KR102068051B1 - Generating device of oxidation water of micro nano bubble - Google Patents

Abstract

The present invention relates to a device for generating micro nanobubble oxidation water capable of forming and discharging micro nanobubble oxidation water by rotation of an impeller. The device for generating micro nanobubble oxidation water comprises a housing body, the impeller, a drug supplying unit, a separation lug unit, and an air supplying unit. The housing body has a cylindrical operating space inside, a water receiving pipe for receiving water in one side, and a micro nanobubble oxidation water discharging pipe for discharging micro nanobubble oxidation water formed in the operating space to the outside. The impeller is arranged inside the housing body and is rotated to form the micro nanobubble oxidation water by stirring the received water, air, and an oxidizing agent. The drug supplying unit is formed in the housing body and supplies a drug to the operating space. The separation lug unit has a connecting unit which is prepared and penetrated inside the housing body. The air supplying unit supplies the air to the connecting unit. The device for generating micro nanobubble oxidation water rotates the impeller in the housing body and has a vortex groove formed inside the housing body. Therefore, the present invention increases formation efficiency of the micro nanobubble oxidation water by repeating a step of allowing the water, the air, and the oxidizing agent (chlorine dioxide, ozone, sodium hypochlorite, etc.) inputted and rotated in the housing body to be received and discharged in the vortex groove.

Description

Generating device of oxidation water of micro nano bubble

The present invention relates to a micro-nanobuble oxidation water generator, and more particularly, the impeller is installed in the housing main body and the vortex groove is formed in the housing main body, water and air and chemicals that are injected into the housing main body and rotated ( Oxidizing agent: Ozone, chlorine dioxide, sodium hypochlorite, etc.) relates to a micro-nanobubble oxide generator for increasing the formation efficiency of micro-nanobubble water by repeating the process of drawing in and out of the vortex groove.

In general, microbubbles are ultra-fine bubbles that cannot be seen with eyes smaller than 5 μm (micrometer, or micron, 1 μm = 0.001 mm), which are 1 / 2,000 of normal bubbles. When extinguished, 1) generate 40KHz ultrasonic wave, 2) generate high sound pressure of 140db, and 3) instantaneous high temperature of 4,000 ~ 6,000 degree.

That is, general bubbles rise in water and rupture at the surface, but microbubbles or nanobubbles are reduced and converted into nano-sized bubbles in water to form free radicals. The free radicals are capable of chemical decomposition, sterilization, organic decomposition, It has functionality such as deodorizing power.

In addition, such micro bubbles or nano bubbles are mainly generated when the water and air are violently rotated into ultra-fine bubbles.

Such micro-nano bubble can improve and disinfect water quality of hydrophilic and landscape water, deodorize and disinfect water and sewage, disinfect rainwater storage, prevent water quality improvement and deterioration of closed water (reservoir, dam, stream stagnant water), and water quality of pumping station. It can be used in various fields such as improvement and disinfection and food hygiene industry.

However, in the apparatus for generating a conventional micro-nano bubble, the micro-nano bubble is formed by stirring after injecting air and water in a state in which the impeller is rotated therein. In addition to the impeller, the micro-nano bubble is formed or formed. There is no separate configuration to help the mass production is difficult and the production cost is expensive.

The above-described invention means a background of the technical field to which the present invention belongs, and does not mean the prior art.

Republic of Korea Patent No. 10-0824714

The present invention has been made to solve the above-described problems, the object of the present invention is to install the impeller is rotated in the housing body and the vortex groove is formed in the interior of the housing body, and the water is injected into the housing body and rotated Micro-nanobubble that air and chemicals (oxidants: ozone, chlorine dioxide, hypochlorous acid, etc.) are introduced into and drawn out of the vortex groove, thereby compressing and expanding crushing coagulation to increase the formation efficiency of the micronano bubbled water. Its purpose is to provide an oxidation water generator.

The present invention is a micro-nano bubble oxidation water generator to form and discharge the micro-nano bubble oxidation water by the rotation of the impeller, a circular working space is formed inside the water inlet pipe is formed so that water is introduced into one side, To form the micro-nanoble oxidized water by stirring the water and air and the oxidant disposed in the housing body and the housing body is formed inside the housing body so that the micro-nano bubble oxidized water formed in the working space is discharged to the outside A rotating impeller, a chemical supply part formed in the housing main body and supplying a chemical (oxidizing agent: chlorine dioxide, ozone, sodium hypochlorite, etc.) to the working space; Consisting of a projection and an air supply for supplying air to the connector It characterized.

In addition, the inside of the housing body is characterized in that the vortex grooves are further formed in communication with the working space so that the micro-nanobubble oxidation water is introduced while being vortexed and discharged.

In addition, the micro-nano bubble oxidation water discharge pipe is characterized in that the air supplement portion is further provided so that the air is further mixed with the discharged micro-nano bubble oxidation water discharged to the outside.

In addition, the micro-nano bubble oxidation water discharge pipe is characterized in that the water supplement portion is further provided to be discharged to the outside by further mixing the water with the micro-nano bubble oxidation water discharged.

In addition, the vortex groove is characterized in that the bubble guide surface of the curve is further formed to prevent the micro nano-bubble oxidation water is caught when discharged from the vortex groove after vortex.

In addition, the air supply unit is characterized in that the outside air is sucked by the air pressure difference is mixed with the water inside and then stirred by the impeller.

In the present invention, the micro-nanobuble oxidation water generator is installed so that the impeller is rotated in the housing main body, and a vortex groove is formed inside the housing main body, and water and air and chemicals (oxidant) which are introduced into the housing main body and rotate into the vortex groove. By repeating the withdrawal process there is an effect to increase the formation efficiency of the micro-nano bubble oxidation water.

1 is a cross-sectional view showing a micro-nano bubble oxidation water generator according to the present invention.
2 is a cross-sectional view showing a state of use of the micro-nanobuble oxidation water generator according to the present invention.
Figure 3 is a cross-sectional view showing another embodiment of a micro-nanobubble oxidation water generator according to the present invention.
Figure 4 is a cross-sectional view showing a use state of another embodiment of the micro-nanobubble oxidation water generator according to the present invention.
Figure 5 is a partial cross-sectional view showing another embodiment of a micro-nanobuble oxidation water generator according to the present invention.
Figure 6 is a cross-sectional view showing another embodiment of a micro-nanobuble oxidation water generator according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the micro-nanobubble oxidation water generator according to the present invention with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary depending on the intention or convention of a user or an operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

In addition, the following examples are not intended to limit the scope of the present invention, but are presented by way of example only, and there may be various embodiments implemented through the present invention.

1 is a cross-sectional view showing a micro-nanobuble oxide water generating apparatus according to the present invention, Figure 2 is a cross-sectional view showing a state of use of the micro-nanobuble oxidation water generating apparatus according to the present invention, Figure 3 is a micro-nanobuble oxide water according to the present invention 4 is a cross-sectional view showing another embodiment of the generator, Figure 4 is a cross-sectional view showing a use state of another embodiment of the micro-nanobuble oxide water generator according to the present invention, Figure 5 is another Another embodiment is a partial cross-sectional view, Figure 6 is a cross-sectional view showing another embodiment of a micro-nanobubble oxidation water generator according to the present invention.

As shown in the drawings, the present invention, the micro-nanobubble oxidation water generator 10 is a micronanobubble oxidation water generator 10 to form and discharge the micronanobubble oxidation water by the rotation of the impeller, such a generator 10 includes a housing body 20, an impeller 30, a chemical supply 40, a separation protrusion 50, and an air supply 60.

The housing main body 20 has a water inlet tube 21 formed on the outer surface of the housing body 20 so as to be connected to the operating space so that water is introduced therein, and the micro-nanobubble oxidation water formed in the operating space is discharged. In communication with the space, the micro-nano bubble oxidation water discharge pipe 22 is formed on the outer surface. The micro-nano bubble oxidation water discharge pipe 22 further forms a discharge groove 223 so that the discharged micro-nano bubble oxidation water flows into the discharge groove 223 once more.

The water inlet pipe 21 is connected to the pump to transfer the external water to the housing body 20 through the water inlet pipe 21. The water inlet pipe 21 further forms an inlet groove 211 so that the inflow of water is introduced into the inlet groove 211 and then vortexed, thereby increasing the formation efficiency of the micronano bubble.

The working space formed inside the housing body 20 is formed in a circular shape so that the impeller 30 having a disc shape is disposed and rotated.

The housing body 20 is formed of a metal material, it is also possible to form a synthetic resin material.

The impeller 30 is disposed inside the housing body 20 to rotate. The housing main body 20 is provided with a drive motor to rotate the impeller 30, the rotating shaft of the drive motor is arranged in the working space, and the bottom surface of the impeller 30 is fixed to the rotating shaft The impeller 30 is rotated by the driving motor.

The upper and lower surfaces of the impeller 30 are formed such that the stirring blades 31 are arranged in an annular shape, thereby forming a micronano bubble by the rotation of the impeller 30. The stirring blade is formed while maintaining a predetermined interval on the edge of the upper surface and the bottom of the impeller 30. It is preferable to form the stirring blades formed on the upper and lower surfaces of the impeller 30 so as to cross each other. The stirring blade of the impeller is formed of a friction structure to facilitate the formation of the micro nano bubble.

Water, air and oxidant (chemicals) introduced into the working space are rubbed with the inner surface of the stirring blade 31 and the housing body 20 formed on the impeller 30 and the impeller 30 which are rotated, and while being stirred with the micronano. Bubble oxidized water is formed.

The chemical supply unit 40 is formed in the housing body 20 to supply a chemical (oxidizing agent).

The chemical supply unit 40 is made of a pipe structure, is formed in communication with the operating space on the outer surface of the housing body 20, the chemical supply unit 40 is connected to the chemical supply pump is supplied with the chemical from the outside To the working space.

The separating protrusion 50 is provided in the housing body 20 and the connector 51 is formed to pass through the water inlet pipe 21 and the micro-nano bubble oxidation water discharge pipe 22 to communicate with each other.

One end of the separation protrusion 50 is integrally formed on the inner surface of the housing body 20, and the other end thereof is disposed to be close to the outer surface of the one feller to form a partition structure, and the separation protrusion 50 is provided. One side of the water inlet pipe 21 is formed, the other side of the micro-nano bubble oxidation water discharge pipe 22 is formed, the water inlet pipe 21 and the micro-nano bubble oxidation water discharge pipe 22 to be divided into mutual partitions. do.

Water, air, and oxidized water introduced into the working space rotate along the direction of rotation of the impeller 30, and micronanobuble oxide water is formed and rotated, and then discharged to the outside through the microbubble discharge pipe.

The air supply unit 60 supplies air to the connector 51.

The air supply unit 60 is formed of an air hole 61 formed in the housing body 20 to communicate with the connector 51, the outside by the natural air intake method by the pressure difference to the air hole 61 Air is supplied. Alternatively, it is possible to connect the air pump to the air hole 61 to supply air.

At this time, the micro-nano bubble oxidation water that is rotated in the working space along the direction of rotation of the impeller 30 is discharged through the micro bubble oxidation water discharge pipe and the connector 51 by the pressure of the impeller 30 is rotated in part. ) Is introduced into the water supply pipe is moved to the position where the water supply pipe is disposed together with the air introduced through the air hole 61 to be mixed with the water introduced through the water supply pipe.

That is, since the micro-nano bubble oxidation water mixed with air is supplied to the water introduced (suctioned) from the water supply pipe through the connector 51, the size of the bubble formed when the air is directly supplied from the air supply unit 60 to the working space. In comparison, the size of bubbles formed in the introduced water can be reduced, thereby increasing the formation efficiency of the micronanobubble oxide water.

Inside the housing body 20, vortex grooves 23 are further formed in communication with the working space.

Water and chemicals moved by the impeller 30 are introduced into the vortex groove 23 and stirred while vortexing, and the friction and collision with the vortex groove 23 can increase the efficiency of forming the micro-nano bubble. .

The vortex groove 23 is further formed with a curved bubble guide surface 231.

The bubble guide surface 231 is prevented from being caught in the vortex groove 23 in the process of discharging the micro-nano bubble formed while vortexing in the vortex groove (23).

The water reaching the vortex groove 23 repeats the compression-> expansion-> destruction process in the process of vortex and is cut into micro and nano size to form free radicals, and the free radicals perform the function of the catalyst. The produced catalyst and the oxidizing agent (for example, sodium hypochlorite, ozone, chlorine dioxide, etc.) react to generate catalytic oxidation water.

The vortex groove 23 is further formed with a locking groove while maintaining a predetermined interval on the inner side, so that water or the formed micro-nano bubble flowing into the vortex groove 23 is caught by the locking groove and collides with each other, It is possible to increase the formation efficiency of the micro nano bubble.

The micro nano bubble oxidized water discharge pipe 22 is further provided with an air supplement 221 so that air is further mixed with the discharged micro nano bubble oxidized water, and the micro nano bubble oxidized water discharged through the micro nano bubble oxidized water discharge pipe 22. By mixing the air to increase the discharge efficiency and injection efficiency, it is possible to increase the discharge capacity.

An air supply pump is connected to the air replenishment unit 221 to supply external air to the micro-nano bubble oxidation water discharge pipe 22. The air replenishment unit 221 has a tubular structure, and the micro nano It is preferable to form integrally with the bubble oxidation water discharge tube.

The micro nano bubble oxidized water discharge pipe 22 is further provided with a water replenishment unit 222 so that water is further mixed with the discharged micro nano bubble oxidized water, and the micro nano bubble oxidized water discharged through the micro nano bubble oxidized water discharge pipe 22. By further mixing the water to increase the discharge efficiency and injection efficiency, it is possible to increase the discharge capacity.

The water replenishment unit 222 is connected to the water supply pump to supply water from the outside. The water supplement 222 is made of a tubular structure.

The housing body 20 may be further screwed into the vibrator vibrator on the outer surface, to increase the formation efficiency of the micro-nanobubble oxidation water by the rotation of the impeller 30 and the vibration of the vibrator.

By further processing or welding one end of the vibrating pins to the stirring vane 31, the vibration transmitted from the vibrator is transmitted to the vibrating pins to be transferred to water and chemicals, thereby increasing the efficiency of forming micro-nano bubble oxidized water again. It is desirable to.

The vibration pin is formed of a metal material, or alternatively, may be formed of a synthetic resin material having elasticity.

In addition, the inner surface of the housing body 20 is further formed by the striking pin, by hitting the striking pin in the process of rotating the impeller 30 so that the water vortex by its vibration or hook phenomenon, micro again It is possible to increase the formation efficiency of the nanobubble oxide water.

The blow pin is formed of a synthetic resin material having elasticity, and one end is preferably fused or bonded to the inner surface of the housing body 20 to be fixed. Alternatively, it is also possible to form a metal material having elasticity.

In the micro-nanobuble oxidation water generator according to the present invention described above, the impeller is rotatably installed in the housing main body, and a vortex groove is formed in the housing main body so that water, air, and oxidant (chemicals) injected into the housing main body are rotated. By repeating the process of drawing in and out of the vortex groove, it is possible to increase the formation efficiency of the micro-nanobubble oxidation water, thereby enabling mass production and lowering the production cost.

The micronanobubble oxidation water generator or catalytic oxidation water generator according to the present invention is referred to as 'megacera'.

One embodiment of the present invention described above is merely exemplary, and those skilled in the art will appreciate that various modifications and equivalent other embodiments are possible therefrom. . Therefore, it will be understood that the present invention is not limited to the forms mentioned in the above detailed description. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims. It is also to be understood that the present invention includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims.

10: micro nano bubble oxidation water generator 20: housing body
21: water inlet pipe 211: inlet groove
22: micro nano bubble oxidized water discharge pipe 221: air supplement
222: water supplement 223: discharge groove
23: vortex groove 231: bubble guide surface
30: impeller 31: stirring blade
40: chemical supply unit 50: separation protrusion
51: connector 60: air supply
61: air ball

Claims (6)

A micro-nanobuble oxidation water generator configured to discharge and form micronanobuble-oxidized water by rotation of an impeller, wherein a circular inlet space is formed therein and a water inlet pipe is formed so that water is introduced into one side. A housing main body in which a micro nanobubble oxidizing water discharge pipe is formed so that the formed micro nanobubble is discharged to the outside, and an impeller rotated to form micro nanobubble oxidation water by agitating water, air, and an oxidant disposed inside the housing main body; A separation protrusion formed in the housing main body and supplying a medicine to the working space, the separation protrusion formed inside the housing main body and connected to the water inlet pipe and the micro nano bubble oxidation water discharge pipe so as to communicate with each other; Air supply unit for supplying air to the connector In the micro-nano bubble oxidation water generator,
Vortex grooves are further formed in the housing body so as to communicate with the working space so that the micro-nano bubble is introduced while being vortexed and discharged.
The vortex groove is further formed with a curved bubble guide surface to prevent the micro-nanobubble oxidation water is caught when discharged from the vortex groove after vortex,
The housing body is further screwed into the vibrator vibrator on the outer surface,
One end of the vibrating pins are further welded to the stirring blades formed on the upper and lower surfaces of the impeller, so that the vibration transmitted from the vibrator is transmitted to the vibrating pins so as to be transmitted to water and chemicals. .
delete The method of claim 1,
The micro nano bubble oxidized water discharge tube is characterized in that the air supplement portion is further provided so that the air is further mixed with the discharged micro nano bubble oxidized water discharged to the outside.
The method of claim 1,
The micro-nano bubble oxidation water generator, the micro-nano bubble oxidation water generator, characterized in that the water supplement is further provided so that the water is mixed with the discharged micro-nano bubble oxidation water further discharged to the outside.
delete The method of claim 1,
The air supply unit is a micro-nano bubble oxidation water generator, characterized in that the outside air is sucked by the air pressure difference is mixed with the water inside and stirred by the impeller.

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