KR20150072031A - Watertreatment device - Google Patents

Abstract

In the present invention, provided is a water treatment device, which remarkably sterilizes water in a new manner regardless of amounts of water to be treated and comprises a plasma generator which generates plasma to inflow of air; and an air bubble generator which uses air discharged from the plasma generator and accordingly makes air bubbles in inflow of extra water, thereby sterilizing water with use of air bubbles having the plasma.

Description

Watertreatment device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water treatment apparatus, and more particularly, to a water treatment apparatus having an excellent processing capability using plasma and bubbles.

There are various methods of disposing unsuitable water depending on the condition of the water. For example, Japanese Patent No. 872523 discloses an apparatus for treating groundwater for drinking beef including a filtration tank filled with activated carbon.

In addition, the registered patent No. 857419 relates to an underground water-purifying apparatus for purifying underground water. Specifically, groundwater is purified through primary and secondary ions, and nitrogen and fluorine, which are harmful to the human body through ion exchange, The present invention relates to an underground water purifying apparatus using an ion exchange resin for use as drinking water, and its main constitution is that the ground water supplied from the upper side is connected to the water supply valve and passes through a filter part composed of loess balls, A first purified water tank for storing the purified water; A second purified water tank in which a filter unit made of activated carbon is provided, and groundwater supplied from the first purified water tank is passed through activated carbon in a natural descending manner to remove turbidity; And an ion exchange tank for removing the nitrate and fluorine from the groundwater supplied from the second purification tank through ion exchange and temporarily storing and removing the nitrate and fluorine.

In addition, Japanese Laid-Open Patent Application No. 2008-0043112 relates to an underground water purifying apparatus, and specifically, a water purifier includes a primary purifier for purifying a water purifier in stages by installing a plurality of purifier filters in the water purifier; A secondary purifier connected to the supply space at the lower end of the purifying filter and connected to the supply space at the upper side of the supply space, and a supply tank for supplying activated carbon to the upper side of the supply space and supplying air through the air supply unit; A drain port connected to a water level outlet provided in a part of the air supply tank and supplying water to the water tank; The groundwater is purified and supplied by a water tank connected to the drain port and provided with an ozone sterilizing lamp on the lower side and a water tank for supplying water through a purified water supply pipe connected to the outside.

On the other hand, in the case of seawater, red tide is generated at a certain temperature or more, which causes a lot of damage to the aquaculture.

When red tide occurs, red tide is removed through coagulant, adsorbent, unsaturated fatty acid, sodium percarbonate, hydrogen peroxide treatment, sterilizing disinfectant, ultrasonic treatment, sea surface recovery, ozone treatment,

The above-described methods are used as an urgent treatment means, and other than the target red tide creatures, they may have an odorous odor, and there is a problem in economy.

The above-described groundwater treatment methods are basically necessary for large-scale facilities for processing groundwater or drinking water, and there is a merit that a large-scale treatment apparatus for treating a large amount of water has a high utilization rate. However, It is difficult to apply it at high facility cost to process and high cost may be caused by addition of chemicals for further disinfection of water if necessary.

And, the red tide removing techniques of the seawater described above are used as emergency treatment means as described above, and there are harmful disadvantages other than red tide creatures.

Therefore, it is possible to treat various kinds of water such as seawater including ground water and red tide, and in addition, an economical and environmentally friendly water treatment method is required.

It is an object of the present invention to provide a new type of water treatment apparatus which exhibits high disinfection ability irrespective of the volume of water to be treated.

In order to achieve the above object, the present invention provides a water treatment apparatus for disinfecting water, comprising: a plasma generator for generating a plasma in an incoming air; And a bubble generating device for generating bubbles in water introduced separately using the air discharged from the plasma generator, wherein the water is sterilized by the air bubbles containing the plasma.

Preferably, the diameter of air bubbles generated in the bubble generator is from 1 to 1,000 mu m.

More preferably, the voltage of the power source supplied to the plasma generating device is 0.5 kV to 100 kV.

Preferably, the plasma generator comprises: a case; And a cylinder-shaped generating body positioned inside the case and having a through-hole formed therein, wherein power is applied to the generating body, and the air introduced through the through-hole is exposed to plasma and discharged .

More preferably, the bubble generator further comprises a bubble generator for generating and discharging bubbles in the water introduced separately using the bubble motor and the air discharged from the plasma generator.

More preferably, the bubble generator further includes an output tube including an air supply port through which the air discharged from the plasma generating apparatus flows, an input tube through which the processing water flows, and an air bubble generated.

More preferably, the case of the plasma generating apparatus further includes a water inlet through which the water for water treatment flows and a water outlet through which the water containing the plasma generating part comes into contact with the outer surface of the generating body, And the discharged water is input to the output tube.

Preferably, the air conditioner further includes a pneumatic pressure generating device for supplying air to the plasma generating device.

More preferably, the pneumatic pressure generator comprises: a motor; A pump for sucking and discharging air by the motor; An inlet through which the pump sucks air; And an outlet through which the pressurized air is discharged from the pump.

Preferably, the air conditioner further includes a control device for controlling operations of the air pressure generating device, the plasma generating device, and the bubble generating device.

A water treatment apparatus according to the present invention generates a plasma through a plasma generator, generates a plasma bubble in which a generated plasma is sucked into a bubble generator to mix plasma and bubbles, and the plasma bubble forms a foreign body Since the whole structure is relatively simple, it is applicable to a small-scale and large-scale processing facility. Since it is operated only by electric or mechanical power without a separate chemical agent, There is an effect.

1 is a configuration diagram of a water treatment apparatus according to the present invention,
Fig. 2 is a configuration diagram of the pneumatic feeding device shown in Fig. 1,
FIG. 3 is a configuration diagram of the plasma generating apparatus shown in FIG. 1,
Fig. 4 is a configuration diagram of the bubble generator shown in Fig. 1,
5 is a configuration diagram of the control apparatus shown in Fig.

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

1, the water treatment apparatus 100 according to the present invention includes a pneumatic supply device 10, a plasma generator 20 for generating plasma in the air introduced through the pneumatic supply device 10, A bubble generator 50 for generating plasma bubbles in the inflowing water using the outflow air containing the plasma generated in the plasma generator 20, the air supply device 10, the plasma generator 20, And a control device (90) for controlling the operation of the generating device (50).

As shown in FIG. 2, the air supply apparatus 10 is driven by a separate power source in the same configuration as a conventional pump or blower, and sucks air through the inlet 11 and discharges the air to the outlet 12 And a movable part 13 is positioned between the inlet 11 and the outlet 12. The movable part 13 can be constructed by combining a motor 14 and a pump 15, 15 may be reciprocating or turbo-type, and may be implemented as a blower if necessary.

As shown in FIG. 3, the plasma generator 20 has a structure in which a plasma is formed in the air introduced through the outlet 12, and includes a case 21, A generator 30, and a discharge port 22 for discharging the air including the plasma through the generator 30.

The generator 30 includes a cylindrical generating body 32 having a through hole 31 formed therein and a conductor 33 disposed in the through hole 31 in a longitudinal direction to generate plasma, (+) Electrode is applied to the case (33), and power is applied to the inside of the case (21).

The upper and lower portions of the through hole 31 are connected to the outlet 12 and the outlet 22, respectively.

Accordingly, the air is discharged from the outlet 12, passes through the through-hole 31, contains the plasma component, and is discharged through the discharge port 22.

Further, in the case 21, a water inlet 23 and a water outlet 24 through which water for treatment flows are formed, if necessary. The water introduced through the water inlet 23 contacts the outer surface of the generating body 32 and absorbs a part of the plasma generated in the generating body 32 to be sterilized.

In particular, the plasma generator 20 includes a high concentration of ozone, radical, and plasma energy in the air discharged through the discharge port 22, and exhibits a high disinfecting effect upon contact with water.

4, the bubble generator 50 includes a bubble motor 51, a bubble generator 60 for generating bubbles by the rotation of the bubble motor 21, An air supply port 61 for supplying air to the water supply pipe 62, an input pipe 62 for introducing water for water treatment, and an output pipe 63 for discharging water containing bubbles internally.

The bubble generator 60 may be configured to generate bubbles by rotation of the bubble motor 51, or may be implemented in other ways that generate bubbles.

The supply port 61 is configured such that air containing plasma, ozone, and radicals flows into the discharge port 61 and communicates with the discharge port 22 so that air having passed through the plasma generation device 20 is introduced.

In addition, the input tube 62 is filled with water to be treated, water containing mixed bubbles including plasma energy is discharged through the output tube 63, and if necessary, a circulation pump or the like is included, .

The mixed bubbles are formed in the form of bubbles through the bubble generator 50 through the plasma generator 20 and contain air containing ozone and plasma. When energy is contained in the plasma, it collides with foreign substances located in the water, the shock wave due to bubble extinction, plasma energy, and ozone effects are combined to exhibit very high disinfection characteristics.

5, the control device 90 controls the air supply device 10, the plasma generating device 20, and the bubble generating device 50, Control the operation of the device, and, if necessary, control each device to operate during the entered operating time.

The plasma generator 20 preferably generates a plasma by applying a current of 0.001 A to 1 A under a voltage of 0.5 kV to 100 kV. However, the current may be supplied in different amounts depending on the amount of introduced air and the characteristics of the conductor 33. However, when a current of 1 A or more flows, high heat is generated, which is inappropriate.

Therefore, when the voltage and current are out of the range, the characteristics for water treatment are insignificant, and it is disadvantageous in actual implementation.

When the processing capacity of the plasma generator 20 is insufficient, it is preferable to configure a plurality of the same plasma generating apparatuses 20 instead of increasing the current.

The diameter of the bubbles generated in the bubble generator 50 is preferably 1 to 1,000 mu m.

When the bubble is less than 1 탆, the bubble does not disappear for a long time in the water, so it is difficult to generate the shock wave generated by the bubble disappearing. When the diameter of the bubble exceeds 1,000 탆, There is a disadvantage that it is difficult to do.

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, And all of the various forms of embodiments that can be practiced without departing from the technical spirit.

10: air pressure generating device 11: inlet
12: outlet 13: moving part
14: motor 15: pump
20: Plasma generating device 21: Case
22: outlet 23: water inlet
24: water outlet 30: generator
31: Through hole 32: Generation body
51: bubble motor 60: bubble generator
61: air supply port 62: input tube
63: Output tube 90: Control device
100: Water treatment device

Claims (10)

A water treatment apparatus for disinfecting water,
A plasma generating device for generating plasma in the introduced air; And
And a bubble generator for generating air bubbles in the water introduced separately using air discharged from the plasma generator,
Wherein the water is sterilized by air bubbles containing the plasma.
The water treatment apparatus according to claim 1, wherein the diameter of the air bubbles generated in the bubble generating device is 1 탆 to 1,000 탆.
The water treatment system according to claim 2, wherein a voltage of a power source supplied to the plasma generating device is 0.5 kV to 100 kV.
The plasma generating apparatus according to claim 2 or 3,
case; And
And a cylinder-shaped generating body located inside the case and having a through hole formed therein,
Wherein power is applied to the generating body, and the air introduced through the through hole is exposed to plasma and discharged.
[6] The water treatment system according to claim 4, wherein the bubble generator further comprises a bubble generator for generating and discharging bubbles in the water introduced separately using the bubble motor and the air discharged from the plasma generator.
[7] The bubble generator according to claim 5, wherein the bubble generator further comprises an output tube including an air supply port through which the air discharged from the plasma generating apparatus flows, an input tube through which the processing water flows, .
[7] The apparatus of claim 6, wherein the case of the plasma generator further comprises a water inlet through which the water for treatment water flows, and a water outlet through which the water containing the plasma generating part comes into contact with the outer surface of the generating body,
And water discharged through the water outlet is input to the output tube.
The water treatment system according to claim 1, further comprising a pneumatic pressure generating device for supplying air to the plasma generating device.
The pneumatic pressure generator as set forth in claim 8,
motor;
A pump for sucking and discharging air by the motor;
An inlet through which the pump sucks air; And
And an outlet through which the pressurized air is discharged from the pump.
The water treatment system according to claim 8, further comprising a control device for controlling operations of the air pressure generating device, the plasma generating device, and the bubble generating device.

Images