KR0114911Y1 - Water purification apparatus - Google Patents

Abstract

The present invention relates to a water purification device for performing purified water by reacting ozone with treated water, wherein the storage tank 10 stores a predetermined amount of treated water W therein, and the treated water W in the storage tank 10. Is composed of a pump 26 for ejecting to form a hemispherical water film 24, and an ozone generator 18 for generating and supplying ozone (O3) into the cavity 24a formed inside the water film 24. It is easy to manufacture and can significantly reduce manufacturing cost, and supply ozone to cavity part of hemispherical water film to improve ozone dissolution efficiency and increase ozone concentration in water. By the sterilization of pathogens and the removal of organic matter, heavy metals, etc., thereby obtaining hygienic and clean water.

Description

Water Purifier

1 is a schematic diagram showing a conventional water purifier.

2 is a view showing a water purifier according to the present invention.

* Explanation of symbols for main parts of the drawings

10: reservoir tank 18: ozone generator

24: water film 24a: cavity

26: pump W: treated water

The present invention relates to a water purification device for purifying drinking water such as tap water or bottled water, industrial water for industrial use, and the like. More specifically, the gaseous ozone generated in the ozone generator is easily brought into contact with the treated water. The present invention relates to a water purification device so that the water purification effect is improved by increasing the concentration of dissolved ozone.

Generally, drinking water such as tap water, bottled water, and industrial water used for industrial purposes, despite the precipitation, filtration, disinfection, and water purification treatment, pathogens such as E. coli or heavy metals are introduced due to contamination of transport pipes or the surrounding environment. By doing so, it has an undesired effect on the human body or the industrial part, and the situation is urgently required.

Therefore, in recent years, a fixed water device for dissolving ozone generated in a separate ozone generator in treated water or industrial water (hereinafter referred to collectively as treated water) is known.

As shown in FIG. 1, in the conventional water purifier, a water supply pipe 2 for supplying the treated water W is connected to one side of the water storage tank 1, and a lower portion of the water storage tank 1 A discharge pipe 3 having a small diameter portion 3a for discharging the treated water W stored therein is connected, and one side of the small diameter portion 3a receives ozone generated from the ozone generator 4. An ozone inflow pipe 5 is connected which flows into the discharge pipe 3 and is dissolved in the treated water W.

On the other side of the ozone inlet pipe 5, an air inlet 6 for supplying air into the ozone generator 4 is formed.

Therefore, the treated water W in the water storage tank 1 supplied through the water supply pipe 2 is generated by the ozone generator 4 when it falls into the discharge pipe 3 by its own weight and passes through the small diameter portion 3a. Ozone is introduced into the small diameter portion (3a) through the ozone inlet pipe (5), and then brought into contact with the treated water (W), so that ozone is dissolved in the treated water (W), and the ozone generator (4) The amount of ozone generated in the gas is varied according to the flow rate of the treated water W passing through the small diameter portion 3a, and is determined by the amount of intake of air sucked into the air intake 6.

However, in the above-described conventional technique, when the flow rate of the treated water passing through the small diameter portion of the discharge pipe is excessively large, the amount of air sucked into the air intake increases, thereby increasing the amount of air supplied into the ozone generator, thereby generating ozone. As a result, the concentration of ozone introduced through the ozone inlet pipe is lowered, thereby lowering the dissolved ozone concentration in the treated water, and thus, the treatment effect of the treated water is weak.

In addition, when the flow rate of the treated water passing through the small diameter portion of the discharge pipe is significantly lowered, the amount of air supplied into the ozone generator is significantly reduced and the amount of ozone generated is reduced, so that the ozone concentration contained in the treated water is also reduced. There have been various problems such as difficulty in obtaining the effect of treated water by ozone.

The present invention is devised to solve such problems of the prior art, and an object of the present invention is to supply ozone in the cavity formed in the treated water so that the ozone and the treated water react efficiently so that the concentration of ozone dissolved in the mystery water It is to provide a water purifier that can increase the.

The water purifying device according to the present invention made to solve the above object is a water purifying device for performing purified water by reacting ozone with treated water, the storage tank in which a predetermined amount of treated water is stored inside, and the treated water in the storage tank has a hemispherical shape. A pump that ejects water to form a water film, and an ozone generator that generates and supplies ozone into a cavity formed inside the water film, has a simple structure, which is easy to manufacture and significantly reduces manufacturing cost, Ozone is supplied to the cavity of the formed water film to improve the dissolved efficiency of ozone and at the same time to increase the ozone concentration in the water, thereby disinfecting pathogens and removing organic substances and heavy metals by ozone dissolved in water. It is characterized by being able to obtain clean and clean water.

Hereinafter, a preferred embodiment of the present invention will be described in more detail with reference to the accompanying drawings, FIG.

In the drawing, reference numeral 10 denotes a water storage tank in which the treated water W is stored, and a water supply port 12 for supplying the treated water W to both sides of the water storage tank 10 and the purified treated water. The volleyball water 14 which discharges (W) is connected, respectively.

The water inlet 12 and the drain 14 may be forcibly supplied and drained by a separate pumping means, such as a pump.

On the other hand, one side of the reservoir tank 10 is provided with an ozone generator 18 for generating ozone by applying a silent discharge or electrolysis to the air supplied from the air supply means 16, the ozone generator 18 Ozone generated in the is to be supplied to the treated water (W) in the reservoir tank 10 through the ozone supply pipe (20).

Then, the pump 26 for forming the water film 24 so that the cavity 24a is formed on the inner side of the water storage tank 10 by spraying the treatment water W at a predetermined pressure through the fountain pipe 22. Is mounted, and a spray nozzle 22a is positioned on the water surface of the treated water W to easily form the water film 24 at the tip of the fountain pipe 22.

Next, the water purifying apparatus according to the present invention configured as described above will be worn and described.

First, when a predetermined amount of the treated water (W) is supplied to the storage tank 10 through the water supply port 12, the pump 26 is operated to spray the treated water (W) into the fountain pipe 22, Accordingly, the treated water W injected at a predetermined pressure through the injection nozzle 22a forms a hemispherical water film 24 on the surface of the water, and at the same time, the cavity 24a is formed inside the water film 24. Is formed.

In addition, ozone (O3) generated by the ozone generator 18 is supplied through the ozone supply pipe 20 in the cavity 24a formed inside the water film 24.

That is, when air in the atmosphere (ie, air composed of 79% nitrogen and 21% oxygen) is supplied from the air supply means 16 into the ozone generator 18, the ozone generator 18 generates silent discharge or electricity. Ozone (O3) is generated by decomposition or the like.

On the other hand, when ozone (O3) generated in the ozone generator (18) is supplied into the cavity (24a) of the water film 24 through the ozone supply pipe 20, a large amount of ozone (O3) in the cavity (24a) ) Is stored, and ozone (O3) stored in the cavity portion 24a is easily dissolved by contacting the inner surface of the water film 24 which is continuously formed.

At this time, the treatment water (W) injected through the injection nozzle (22a) is sprayed directly into the treatment water (W) introduced through the water supply port 12 in the pump 26, the circulation of the treatment water (W) is It is made smoothly so that the dissolved distribution of ozone (O3) is made uniform.

Accordingly, the ozone O3 supplied into the cavity 24a is reacted by continuous contact with the inner surface of the water film 24, thereby significantly increasing the ozone concentration in the treated water W, thereby making the treated water W purified. The purified water W is discharged through the drain 14.

That is, as a large amount of ozone (O3) is dissolved in the treated water (W), sterilizing pathogens such as Escherichia coli, and at the same time removing organic metal heavy metals, it is possible to obtain very hygienic and clean water.

As described above, according to the water purifying apparatus according to the present invention, it is simple in structure and is easy to manufacture and significantly reduces manufacturing cost, and also supplies ozone into the cavity of the hemispherical water film to improve the dissolved efficiency of ozone. At the same time, the concentration of ozone in the water is increased to remove sterilization of pathogens and to remove organic substances and heavy metals by ozone dissolved in the water.Therefore, various excellent effects such as hygienic and clean water can be obtained. To have.

The present invention is not limited to the purification of tap water, industrial water, and the like, and is applicable to household appliances such as washing machines, humidifiers and water purifiers, or to sewage and wastewater treatment.

Claims (2)

In a water purification device that performs purified water by reacting ozone with treated water, the water storage tank 10 in which a predetermined amount of treated water W is stored inside and the treated water W in the storage tank 10 are hemispherical water films. A water purifying device comprising a pump 26 for ejecting the 24 to be formed, and an ozone generator 18 for generating and supplying ozone (O3) into the cavity 24a formed inside the water film 24. . The method of claim 1, wherein the pump 26 is installed in the water storage tank 10, the water film 24 formed by the operation of the pump 26 is characterized in that formed on the water surface of the treated water (W). Water purifier.