KR101591058B1 - Air sterilizer - Google Patents

Abstract

The present invention relates to an air sterilizer, wherein the air sterilizer includes a power supply unit for outputting discharge voltages of different sizes, and a power supply unit connected to the power supply unit and being spaced apart from each other on the same surface of the discharge plate and the discharge plate, And a discharge unit having first and second electrodes respectively receiving the applied discharge voltage. As a result, ozone and hydroxyl groups are generated, and the sterilization function is improved by the action of removing odors, decomposing bacteria, viruses and harmful substances.

Description

{AIR STERILIZER}

The present invention relates to an air sterilizer.

Closed spaces such as closets, shoehorns, kitchen countertops, vending machines, and toilets are places where hot and humid places like kitchens are in a good environment where bacteria, fungi, bacteria and other bacteria can reproduce. There were many difficulties.

Therefore, conventionally, a product using ultraviolet rays has been used for sterilization. However, due to the nature of light, there is a problem that light is cut off due to a thing or the like, and sterilizing operation using ultraviolet rays is not performed at a portion where light is not irradiated.

In addition, ultraviolet rays do not exhibit an effective sterilizing effect against fungi and fungi, and it is difficult to remove fungi and fungi, and thus, there is a problem that a bad smell removal effect can not be exhibited.

In addition, since a commercial power source such as 220V is used for the power source for irradiating the ultraviolet rays, the mobility is reduced and the use place is limited.

Furthermore, when the object to be sterilized is exposed to ultraviolet rays for a long time, discoloration or discoloration due to ultraviolet rays occurs.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

Another object of the present invention is to improve the portability of the air sterilizer.

The air sterilizer according to an embodiment of the present invention includes a power supply unit for outputting discharge voltages of different sizes and a power supply unit connected to the power supply unit and being spaced apart from each other on the same surface of the discharge plate and the discharge plate, And a discharge unit having first and second electrodes respectively receiving the discharge voltage.

Each of the first electrode and the second electrode may have a curved shape at least a part of an edge thereof.

The spaced distance between the first electrode and the second electrode may be between 2 mm and 5 mm.

The power supply unit may include a battery unit for outputting a DC voltage of a predetermined magnitude and a voltage converter for boosting the DC voltage output from the battery unit and outputting the discharge voltages of different magnitudes.

The battery unit may be a primary battery or a secondary battery.

According to this feature, ozone and hydroxyl groups are generated through the discharge operation to sterilize the air, so that the sterilizing power of the air is improved as compared with the case of using ultraviolet rays.

In addition, when both electrodes for generating a discharge are disposed on one surface of a discharge plate, which is a dielectric, discharge is stably generated and discharge power is lower than in the case where there is no discharge plate. do.

Further, since the air sterilizer is operated using the portable battery, the portability and mobility of the air sterilizer are improved.

1 is a block diagram of an air sterilizer according to an embodiment of the present invention.
2 (a) is a plan view of a discharge unit of the air sterilizer according to an embodiment of the present invention.
2 (b) is a cross-sectional view of the discharger shown in FIG. 2 (a) taken along line IIb-IIb.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

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

1, an air sterilizer according to an embodiment of the present invention includes a power supply unit 70 having a battery unit 10 for supplying a driving voltage and a voltage conversion unit 30 connected to the battery unit 10, A control unit 60 connected to the drive switch 20 and the voltage conversion unit 30 connected to the battery unit 10 and a discharge unit connected to the voltage conversion unit 30 of the power supply unit 70 40, and a ventilation fan 50 connected to the control unit 60.

The power supply unit 70 outputs discharge voltages of different sizes using the voltage of the set magnitude.

The battery 10 may be a portable battery, and may be a primary battery or a secondary battery that supplies a direct current (DC) voltage of a corresponding size.

The voltage converting unit 30 starts operation by a drive signal applied from the controller 60 and converts the DC voltage output from the charge unit 10 into an AC voltage and supplies a voltage required for operation of the discharge unit 40 And outputs the boosted AC voltage to the discharge unit 40 as a discharge voltage.

In this case, the discharge voltage applied to the discharge unit 40 is two voltages having different sizes, and the phases of the two voltages may be different from each other.

In addition, when the phases are opposite to each other, the absolute values of the two voltages applied to the discharger 40 may be equal to each other.

As described above, since the portable battery 10 is used as the driving power supply unit of the air sterilizer, not the commercial power supply, the portability of the air sterilizer is improved.

The drive switch 20 is an on / off switch that is turned on or off according to a user's operation. The drive switch 20 outputs a signal of a corresponding state to the controller 60 according to the on or off state.

The control unit 60 determines the operation state of the drive switch 20 and controls the operation of the voltage conversion unit 30 and the ventilation fan 50 according to the operation state of the drive switch 20. [

The discharging unit 40 discharges by voltages of different voltages outputted from the voltage converting unit 30 to generate ozone (O ₃ ) and hydroxyl (OH ^- ) for air sterilization.

As shown in FIG. 2, the discharge unit 40 includes first and second electrodes (not shown) spaced from each other at regular intervals on the same surface (e.g., upper surface) of the discharge plate 41 and the discharge plate 41 42a, 42b.

At this time, the voltages applied to the two electrodes 42a and 42b are different from each other as a discharge voltage output from the voltage converting unit 30, and the discharge between the two electrodes 42a and 42b due to the difference between the two voltages .

The discharge plate 41 is made of an insulating material such as ceramic or the like having excellent insulating property and functions as a dielectric.

The dielectric is also referred to as an insulator. When the object is in the vicinity of an object having a charge (large whole) or a line around which a voltage is applied, positive and negative charges induced by an external electric field are relatively small .

A discharge is generated along the surface of the discharge plate 41 exposed between the two electrodes 42a and 42b between the first and second electrodes 42a and 42b located on the same surface of the discharge plate 41 .

Therefore, when there is a discharge plate 41 functioning as a dielectric, the discharge is stably generated and the power consumption used for discharging is lower than in the case where the discharge plate 41 is not provided.

In this example, the discharge plate 41 has a plate shape having a rectangular planar shape, but may alternatively be a plate shape having a planar shape of another shape.

The first electrode 42a has a first portion a1 having a circular planar shape and a second portion a2 having a bar shape and being connected to the first portion a1 to have a substantially rectangular planar shape. Respectively.

Therefore, the edges of the first part a1 having a circular planar shape are curved, and the first electrode 42a has a curved part.

The second electrode 42b is spaced apart from the first electrode 42a by a predetermined distance D on the same surface of the discharge plate 41 on which the first electrode 42a is located, It is surrounded.

Therefore, the portion of the second electrode 42b facing the first portion a1 of the first electrode 42a is also curved, so that the second electrode 42b also has a curved portion.

As described above, since the first electrode 42a and the second electrode 42b are constantly spaced apart from each other by a predetermined distance D, the discharge plate 41 is exposed at the spaced apart portion.

The first and second electrodes 42a and 42b are connected to signal lines 431 and 432 connected to the voltage converting unit 30 and supplied with voltages of different magnitudes applied from the voltage converting unit 30 .

The first electrode 42a and the second electrode 42b are made of a conductive material such as copper or silver.

When a voltage having a different magnitude is applied to the first electrode 42a and the second electrode 42b, a gap is formed between the edge portion of the first electrode 42a and the edge portion of the second electrode 42b, A discharge is generated. For this discharge, the magnitude of the voltage applied to the first and second electrodes 42a and 42b may be several hundred volts (V).

At this time, since at least a part of the edge portions of the first and second electrodes 42a and 42a positioned to correspond to each other is curved, the discharge is generated along the shape of the curved portion.

Therefore, when the discharge is performed in such a curved portion, when the discharge is performed at the corner portion which is the angular portion, unlike the discharge is concentrated at the angular portion, the discharge is uniformly generated without being concentrated at a specific portion, Since it is oxidized and consumed more slowly than the angular part, the efficiency of the discharge can be maintained longer.

Also, as the distance D between the first electrode 42a and the second electrode 42b is smaller, a discharge reaction is actively generated, thereby increasing the amount of generated hydroxyl groups and the amount of ozone.

Therefore, as the distance D between the two electrodes 42a and 42b is smaller, the sterilizing effect is improved by the increased amount of oxygen and ozone, so the power consumption is also reduced.

For example, the distance D between the first electrode 42a and the second electrode 42b may be 2 mm to 5 mm.

When the spacing distance D is 2 mm or more, the rate at which the first and second electrodes 42a and 42a are oxidized is reduced, and when the spacing distance D is 5 mm or less, the power consumption is reduced.

Oxygen molecules (O ₂ ) and water molecules (H ₂ O) in the air are decomposed by the discharge operation between the first and second electrodes 42a and 42b and the ozone (O ₃ ) and the hydroxyl group (OH ^- The ozone (O ₃ ) and the hydroxyl group (OH ^- ) cause a sterilization action such as removal of odor, decomposition of bacteria, viruses and harmful substances.

In other words, after the by discharge operation digested with the two oxygen atoms (O) as Scheme and below the molecular oxygen (O ₂₎ in air, in combination with other oxygen molecules (O ₂₎ in the air again ozone (O ₃₎ .

O ₂ → O + O

O + O ₂ ? O ₃

This ozone (O ₃ ) has excellent oxidizing power and is reduced to oxygen molecules (O ₂ ), so there is no fear of secondary contamination. Before half-life (time required for half of the ozone amount to decompose into oxygen) Sterilization and the like.

In this example, the half-life of the generated ozone (O ₃ ) may be from 2 hours to 13 hours.

Since water molecules (H ₂ O) are present in the air, water molecules (H ₂ O) are converted into hydrogen ions (H ⁺ ) by the discharge between the first and second electrodes 42a and 42b according to the following reaction formula: And hydroxyl group (OH ^- ).

H ₂ O → H ⁺ + OH ^-

In addition, the water molecules (H ₂ O) is a decomposed generated hydrogen ions (H ⁺⁾ are ozone (O ₃₎ and ozone time to be created (O ₃₎ of oxygen atoms occurs when the be reduced to molecular oxygen (O ₂₎ (O) and converted into a hydroxyl group (OH ^- ) according to the following reaction formula.

O + H ^{+ -} OH ^-

The hydroxyl group (OH ^- ) produced by this action is a natural substance harmless to the human body. The hydroxyl group (OH-) state is an unstable state with one electron (e-) and interacts with the pest, H ₂ O) and carbon dioxide (CO ₂ ).

In addition, hydroxyl group (OH-) is combined with the bacteria and the hydrogen ions in the plasma membrane of the virus (H ⁺⁾ by reduction with a water (H ₂ O) sikimyeo death by destroying the cell membrane, the oxidizing power is too stronger than ozone (O ₃₎ .

Therefore, since the air sterilization operation is performed using not only the ozone (O ₃ ) but also the hydroxyl group (OH ^- ), the sterilizing effect of the air sterilizer of this embodiment is improved.

As described above, the hydroxyl group (OH ^-) are generated by the water molecule (H ₂ O) is decomposed, and the water molecules (H ₂ O) is a decomposed generated hydrogen ions (H ⁺⁾ and ozone (O ₃₎ to create therefore be time ozone (O ₃₎ is an oxygen molecule (O ₂₎ with oxygen atoms (O) are generated in combination occurs when reduced, and a hydroxyl group (OH ^-) are generated, the amount of more than the amount of ozone (O ₃₎ , The sterilizing effect of the air sterilizer of this example is further improved.

 The ventilation fan 50 is composed of a motor and a fan that is rotated by the operation of the motor and is operated by a rotation operation of the motor by a drive signal applied from the control unit 60.

At this time, the ventilation fan 50 operates together when the discharge unit 40 operates, so that the hydroxyl group (OH ^- ) and ozone (O ₃ ) generated due to the operation of the discharge unit 40 are supplied to the air sterilizer Thereby discharging it to the outside of the case, thereby increasing the sterilizing effect of the surrounding air.

Therefore, the ventilation fan 50 is located above the discharge unit 40 so that the hydroxyl group (OH ^- ) and ozone O ₃ output from the discharge unit 40 can be discharged to the outside more efficiently.

The operation of the air sterilizer according to the present invention having such a structure is as follows.

First, when the driving voltage is outputted from the battery 10 and the operation of the air sterilizer is started, the controller 60 reads the state of the signal outputted from the driving switch 20 and judges whether the driving switch 20 is operated do.

When the state of the signal applied to the control unit 60 is changed from the initial state (e.g., low level state) to the driving state (e.g., high level state) by the ON operation of the driving switch 20, To the voltage converting unit 30 of FIG.

Therefore, the voltage conversion unit 30 starts operation by the drive signal output from the control unit 60, converts the voltage output from the battery unit 10 into an AC voltage boosted to a voltage of a desired magnitude, And outputs it to the discharge unit 40.

When a discharge voltage is applied to the first and second electrodes 42a and 42b through the signal lines 431 and 432, a discharge occurs between the two electrodes 42a and 42b.

Oxygen in the air is converted into ozone (O ₃ ), water is converted into hydroxyl group (OH ^- ), and ozone (O ₃ ) and hydroxyl group (OH ^- ) And is discharged to the outside.

As described above, when the ozone O ₃ and the hydroxyl group OH ^- are generated from the discharge unit 40 by the operation of the voltage conversion unit 30, the control unit 60 outputs a drive signal to the ventilation fan 50 The ventilation fan 50 is operated.

Therefore, the ozone O ₃ and the hydroxyl group (OH ^- ) generated by the operation of the ventilation fan 50 are discharged to the outside more efficiently, and the sterilizing operation of the outside air is performed.

That is, the hydroxyl groups (OH ^- ) and ozone (O ₃ ) discharged to the outside react with contaminants such as bacteria, viruses and odor particles in the air and sterilize and decompose the contaminants to sterilize the air.

When the state of the drive switch 20 is changed to the off state when the sterilizing operation of the air sterilizer is performed by the ON operation of the drive switch 20 as described above, the control unit 60 controls the voltage conversion unit 30 and the ventilation fan 50 to stop the operation of the voltage conversion unit 30 and the ventilation fan 50. [

The structure of the first and second electrodes 42a and 42b shown in FIG. 2 is merely an example, and only a part of the edges of the first and second electrodes 42a and 42b are curved. Alternatively, All of the edges of the first and second elastic members 42a and 42b may be curved.

The first electrode 42a is surrounded by the second electrode 42b in a shape completely surrounded by the second electrode 42b and the first electrode 42a is surrounded by the second electrode 42b. Electrodes 42a and 42b may be formed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

10: power supply unit 20: drive switch
30: voltage converter 40:
41: discharge plate 42a: first electrode
42b: second electrode 50: ventilation fan
60: control unit 70:

Claims (2)

A power supply unit for outputting a DC voltage of a predetermined magnitude;
A voltage converting unit for stepping up the DC voltage output from the battery unit and outputting discharge voltages of different magnitudes;
A drive switch for turning on or off the power of the battery unit;
A discharge unit for generating ozone (O ₃ ) and hydroxyl (OH ^- ) ions for sterilizing air by discharging by a voltage of different magnitude outputted from the voltage converting unit;
Hydroxyl group (OH ^-) generated from the discharge part of the exhaust fan and an ozone (O ₃₎ discharged to the outside; And
And a control unit for determining an operation state of the drive switch and controlling an operation of the voltage conversion unit and the ventilation fan according to an operation state of the drive switch,
The discharge unit
A discharge plate having a rectangular planar shape;
A first portion a1 having a circular planar shape and a second portion a2 having a bar shape connected to the first portion a1 and having a rectangular planar shape are provided on the same surface of the discharge plate A first electrode; And
And a second electrode spaced apart from the first electrode by a predetermined distance D to surround the first electrode,
Wherein the first electrode and the second electrode are spaced apart by an interval of 2 mm to 5 mm. The method of claim 1,
Wherein the battery unit is a primary battery or a secondary battery.

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