KR100744739B1 - Apparatus for generation of water drop in a water tank - Google Patents

Abstract

An apparatus for generating waterdrops in a water tank is provided to promote sterilizing and cleansing effects by oxidation of oxygen and elastic wave that bursts waterdrops in water, and to reduce fatigue of a human body and to remove body wastes in case of being used in a bathroom. An apparatus includes: a water tank(200); a main body(100); a water inlet(10) formed on one side of the water tank so that water in the water tank flows in the main body; a supply path(20) communicating with the water inlet, and formed in the main body; a circulation pump(30) for controlling the water that flows in the main body; a waterdrop generating member(40) arranged on an exit of the circulation pump, and generating waterdrops in the water; an air compressor(50) for compressing and supplying air to the waterdrop generating member; a pressure control valve(60) for controlling a pressure of the supplied air; a pressure sensor(70) for measuring an air pressure; a discharge path(80) for discharging waterdrops to the water tank; and a control part(90).

Description

Apparatus for generation of water drop in a water tank}

1 is a conceptual diagram schematically showing an apparatus for generating nano water droplets in a tank according to a preferred embodiment of the present invention.

FIG. 2 is an enlarged conceptual view illustrating the action of the multi-porous solid thin film of the nano-droplet generating member of FIG. 1. FIG.

<Explanation of symbols for main parts of the drawings>

10: water inlet 20: supply passage

30: circulation pump 40: nano water droplet generating member

41: multi-porous solid thin film 43: nano water droplets

45: water 50: air compressor

60: pressure control valve 70: pressure sensor

80: discharge passage 90: control unit

95: oxygen concentration sensor 96: transmitter

100: body 101: space

200: tank

The present invention relates to a device for generating nano water droplets in a tank.

In general, water contained in tanks, such as fish farms, sashimi, and live fish vehicles that farm various fish and shellfish, is easily contaminated by various excreta and feed dregs generated in the process of farming shellfish. Not only there is a risk of collective death due to various diseases, but if these polluted waters are discharged to the outside of the tank as they are, there is a risk of secondary pollution.

In addition, in restaurants, hospitals, etc., where public health is a problem, cleaning of the cleansing object should be convenient at the place where germ removal and hygiene of various cleansing materials such as vegetables, utensils, and kitchen utensils are required. Proper hygiene can be achieved.

As the method of sterilization removal and washing in the tank, the method of cleaning the object to be cleaned by chemicals, the method of cleaning by ultrasonic wave and the method using ozone are mainly used, and the Korean Registered Utility Model No. 20-0289849 Domestic ultrasonic cleaning apparatus fastened to the tank ", Korean Patent Publication No. 10-2005-0101131," live fish tank live fish clarifier "and the like are published in the publication.

However, the sterilization method using ozone lowers the disinfecting effect at low concentrations and poses a harmful problem at high concentrations. In addition, there is a problem that it is difficult to dissolve ozone in water.

In addition, the method of sterilization and disinfection by chemicals is expensive, and there is a problem that causes serious hazards due to the remaining of the drug after use. Therefore, despite the thorough disinfection and hygiene management must be done in a restaurant or a large soup kitchen, there are many problems with the conventional cleaning method, which often causes group food poisoning accidents, as it provides a cause for neglecting sterilization and hygiene management. have.

The present invention has been made in order to solve the above problems, it can be expected not only the sterilization effect to remove the bacteria in the water due to the oxidative action by the elastic wave and oxygen bursting water droplets in the water to produce nano water droplets, Because it does not use any chemicals, it can be used safely for fish and shellfish, and it can extend the replacement time of water in the tank, and it is easy to store fish and fish and shellfish. The purpose of the present invention is to provide a nano water droplet generating device in a tank that can relieve fatigue of the human body, and is inexpensive to manufacture and easy to replace.

Nano water droplet generating device in the tank of the present invention for achieving the above object, the water tank accommodated therein; A main body having a predetermined space formed therein; A water inlet provided at one side of the water tank so as to allow water in the water tank to flow into the internal space of the main body and connected to the main body; A supply passage provided inside the main body, the water inlet being in communication so that water introduced from the water inlet flows into the main body; A circulation pump installed in the middle of the supply passage and configured to control water flowing into the main body through the supply passage; It is installed in the middle of the supply passage, disposed on the outlet side of the circulation pump, the nano droplet generating member for generating nano water droplets in the water flowing through the supply passage; An air compressor installed at one side of the nano water droplet generating member to compress and supply air to the nano water droplet generating member; A pressure control valve installed at one side of the nano droplet generating member to control a pressure of air supplied to the nano droplet generating member; A pressure sensor installed at one side of the nano water droplet generating member to measure an air pressure inside the nano water droplet generating member; A discharge passage connected to an outlet side of the nano water droplet generating member and disposed in the water tank to discharge nano water droplets generated by the nano water droplet generating member into the water tank; And a control unit provided inside the main body to control the circulation pump, the air compressor, the pressure control valve, and the pressure sensor.

In the above, the nano water droplet generating member is provided with a porous porous thin film (Al ₂ O ₃ SiO ₂ glass) having a size of 0.05 ㎛ to 20 ㎛ size, the air compressed by the air compressor is the porous porous thin film It is preferable to be produced in the form of nano water droplets in the water while passing through.

The control unit may be configured to control the air compressor and the pressure regulating valve by receiving an air pressure inside the nano water droplet generating member measured by the pressure sensor and comparing it with a preset air pressure setting value. , It is preferable to adjust the air pressure supplied to the nano water droplet generating member.

In the above, the oxygen concentration sensor for measuring the dissolved oxygen amount (DO) of the water contained in the tank is provided in the tank, the control unit receives the dissolved oxygen amount measured by the oxygen concentration sensor is input in advance dissolved oxygen amount Compared to the set value of, it is preferable to control the operation of the circulation pump, to adjust the flow rate of water supplied to the nano water droplet generating member.

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

1 is a conceptual diagram schematically showing an apparatus for generating nano water droplets in a tank according to a preferred embodiment of the present invention, and FIG. 2 is an enlarged view for explaining the action of the multi-porous solid thin film of the nano water droplet generating member of FIG. 1. Conceptual diagram.

As shown in FIG. 1, the apparatus for generating nano water droplets in a water tank according to the present embodiment includes a water tank, a main body 100, a water inlet 10, a supply passage 20, a circulation pump 30, and a nano water droplet generating member 40. And an air compressor 50, a pressure control valve 60, a pressure sensor 70, a discharge flow path 80, and a controller 90.

The tank 200 may be a general sashimi, fish farm, aquarium, bath tub, etc., the water is accommodated inside.

The main body 100 has a predetermined space 101 formed therein, and may be supplied with a power of AC 100V to 240V.

The water inlet 10 is provided at one side of the water tank 200 and is connected to the main body 100 so that water in the water tank 200 flows into the internal space of the main body 100 through the water inlet 10.

The supply passage 20 is provided inside the main body 100, and the water inlet 10 communicates with each other so that water introduced from the water inlet 10 flows into the main body 100 through the supply passage 20.

The circulation pump 30 is installed in the middle of the supply passage 20 to control the water flowing into the main body 100 through the supply passage 20.

Nano water droplet generating member 40 is installed in the middle of the supply passage 20, is disposed on the outlet side of the circulation pump 30, the nano water droplets 43 into the water 45 introduced through the supply passage 20 Generates.

A nanoporous solid thin film 41 (Al ₂ O ₃ SiO ₂ glass) is provided inside the nano water droplet generating member 40, and the thin film size of the multiporous solid thin film 41 is 0.05 μm to 20 μm. .

As described above, as shown in FIG. 2, while the air compressed by the air compressor 50 passes through the porous porous thin film 41, by utilizing the porosity of the porous porous thin film 41, Air is generated in the form of nano water droplets 43 in the water (45).

Since the size of the nano water droplets 43 generated may vary according to the thin film size of the multi-porous solid thin film 41, the thin film of the multi-porous solid thin film 41 may be implemented in different embodiments.

The air compressor 50 is installed at one side of the nano water droplet generating member 40, and compresses and supplies air to the nano water droplet generating member 40.

The pressure control valve 60 is installed at one side of the nano water droplet generating member 40 to control the pressure of air supplied to the nano water droplet generating member 40.

The pressure sensor 70 (PT) is installed at one side of the nano droplet generator 40 to measure the air pressure inside the nano droplet generator 40.

The discharge passage 80 is connected to the outlet side of the nano water droplet generating member 40 and is disposed in the water tank 200, so that the nano water droplet 43 generated by the nano water droplet generating member 40 may be disposed in the water tank 200. Discharge inside.

The controller 90 is provided inside the main body 100 to control the circulation pump 30, the air compressor 50, the pressure regulating valve 60, and the pressure sensor 70.

The control unit 90 receives the air pressure inside the nano water droplet generating member 40 measured by the pressure sensor 70 and compares it with a preset air pressure setting value, the air compressor 50 and the pressure control valve. Control 60.

By controlling the air compressor 50 and the pressure control valve 60 in this way, by adjusting the air pressure supplied to the nano water droplet generating member 40, it is possible to control the time that the nano water droplets 43 are generated.

On the other hand, the oxygen concentration sensor 95 for measuring the dissolved oxygen amount (DO) of the water contained in the water tank 200 is preferably provided in the water tank 200.

When the oxygen concentration sensor 95 is provided, a transmitter 96 (transmitter) is provided inside the main body 100 so that the dissolved oxygen amount measured by the oxygen concentration sensor 95 may be input to the controller 90. .

Here, dissolved oxygen (DO) refers to the amount of oxygen dissolved in water.

In this way, the oxygen concentration sensor 95 is provided, and the controller 90 receives the dissolved oxygen amount measured by the oxygen concentration sensor 95 and compares it with a preset value of the dissolved oxygen amount previously inputted. To control operation.

By controlling the circulation pump 30 in this way, it is possible to adjust the flow rate of the water supplied to the nano water droplet generating member (40).

Hereinafter, the embodiment of the present invention having the above-described configuration will be described in detail.

When power is supplied to the main body 100, the control unit 90 operates the circulation pump 30.

When the circulation pump 30 is operated, water in the water tank 200 flows into the supply passage 20 through the water inlet 10, and the water introduced into the supply passage 20 passes through the nano water droplet generating member 40. Inflow.

At the same time, the air compressed by the air compressor 50 provided on one side of the nano water droplet generating member 40 is supplied to the nano water droplet generating member 40, while the air passes through the multi-porous solid thin film 41, It is generated in the form of nano water droplets 43 in the water 45 supplied to the nano water droplet generating member 40.

The nano water droplets 43 generated by the nano water droplet generating member 40 are discharged into the water tank 200 through the discharge passage 80.

At this time, the control unit 90 receives the air pressure inside the nano water droplet generating member 40 measured by the pressure sensor 70 and compares it with a preset air pressure setting value, the air compressor 50 and the pressure control By controlling the valve 60, by adjusting the air pressure supplied to the nano water droplet generating member 40, it is possible to control the duration of the nano water droplets 43.

Here, the air pressure set value may be set from 2bar to 30bar.

In addition, the controller 90 receives the dissolved oxygen amount of the water in the water tank 200 measured by the oxygen concentration sensor 95 and compares it with a previously set value of the dissolved oxygen amount to control the operation of the circulation pump 30. Thus, the flow rate of the water supplied to the nano water droplet generating member 40 can be adjusted.

As described above, the control unit 90 controls the flow rate of the water according to the dissolved oxygen amount of the water in the water tank 200, and by adjusting the air pressure according to the air pressure in the nano water droplet generating member 40, the nano in the water tank 200 Since the amount of the water droplets 43 is generated and the time for which the nano water droplets 43 last, the optimum condition of the water can be made.

In the above, the air pressure set value or the dissolved oxygen set value input to the control unit 90 is the duration of the nano-droplets 43 and the nano according to the size of the tank 200, such as a fish farm, live fish moving vehicle, sashimi tank, etc. In consideration of the oxygen concentration by the water droplets 43 may be set differently.

If the amount of dissolved oxygen is too high, the fish and shellfish in the tank 200 may die according to the peroxygen phenomenon, and on the contrary, it may die even in the absence of oxygen such as the red tide phenomenon. It is very important to enter

As described above, by generating nano-droplets (43) to suppress the vibrio bacteria or E. coli caused by the destruction of single cells and viruses due to the oxidative action of the elastic wave and oxygen rupture in the water, as well as the bactericidal effect of removing the bacteria in the water Can also be expected to wash effect, can improve the water quality of the fish and shellfish, such as fish farms, sashimi, live fish moving vehicles in the tank 200, can be used safely in fish and shellfish because no chemicals are used at all, within the tank 200 The replacement time of water can be extended.

In addition, since the survival and freshness of the live fish and fish and shellfish in the tank 200 can be improved, the fish and fish and shellfish in the tank 200 can be stored with confidence in all seasons.

Further, by generating nano water droplets 43 can be sterilized and washed in the water at low cost, it is harmless to the human body when used in the bathroom can safely remove the waste of the skin, can release the fatigue of the human body.

In addition, manufacturing costs are low and replacement is easy.

Furthermore, in restaurants, hospitals, etc., which are a problem of public health, hygiene management can be continuously performed by removing germs of various food materials such as vegetables, utensils, kitchen utensils, and sanitary washing. have.

Therefore, it can be effectively used in sashimi restaurants, live fish moving vehicles, fish farms and bathrooms where food hygiene is required, as well as places requiring food washing, dish washing and hygiene management in restaurants, as well as any places where sterilization and hygiene management are required. Because it can be used casually, the neglect of hygiene can be prevented. Therefore, it can greatly contribute to national health promotion and health hygiene.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art various modifications of the present invention without departing from the spirit and scope of the invention described in the claims below. Or it may be modified.

According to the nano-water droplet generating device in the tank of the present invention as described above, has the following effects.

First, it is expected to produce nano water droplets to prevent vibrio and E. coli from destroying single cells and viruses due to the destruction of single cells and viruses due to the rupture of seismic waves and oxygen by water droplets. It is possible to improve the water quality in the tank when storing fish and shellfish such as farms, sashimi, live fish moving vehicles, etc., since it does not use any chemicals, it can be used safely for fish and shellfish, and the replacement time of water in the tank can be extended.

In addition, it is possible to increase the survival and freshness of the live fish and fish and shellfish in the tank, it is possible to store the fish and shellfish in the tank with confidence in all seasons.

Second, it can be sterilized and washed in the water at low cost by generating nano water droplets, so it is harmless to the human body when used in the bath, can safely remove the waste of the skin, and relieve fatigue of the human body.

Third, in general, restaurants, hospitals, etc., which are a problem of public health, can remove germs of various food materials such as vegetables, utensils, and kitchen utensils, and sanitarily clean them, so that hygiene management can be continuously performed. .

Fourth, the manufacturing cost is low, and replacement is easy.

Claims (4)

A water tank containing water therein; A main body having a predetermined space formed therein; A water inlet provided at one side of the water tank so as to allow water in the water tank to flow into the internal space of the main body and connected to the main body; A supply passage provided inside the main body and configured to communicate with the water inlet so that water introduced from the water inlet flows into the main body; A circulation pump installed in the middle of the supply passage and configured to control water flowing into the main body through the supply passage; It is installed in the middle of the supply passage, disposed on the outlet side of the circulation pump, the nano droplet generating member for generating nano water droplets in the water flowing through the supply passage; An air compressor installed at one side of the nano water droplet generating member to compress and supply air to the nano water droplet generating member; A pressure control valve installed at one side of the nano droplet generating member to control a pressure of air supplied to the nano droplet generating member; A pressure sensor installed at one side of the nano water droplet generating member to measure an air pressure inside the nano water droplet generating member; A discharge passage connected to an outlet side of the nano water droplet generating member and disposed in the water tank to discharge nano water droplets generated by the nano water droplet generating member into the water tank; And a control unit provided in the main body to control the circulation pump, the air compressor, the pressure control valve, and the pressure sensor. The method of claim 1, Inside the nano water droplet generating member is provided a porous porous thin film (Al ₂ O ₃ SiO ₂ glass) of 0.05 ㎛ to 20 ㎛ size, The apparatus of claim 1, wherein the air compressed by the air compressor is generated in the form of nano water droplets in water while passing through the porous porous thin film. The method according to claim 1 or 2, The control unit receives the air pressure inside the nano water droplet generating member measured by the pressure sensor and compares the previously set air pressure setting value, and controls the air compressor and the pressure control valve to generate the nano water droplets. Apparatus for generating nano water droplets in a water tank, characterized in that for adjusting the air pressure supplied to the member. The method according to claim 1 or 2, Oxygen concentration sensor for measuring the dissolved oxygen (DO) of the water contained in the tank is provided in the tank, The control unit receives the dissolved oxygen amount measured by the oxygen concentration sensor and compares it with a previously set value of the dissolved oxygen amount to control the operation of the circulation pump to adjust the flow rate of water supplied to the nano water droplet generating member. Nano water droplet generator in the tank, characterized in that.

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