KR100871416B1 - Ozone sterilized water creation device - Google Patents

Abstract

An ozone sterilized water generator is provided to maximize sterilizing power by increasing the generation amount of ozone and the amount of sterilizing disinfectant, and to prevent the ozone from doing harm to the human body by preventing ozone from being exhausted into the air. An ozone sterilized water generator comprises: a body case(1) in which a door(1a) is formed; an ozonizer(3) installed within the body case; an oxygen generator connected to the ozonizer by an oxygen supply pipe to supply oxygen into the ozonizer; a high pressure generator(6) connected to the ozonizer to generate ozone by applying a high pressure to the ozonizer; an injector(7) connected to the ozonizer by an ozone inflow pipe and a water supply pipe to dissolve raw water flown in through the water supply pipe and ozone flown in through the ozone inflow pipe; and a water storage tank(10) connected to the injector by a dissolved water discharge pipe(9).

Description

Ozone sterilized water creation device

The present invention relates to an ozone sterilizing water generating apparatus, and more specifically, it is possible to remove residual bacteria components such as various bacteria and vegetables or fruits contained in tap water with the sterilizing power of ozone and to decompose and remove residual chlorine components of tap water. The present invention relates to an ozone sterilizing water generating device which sterilizes food and removes bacteria and odors that propagate in sinks and drains, thereby benefiting the human body.

Generally, industrial water for manufacturing foods and pharmaceuticals in factories, or constant or plant cultivation water for use as drinking water or washing water in general households, restaurants, etc., is particularly required for the safety of humans and animals and plants.

In order to ensure the safety of the water used for such a purpose before the sterilization process is essentially performed, the method of disinfecting chlorine or other antibiotics in water has been widely used.

However, when sterilizing water with chemicals such as chlorine or antibiotics, it weakens the activity of the enzymes in the cells of microorganisms and acts as a strong sterilizing agent, but disinfectants remain in the water, causing safety concerns. Resistant bacteria resistant to water are generated, which is likely to impair the safety of water.

As a sterilization method in consideration of the problem of sterilization by chlorine or other antibiotics, sterilization by ozone or ultraviolet rays is widely performed.

Ozone is not only about 7 times more potent than chlorine, but also has a sterilizing effect of about 15 to 20 times higher than chlorine, and by directly decomposing molecules constituting bacteria or fungi, it can effectively kill food poisoning bacteria or pathogenic E. coli. In addition, it has strong oxidizing power, which can decompose heavy metals and odors.Heavier and more insecure gas than air. After sterilization, oxidation, and decomposition, it is converted into oxygen or stable material. It is known to be an excellent material.

Conventional methods for producing ozone water include a bubble type for producing ozone water by connecting an ozone generator inside a raw water container and injecting ozone gas into the bubble water in the raw water, and passing the raw water through a venturitube. An injector type in which ozone gas is introduced into raw water by using a pressure difference generated according to a flow rate is mentioned.

However, in the case of the bubble type, most of the ozone gas bubbles injected into the raw water are not dissolved in the raw water and released into the atmosphere through the surface of the raw water, which not only impairs human health and causes air pollution, but also a very small amount of raw water itself. Because only ozone is dissolved, the sterilization effect is not so good.

On the other hand, in the case of the injector type, ozone gas is introduced into the raw water by using the pressure difference due to the flow rate of the raw water passing through the inside of the venturi tube, so that the ozone solubility in the raw water can be slightly increased. If you do not know ozone solubility is not big enough to have raw water sterilization.

As described above, according to the conventional ozone water production method, it is possible to control the bacteria in the raw water to be sterilized, but it is not possible to manufacture the sterilized water in which the treated ozone water itself maintains sterilization power.

Therefore, there is a need for a more efficient ozone water production method that solves the problems of the conventional method as described above.

On the other hand, there is a method of increasing the pressure in order to increase the solubility of ozone gas in the raw water, according to this method is to supply the raw water and ozone gas in a pressurized tank of a constant capacity and pressurized to a constant pressure to increase the solubility of ozone gas in the raw water. Was also tried.

However, when using this method, it is possible to produce ozone water as much as the capacity of the pressurized tank, but when it is desired to manufacture a larger amount, it is impossible to continuously manufacture ozone water. Increasing the capacity of the tank causes various problems, such as an increase in the size of the apparatus and an air pollution caused by an increase in the amount of ozone introduced, as well as an increase in installation cost.

In addition, the ozone water produced by the above method, even if the capacity is sufficient, there is a problem in that the ozone contained therein decomposes or is released into the atmosphere over time until the use after the production, the efficiency of the ozone water itself is significantly reduced. .

Therefore, the present invention has been made to solve the above problems to maximize the sterilization power by increasing the amount of ozone generation and disinfection sterilization, and ozone sterilization water generating apparatus that does not harm the human body by preventing ozone from being released into the air The purpose is to provide them.

The present invention for achieving the above object is connected to the ozone generator and the ozone generator in which ozone is generated while the high pressure generated in the high pressure generator is transferred to the discharge tube and reacts with the oxygen received from the oxygen generator through the oxygen supply pipe in the discharge tube, A ozone inlet pipe, an injector for dissolving the raw water introduced through the ozone and the water supply pipe introduced through the ozone inlet pipe, a reservoir for connecting the injector and the dissolved water discharge pipe to allow dissolved water to flow therein; An auxiliary injector connected to an ozone sterilizing water supply pipe inside the reservoir to install secondary and tertiary dissolved water dissolved in the injector; and residual ozone in the reservoir connected to the reservoir and the oxygen supply pipe. Residual ozone discharge pipe is discharged through the oxygen supply pipe into the discharge pipe. It is to provide an ozone sterilization water generating device, characterized in that formed in the residual ozone discharge pipe is formed as a drying device for drying the residual ozone.

As such, the present invention can maximize the amount of dissolved water generated by dissolving ozone generated in the ozone generator in the first and second injectors to be strongly injected into the reservoir, and collecting and reusing residual ozone to release ozone into the atmosphere. It is not harmful to the human body by reducing the energy consumption is effective.

In addition, as the amount of dissolved water is increased, the amount of disinfectant disinfectant can be increased while maximizing sterilization and cleaning power.

In addition, the present invention can adjust the amount of water used and the concentration of disinfectant water according to the use conditions and seasons according to the user's conditions and seasons, do not require any additional cost by installing once, no need to provide a separate filter replacement or internal cleaning There is no need to increase the ease of use is effective.

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

1 is a perspective view showing an ozone sterilizing water generating apparatus according to the present invention, Figure 2 shows an internal configuration of the ozone sterilizing water generating apparatus according to the present invention, Figure 3 is the ozone sterilizing water generation according to the present invention Fig. 4 is a cutaway view of the interior of the reservoir according to the present invention.

The present invention is an apparatus for generating ozone sterilized water,

A main body case 1 in which the opening and closing door 1a is formed;

An ozone generator 3 installed inside the main body case 1;

An oxygen generator (5) connected to the ozone generator (3) and an oxygen supply pipe (5a) to supply oxygen into the ozone generator (3);

A high pressure generator 6 installed in connection with the ozone generator 3 to generate ozone by applying high pressure to the ozone generator 3;

An injector which is connected to the ozone generator 3 by an ozone inlet pipe 4 and a water supply pipe 8 to dissolve raw water introduced through the water supply pipe 8 and ozone introduced through the ozone inlet pipe 4 ( 7);

A reservoir 10 connected to the injector 7 by a dissolved water discharge pipe 9;

It consists of.

The operation part 2 is formed in the opening / closing door 1a of the main body case 1, and the operation part 2 is connected to the controller 17 provided in the main body case 1 by a power line 18. It is done.

At this time, the operation unit 2 is formed of a power button 2a, an ozone / oxygen button 2b, and a pump operation button 2c.

The ozone generator 3 is formed with a discharge tube 3a which receives ozone generated from the high pressure generator 6 and generates ozone while reacting with oxygen introduced through the oxygen supply pipe 5a in the oxygen generator 5. Lose.

An auxiliary injector 11 is formed in the reservoir 10 to communicate with the dissolved water discharge pipe 9 to dissolve the dissolved water supplied from the injector 7 secondly, and within the reservoir 10. Water level detection sensors 12 and 12a are respectively formed on the upper and lower walls to detect the water level.

At this time, each of the water level detection sensors 12 and 12a is connected to the controller 17 and a power line (not shown) to be grounded.

On the other hand, the auxiliary injector 11 is to spray the dissolved water flowing into the reservoir 10 through the dissolved water discharge pipe (9) at a strong pressure to be dissolved in the reservoir 10 in the third.

In addition, the residual ozone discharge pipe 13 for discharging residual ozone in the dissolved water injected into the reservoir 10 through the dissolved water discharge pipe 9 through the dissolved water discharge pipe 9 to the ozone generator 3 is oxygen. It is connected with the supply pipe 5a.

At this time, the residual ozone discharge pipe 13 is connected to the drying device 14 for drying the ozone discharged.

The ozone sterilizing water discharge pipe 15 is connected to the lower side of the reservoir 10 to discharge the ozone sterilizing water 100 in the reservoir 10 by the operation of the automatic pump 16. Connected.

On the other hand, in the oxygen supply pipe (5a) of the oxygen generator (5), the external air can be sucked or discharged to the outside air depending on the lack of the amount of oxygen supplied from the oxygen generator 5 and the flow rate supplied from the residual ozone discharge pipe (13) The inlet pipe 19 is connected, but the activated air ozone removal device 14a is installed in the external air inlet pipe 19 to remove ozone when the residual ozone is discharged.

Reference numeral 20 in the accompanying drawings is a power plug, 21 is a wheel for movement.

Looking at the operating state of the present invention made of the above configuration as follows.

First, when the power button 2a and the ozone / oxygen button 2c of the operation unit 2 are pressed while the power plug 20 is plugged in, the controller 17 receives a signal from the high pressure generator 6. And operating the respective devices such as the oxygen generator 5 and the ozone generator 3 and the injector 7.

As such, the high pressure generated by the high pressure generator 6 while the high pressure generator 6 is operated is applied to the discharge tube 3a of the ozone generator 3, and together with the oxygen generated by the oxygen generator 5, Ozone is generated while being introduced into the ozone generator 3 through the oxygen supply pipe 5a and reacting with the high pressure of the high pressure generator 6.

The ozone generated by the ozone generator 3 is introduced into the injector 7 through the ozone inlet pipe 4, and the ozone introduced into the injector 7 is injected through the water supply pipe 8. 7) will be dissolved with the raw water flowing into.

As described above, the dissolved water primarily dissolved in the injector 7 is introduced into the reservoir 10 through the dissolved water discharge pipe 9.

At this time, when the dissolved water is introduced into the reservoir 10, the dissolved water is installed in the reservoir 10 so that the secondary dissolved so that ozone does not remain by the auxiliary injector 11 connected to the dissolved water discharge pipe 9. The dissolved water dissolved in the auxiliary injector 11 is strongly sprayed onto the inner wall surface of the reservoir 10 by the strong pressure of the auxiliary injector 11 to be dissolved in the third.

As a result, the dissolved water is strongly injected into the reservoir 10, thereby minimizing residual ozone as the molecules of ozone remaining in the dissolved water are dualized.

In addition, ozone remaining in the reservoir 10 is introduced again into the ozone generator 3 through the residual ozone discharge pipe 13, and the drying apparatus 14 installed in the residual ozone discharge pipe 13 is operated. The ozone passing through the residual ozone discharge pipe 13 is dried.

Therefore, it is possible to use clean and safe ozone sterilization water 100 so that ozone does not remain in the reservoir 10.

In addition, since the residual ozone in the reservoir 10 can be reused, it is possible to reduce the energy consumption and increase the ozone generation efficiency, and the residual ozone is not discharged to the outside, thereby adversely affecting the human body such as a respiratory disorder. It will not be.

As described above, when the clean and safe ozone sterilization water 100 in which the ozone does not remain in the reservoir 10 is generated, the automatic pump 16 is operated by pressing the pump operation button 2c. The ozone sterilizing water 100 in the water bottle 10 is discharged to the outside through the ozone sterilizing water discharge pipe 15 to completely remove harmful components such as bacteria and pesticides remaining in various foods such as vegetables, fruits, seafood and meat. At the same time sterilization and disinfection can maintain the freshness of food for a long time, and will be able to remove odors, such as sinks, drains, refrigerators.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

1 is a perspective view showing an ozone sterilizing water generating apparatus according to the present invention.

Figure 2 is an internal configuration of the ozone sterilization water generating apparatus according to the present invention.

Figure 3 is a main portion connection state diagram of the ozone sterilization water generating apparatus according to the present invention.

Figure 4 is a cross-sectional view showing the interior of the reservoir according to the present invention.

<Description of the symbols for the main parts of the drawings>

1: body case 1a: opening and closing door

2: control panel 2a: power button

2b: Ozone / Oxygen button 2c: Pump operation button

3: ozone generator 3a: discharge tube

4: ozone inlet pipe 5: oxygen generator

5a: oxygen supply pipe 6: high pressure generator

7: injector 8: water supply pipe

9: dissolved water discharge pipe 10: reservoir

11: auxiliary injector 12,12a: water level sensor

13: residual ozone discharge pipe 14: drying device

14a: activated carbon ozone removal device 15: ozone sterilization water discharge pipe

16: automatic pump 17: controller

18: power supply line 19: external air inlet pipe

20: power plug 21: wheel for movement

Claims (4)

delete delete A main body case in which an opening / closing door is formed, and the opening / closing door is formed of an operation part connected to the controller by a power line; An ozone generator having a discharge tube installed inside the main body case to generate ozone; An oxygen generator connected to an ozone generator and an oxygen supply pipe to supply oxygen into the ozone generator; A high pressure generator connected to the ozone generator to generate high pressure by applying high pressure to the ozone generator; An injector connected to the ozone generator through an ozone inflow pipe and a water supply pipe to dissolve raw water introduced through the water supply pipe and ozone introduced through the ozone inflow pipe; A water reservoir connected to the injector by a dissolved water discharge pipe; The ozone sterilization water discharge pipe is connected to the lower portion of the reservoir is connected to the automatic pump to discharge the ozone sterilization water in the reservoir by the operation of the automatic pump; In the reservoir, an auxiliary injector is formed in communication with the dissolved water discharge pipe to dissolve the dissolved water supplied from the injector into the reservoir at a secondary dissolution and a strong pressure in the reservoir, and the upper and lower portions of the inner wall of the reservoir are formed. Water level sensor is formed to detect the water level in each, In the upper part of the reservoir, a residual ozone discharge pipe which discharges residual ozone in the dissolved water injected into the reservoir through the dissolved water discharge pipe to an ozone generator is connected to an oxygen supply pipe, but the ozone discharged to the residual ozone discharge pipe is dried. Ozone sterilization water generator, characterized in that the drying device is installed. delete

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