure valve (17) to electronic nutrition The cell protective membrane of the microorganism based is loosened for the propagation by the cation, and the ultraviolet rays are cut by the cell protective membrane of the loosened bacteria and wounded.

In addition, by increasing the pressure in the pressure chamber 5 to pressurize the cell membrane of the bacteria formed in the air by the differential pressure from the outside, the ions of the phosphorus and lipid layer break down the pressure of the cell membrane and the copper ion and photocatalyst through the wound caused by ultraviolet rays Titanium oxide easily penetrates into the cell protective layer.

Here, the copper ions and the photocatalyst have an increased air density, thereby increasing the rate and amount of energy transfer to the object to be delivered, where energy (E) = m (mass) c (velocity) ² .

As such, the air passing through the ceramic filter 4 and the pressure chamber 5 of the first chamber 30 moves downward to pass through the active water of the water tank 8.

At this time, the water tank (8) is filled with water of PH 8 or more activated by the ceramic so that when the air passes through the water, the cells of the weakened bacteria in the air is attacked again.

Here, the ground (13) terminal is provided in the water tank (8) to release the potential of the elevated air, and the water level sensor at a predetermined position as a means for maintaining the water level of the water tank (8) at a constant level. 12) and a water supply electronic valve 10 are provided.

At this time, the electronic valve 10 is automatically turned on when the water level of the water sensed by the water level sensor 12 is low to supply water into the water tank 8.

And in order to balance the water level in the water tank (8), a connection head (20) is provided on the bottom of the water tank (8).

The water tank (8) is divided into three parts, but because they are connected to each other, even if the water level is measured in one place, each level is the same.

On the other hand, after passing through the first chamber 30, air containing more weakened bacteria in the water of the water tank 8 passes through the second chamber 40.

The second chamber 40 is configured in the same structure as the first chamber 30, so that the air passing through the first chamber 30 passes through the air passage of the second chamber 40 once again to the ultraviolet lamp and the ceramic. Pass through filter, pressure valve, etc.

Then, the air passing through the second chamber 40 passes through the water tank 8 again and moves to the third chamber 50 in a state where bacteria are completely removed.

The third chamber 50 is provided with a silicon packing 23 and a reducing ceramic 19, and the air oxidized by the above process is discharged to the outside in a reduced state.

In addition, when air is discharged from the sterilizer to the atmosphere, anion is generated by the active water of the reducing ceramic 19 and the water tank 8.

On the other hand, the present invention is that the water supply electron valve 10 and the drain electron valve (6) is installed on one side and the other side of the sterilizer, respectively, can easily supply water through these electron sides (10) (6) as well as during water exchange Edo can be easily discharged to the outside, so there is no need to replace the filter.

In addition, in the process of washing air with water, molecular binding chains such as nitrogen oxides, carbon dioxide, tobacco smoke, and odors in the air are broken by the active energy of the active water and dissolved or precipitated in the water.

In addition, when heavy metal dust in the air is in contact with water, the density of the material is high, so that it is attracted to the water and settles in the water, thereby removing heavy metal dust.

In addition, according to the present invention, volatile organic compounds (Volatile Organic Compound), formaldehyde and the like are decomposed by three times of photocatalytic ceramic filter contact.

In addition, the rod 16 is fixed by the fixing nut 15 and the spring 18 is installed on the opposite side in order to tension the pressure valve 17 so that the valve opens at a predetermined pressure.

The function of the pressure valves 11 and 17 is the same, but the rebound energy is different due to the difference in the energy between the initial pressure and the re-pressure of the wind tunnel. It is desirable to select a pressure valve.

The present invention as described in detail above can obtain a health humidification effect not exceeding the absolute saturated steam pressure due to natural evaporation due to the activity of water in the water tank.

In addition, the present invention damages the cell surface of bacteria caused by ultraviolet rays at a wavelength of 254 nm, increases the pressure in the pressure chamber, thereby disintegrating the cell protective membrane by differential pressure, and penetrates the inside of the copper ions to permeate the inside while disturbing the inside. Exposure to ceramics promotes degradation and is then immersed in active water to stimulate the scars of the less dead bacteria's protective film, then repeating the same action twice, followed by Legionella, Staphylococcus aureus, Enterococcus, 0-157 Escherichia coli, and Pseudomonas aeruginosa. It is effective to sterilize bacteria and airborne bacteria, such as chemical resistance.

Claims (1)

Blower (1) for sucking air, pre-filter (1A) for filtering the air sucked in the blower (1), for raising the potential of the air by generating static electricity while rubbing with the sucked air Electrostatic generating film 21 is provided on one side of the first chamber 30, The pressure passage which pressurizes the mobile passage 2 through which the air whose potential rises through the electrostatic generating film 21 moves, the cell protective film of bacteria inhabiting the air at high pressure, and generates copper ions from pure copper inside (5), an ultraviolet lamp (3) installed in the pressure chamber (5) to generate ultraviolet rays, a photocatalyst ceramic filter (4) installed at a lower end of the ultraviolet lamp (3) for reacting the photocatalyst titanium oxide, air and A first chamber 30 and a second chamber 40 each having the same configuration as the pressure valve 11 for increasing the density of the cations; A third chamber 50 installed at one side of the second chamber 40 and provided with a reducing ceramic 19 for reducing the air oxidized by the reaction of the previous process and discharging it to the outside; It is installed in the lower portion of the first chamber to the third chamber (30-50), the water level sensor electronic valve 12 and the water supply electronic valve 10 for adjusting the water level, the connection head 20 for balancing the water level, Airborne bacteria and drug-resistant bacteria sterilization device in the air, characterized in that it comprises a water tank (8) containing an input heater 22 to increase the temperature of the water to increase the sterilization effect.