KR20120020775A - Ventury tube type nano bubble proceded water generator - Google Patents

Abstract

PURPOSE: A ventury tube type nano bubble processed water generator is provided to have simple structure and to be easily manufactured by a pours metallic sintered material. CONSTITUTION: A ventury tube type nano bubble processed water generator comprises a funnel-shaped raw water inlet(40), a frame(42) in the raw water inlet, in which one end is expanded to be hanged to a part of the flow path guiding hole(11) of the linear body(10), a guide hole(43) for focusing raw water, and a water outlet(50). The circumference of the nano bubble water generator(100) is surrounded by a circular pipe(101). An air inputting hose(102) is connected to the top of the circular pipe. Through micro pores(12) formed on the outer circumference of a porous body, air is continuously flowed in, when the raw water passes through the linear body.

Description

[Ventury tube type Nano Bubble proceded water generator} using porous sintered venturi tube with nano pore structure

The present invention relates to a multipurpose nano bubble water generator using a porous porous sintered venturi tube having a nano-pore structure,

More specifically, the venturi effect is a porous metal sintered body with a nano-structured pore layer that can draw nano-sized bubbles by aspirating outside air to produce sintered metal or foamed metal (METAL FOAM), porous ceramics or porous plastics (resin). The porous sintered body is a simple but easy to machine and assemble using the sintered body selected from the sintered body, and forms a venturi tube, and has a funnel shape over the outer circumference of the funnel-type raw water inlet and outlet of the venturi tube. Water flows into the parallel, straight pipe wall of the venturi tube through which the incoming raw water passes through a strong hydraulic pressure-induced stream created by the double venturi tube structure. Outside air by preventing it from falling back out Versatile nano-bubble water generator using nano-porous porous sintered venturi tube with improved material and structure of the venturi tube to efficiently generate nanobubble water by efficiently moving the water stream simultaneously with the introduction of the venturi tube. It is about.

As a panacea that protects health, water is a compound (H ₂ O) whose basic structure is composed of two hydrogen atoms and one oxygen atom, and plays an important role in the life of a living, depending on the purpose, drinking water, industrial water, animal husbandry water, agricultural water, etc. However, as the modern society becomes industrialized, the environment is polluted by the destruction of the ecosystem by the harmful environment and thus the water quality is also harmful to humans and animals and plants, causing various diseases and depleting and depleting food resources. In addition to the urgent need for clean water, much attention is being directed to the creation of functional water to restore health by activating a living body.

In the past, fish land farms that raise various types of fish in high-density spaces in a limited space deteriorate the water quality due to various contaminants such as food waste and excreta and insufficient oxygen supply, resulting in high mortality and pollution of the surroundings. In order to purify the water quality of aquaculture farms and to maintain proper dissolved oxygen (DO) to prevent fish diseases and to promote the growth of fish, oxygen is supplied using various types of diffusers, aberrations, aerators, etc. As the particle size of is very large, the oxygen dissolution rate in the water is very low and economical and effective oxygen supply is not possible compared to the consumed power. This will promote the growth of fish while preventing water contamination. Therefore, there is an urgent need for a means for generating a versatile purifying functional water to satisfy the required use characteristics of the purified water (nano bubble functional water) required for fish farming.

In order to solve the above problems, the present inventor has proposed a patent application No. 10-2010-0063300 "multipurpose nano bubble water generator using a pipe-mounted porous nano film membrane venturi tube" as a prior invention,

This is a porous nanofilm membrane venturi tube with a porous polymer film (POLYMER) with numerous pores (pores) of nanometers (nm = 1 billionth of a meter). By supplying the raw water in contact with the raw water to generate multi-purpose nano bubble water that reacts in a complex manner such as sterilization, cleaning, and activation functions, the present invention is mounted on a pipeline pipeline of a water pipe having a constant water pressure, and sterilization, cleaning, and activation functions. It is an eco-friendly water treatment device that supplies complex multi-functional nano-bubble water reacting to fish farms, pig farms, and vinyl houses, etc., and is easy to install and maintain. It is good, so if you attach it to aquaculture farms By circulating to functional water), the dissolution rate of oxygen is improved due to the circulation of water, and thus the amount of water used is reduced, thereby improving economic efficiency, and also preventing water pollution, so that the whole process of water change and internal cleaning and cleaning are required. It can be maintained in the same water environment as the first time without adversely affecting the loam or the water ecosystem, and it is suitable as an eco-friendly functional sterilized water that does not adversely affect the growth or survival rate of livestock etc. Aquaculture farms and livestock farms to reduce the cost of chemicals, promote growth, early shipments, and increase production, and when applied to agricultural water, the production, freshness, and quality of the foods are increased. It has the effect of enhancing competitiveness

However, the above-described invention of the applicant of the present application, despite the advantages of practicality, economical efficiency, expandability, etc., because the structure of the venturi tube in which the nano film is laminated on the plastic tube is complicated, it is difficult to produce and the cost is high.

When the flow rate decreases due to the pressure loss of the pumping pressure applied to the venturi tube to prevent the inflow of air (oxygen) from the outside, it is structural to prevent the pumping pressure loss applied to the venturi tube and to maintain a strong flow rate. Since there is no pressure control means, it is difficult to maintain a constant flow rate to efficiently suck air in the venturi tube, which makes it difficult to generate nano bubble water.

The present inventors endeavor to solve the above-described problems of the prior art,

It is a porous one-piece body structure with simple structure and easy to manufacture porous metal sintered body made of sintered metal, foam metal (METAL FOAM), porous ceramic or porous plastic (resin) sintered body A porous sintered body that is easy to machine and assemble to form a venturi tube,

A constant flow rate for efficient venturi effect by sucking external air at a constant pressure negative pressure generated by passing raw water at a higher flow rate than the prior art in a double venturi tube structure under pressure by a pump. The present invention is to develop a multi-purpose nano bubble water generator using the porous porous sintered venturi tube of the nanoporous structure of the present invention to prevent the deterioration of the venturi tube function of the flow rate decrease due to the pumping pressure loss.

As described above, the nano bubble water generator using the conventional porous nano film membrane venturi tube has various problems.

There is a technical problem to select a material that is simple in structure and easy to manufacture, but to develop a highly efficient nano bubble water generator that can prevent the deterioration of the Venturi tube function caused by a decrease in flow rate due to pressure loss.

The present invention has been made to solve the above problems,

A porous metal sintered body with nano-structured pore layer that can draw nano-sized bubbles by ventilating the outside air by venturi effect. Among the sintered metal or foamed metal (METAL FOAM), porous ceramic or porous plastic (resin) sintered body A porous, sintered body that is simple yet easy to machine and assemble using the selected sintered body to form a venturi tube, while concentrating the funnel-shaped raw water over the outer periphery of the funnel-type inlet outlet of the venturi tube and the straight tube inlet. Due to the double venturi structure formed by inserting the sphere, the flow velocity increases with the narrower flow path cross section, and the stronger stream forms turbulent flow, so that the water particles near the pipe wall of the straight pipeline flow path collide with the pipe wall, causing the water particles to fall between the pipe wall pores. To prevent external backflow phenomenon become In addition, it is possible to supply oxygen and special gas by sealing the periphery of the nano bubble water generator with a circular pipe or to allow air to be introduced even when installed in water. An object of the present invention is to provide a multi-purpose nano bubble water generator using a porous porous sintered venturi tube having a nano-porous structure in which the material and structure of a venturi tube are improved to facilitate the movement of water.

The present invention thus achieved,

The venturi tube is made of porous metal sintered body made of sintered metal, foam metal (METAL FOAM), porous ceramic or porous plastic (resin) sintered body, so the structure is simple and easy to manufacture, and the pressure is applied by pump It is possible to maintain a constant flow rate for generating nanobubble water by sucking external air at a negative pressure of a constant pressure generated by passing raw water flowing in a double structured venturi tube at a high flow rate, thereby decreasing the flow rate due to pressure loss. It is possible to prevent the deterioration of the air intake function of the venturi tube.

That is, the nano-bubble water generator of the present invention further increases the flow rate by further reducing the cross-sectional area of the flow path through which the raw water passes to form the nano-bubbles. It is possible to prevent the water particles surrounding the pipe wall of the straight flow path that form the nano bubble water from flowing back to the outside between the pores of the pipe wall, and also to seal the periphery of the nano bubble water generator with a round pipe to prevent oxygen and special gas. In the case of supplying or installing in water, the inflow of air is possible, so that it can be used for various purposes.

After all, the present invention is simple and easy to install and maintain, and can be applied to various fields such as agricultural water or livestock water, and is a highly expandable, environmentally friendly water treatment device. By generating and supplying water, it is suitable as an eco-friendly functional sterilized water that does not adversely affect the growth or survival rate of livestock, etc. The effect of shipment and increase of production is realized. When applied to agricultural water, it is possible to increase production, freshness and quality, thereby enhancing competitiveness of aquaculture, livestock and agriculture.

1 is an exemplary view showing the overall system configuration of a porous sintered nano-bubble water generator according to an embodiment of the present invention
2 is a block diagram showing the overall configuration of the porous sintered nano-bubble water generator according to an embodiment of the present invention
Figure 3 is a view showing the appearance configuration of the porous sintered nano-bubble water generator according to an embodiment of the present invention
4 is a use state diagram showing an embodiment for each use of the present invention
Figure 4a is a state of use of the porous sintered nano-bubble water generator equipped with the present invention on the land farm water supply pipe
Figure 4b is a state of use of the porous sintered body nano bubble water generator equipped with the present invention in the livestock feed pipe

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In order to achieve the above object, the configuration of the present invention will be described in detail with reference to the accompanying drawings, and detailed descriptions of known components that may obscure the gist of the present invention will be omitted.

The present invention is coupled to the middle of the water supply pipe 80 implements the Venturi effect by pumping the raw water to be pumped by the pump is rapidly sucked and discharged into the water flow at a high flow rate of a plurality of screw-shaped fastening fasteners at both ends It is provided with the water supply piping connection part 20 and the water supply piping connection part 30 as

As the raw water induction pipe that guides the raw water to taper the inside of the water inlet pipe connection part 20 and the water outlet pipe connection part 30, the raw water inlet hole 41 and the raw water discharge hole 51 which are inclined at a predetermined angle are rounded (42). ) Having funnel-type raw water inlet 40 and raw water discharge 50 provided therein, respectively,

Between the raw water inlet 40 and the raw water discharge unit 50 is provided with a hollow parallel straight tube-shaped body 10 having a narrow flow path guide hole 11 having a narrow cross section therein as a sintered body having a nanometer size pore size. By generating the ultra-fine nano-bubbles to the outside air drawn through the micro-pores 12 formed on the outer periphery of the body 10 and supplied to the incoming raw water to multi-functional multi-functional nano bubble water to react in a complex manner, such as sterilization, cleaning, activation function In the nano-bubble water generator 100 to supply to the demand destination,

Inner edge ribs 42 of the funnel-shaped raw water inlet 40 which are connected to the front end of the straight channel guide hole 11 of a narrow cross section inside the parallel tubular body 10 to guide the incoming raw water to a predetermined angle. The end is extended so that it extends over a portion of the straight flow path guide hole 11 at the tip of the straight body 10, and the funnel effect is reinforced by inserting a funnel-shaped raw water concentration guide 43. It is formed so that the negative pressure state of the appropriate pressure is maintained by passing the straight flow path guide hole 11 through the water flow of the hydraulic pressure to prevent the deterioration of the venturi tube air intake function due to the pumping pressure loss, so as to allow the smooth inflow of external air,

In addition, a predetermined area around the nano-bubble water generating device 100 including the straight tube-shaped body 10, the raw water inlet 40, and the raw water discharge 50 is circularly connected to the air inlet hose 102. By enclosing and closing the pipe 101 to prevent the loss of air flowing into the air intake area of the nano-bubble water generator 100, the pressure at which water escapes when the raw water passes through the straight body 10 formed of the porous sintered body ( By the water pressure of the pump) through the fine pores 12 formed on the outer periphery of the porous body 10 of the body to continuously enter the air to generate fine bubbles to dissolve and coexist in the raw water,

The porous structure of the micropores and the accelerating structure of the Venturi tube to make the flow velocity faster and the pressurized pumping action by the pump are functionally linked to each other to efficiently dissolve and contain the nanobubble water. As a multi-purpose nano bubble water generator 100 using a porous porous sintered venturi tube of nano-porous structure,

The nano-bubble water thus produced is a functional water that is rich in dissolved oxygen and performs a strong sterilization and cleaning action, with a strong hydraulic pressure along the straight channel guide hole 11 inside the straight tube-shaped body 10 in a state where the physical properties are converted. The nanobubble water is supplied to the discharge water supply pipe 80 through a negative water supply device such as a pig and a poultry farm connected to the water supply pipe.

As described above, the nano-bubble water generator 100 of the present invention, unlike the conventional nano-bubble water generator of the micro-bubble generation method for storing water, is a nano-bubble water generator equipped with a water supply pipe, adjacent sea and Simple, environmentally friendly and energy that can be produced and supplied at low cost so that it can be connected to the intake source 70 of a water treatment site such as a lake and connected in a bridge form on a pipeline pipeline of a water supply pipe 80 having a constant water pressure. It is a saving configuration.

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

The present invention, unlike the conventional nano-bubble water generating device of the water bubble aeration-type micro-bubble generating method of generating bubbles into the water in the water tank and changing the properties of the raw water by the gas-liquid contact as described above, oxygen of contaminated water In order to replenish the gas and maintain a constant concentration of dissolved oxygen (DO), the pipe is connected to the water intake source 70 near the water treatment site such as the sea and lakes, such as aquaculture farms and the like, and a constant water pressure is applied by the pressure pumping force of the pump 60. A narrow cross section formed inside the hollow straight body 10 formed of a porous sintered body in which the raw water to be treated is mounted in the middle of the pipeline of the supplied water supply pipe 80 and the micropore 12 is formed on the outer circumference of the raw water under pressure by a pump. Fine air in the surface of the body 10 by the negative pressure generated while passing the water flow at high speed through the linear flow path guide hole 11 of the body 10. (12) Pipe-mounted nano-bubbles to supply nano-sized bubbles (composite functions), such as sterilization purification and bio-activation functions, to the customer by dissolving and retaining nano-sized bubbles (bubbles) generated through the inflow through raw water. The water generator 100.

In the present invention, as described above, the sintered body having a nanometer size pore size and the raw water inflow hole 41 are formed at both sides of the hollow parallel straight tube-shaped body 10 in which a straight flow path guide hole 11 having a narrow cross section is formed therein. The funnel-shaped raw water inlet 40 and the raw-water discharge part 50 provided with the raw-water discharge hole 51 are provided, respectively, and comprise the long-term symmetrical venturi tube type nano bubble water generator 100. One end of the raw water inlet 40 and the raw water discharge unit 50 is provided with an annular rim shaped inlet pipe connecting portion 20 and a water outlet piping connecting portion 30 each having a screw portion (not shown). Is connected to.

As described above, the present invention is a nozzle assembly having a fitting structure of both sides that is easy to install a pipeline, and the raw water introduction portion 40 and the nano bubble water discharge portion 50 at both sides of the straight body 10 are connected to the water supply pipe 80. Inlet pipe connection portion 20 is a ring-shaped fastening member provided with a screw member to be connected to the water supply side water supply pipe 80 connected to the inlet side firmly tightly coupled to the nano-bubble water generator 100. ) And the outlet pipe connection part 30 are provided, respectively, by varying the length of the pipe to be assembled and the number of pipes according to the use conditions.

And the raw water inlet of the present invention as a fallopian tube-shaped guide pipe which guides the raw water pumped and supplied through the water supply pipe 80 by the motor of the pump 60 to be supplied through the water supply pipe 80 ( 40 is discharged from the inner wall tapered by the left inlet right side tapered raw water inlet hole 41, the raw water discharge portion 50 gradually tapered in the left side right side light Each of the holes 51 is formed so that the cross section of the flow path is narrowed or diffused to perform a venturi tube raw water guide tube having a functional structure to rapidly increase the flow rate by flowing water in a diagonal direction.

In addition, as described above, the diameter is gradually enlarged by the inlet hole 41 having a short pipe shape and the inlet length having a narrow end and a wide end at the entrance and exit, respectively, the diameter of which is gradually reduced by the guide surface formed to be tapered. The inclined angle of the raw water discharge hole 51 is a conical compound angle (preferred embodiment: contact angle: raw water inlet hole 21 ° water discharge), which makes it possible to greatly maximize the venturi effect of the flow rate increase compared to the horizontal water flow. The inclination angle of each hole inner diameter can be varied according to the diameter, length of the pipe, and pumping pressure of the pump.

As described above, the present invention is composed of a sintered body using a venturi effect in which negative pressure is generated while passing the water to be treated through the venturi tube-shaped nano bubble water generator 100 while the pressure is applied by the pump 60. It absorbs external air through the micropores 12 on the outer circumferential surface of the body 10 to generate microbubbles and coexists in the inflowing raw water in dissolved or gaseous state to enrich dissolved oxygen and perform powerful sterilization and cleaning. A device for generating nano-bubble water, which is formed over the end of the raw water inlet 40 and the front end of the straight body 10, in particular, the diameter of the flow path being narrowed so that the cross section of the flow path is narrowed to generate negative pressure. Enhances the Venturi effect by equipping the funnel-shaped raw water concentrating guide 43 for concentrating the water flow in the negative pressure area to maximize the Venturi effect. By forming able to use it to maintain a fast flow rate, without the discharge pressure of the raw water fed to the water supply pipe it is characterized reduced to facilitate the introduction of air.

In the present invention, the air injection hose 102 has a predetermined area of the nano-bubble water generator 100 including the straight tube-shaped body 10, the raw water inlet 40 and the raw water discharge 50. By enclosing the circular pipe 101 at a predetermined interval and maintaining a sealed state, it is formed to prevent the air from flowing into the air intake area around the nano bubble water generator 100 and to continuously supply the air.

In addition, the body 10 of the straight structure of the present invention is a hollow long straight tubular structure of a narrow diameter straight pipe guide hole 11 is formed therein by the high speed water flow and nano-sized micropores 12 The venturi effect, which induces the creation of microbubbles by inhaling air, efficiently sucks the outside air to produce nano-sized bubbles in gaseous form, and the resulting nano-bubbles are in gas-liquid contact with the incoming raw water. As the functional water, the nano bubble water is transferred to the water supply pipe 80 at the rear end of the nano bubble water generator 100.

The body 10 is a porous sintered body in which nano-structured micropores 12 are integrally formed as porous through pores having a specific surface area per unit volume, high strength, ultra-light weight, simple, good mechanical workability, permeable to air, and impermeable to water. Since the straight tube-shaped body 10 of the present invention is formed by a sintering process, any porous material may be formed of a porous sintered body in which numerous pores are formed on the surface and inside thereof, regardless of materials (not limited to metals, but also ceramics). Application is possible, and any one selected from a porous metal sintered body in a sintered metal or a foam metal (METAL FOAM), a porous ceramic, or a porous plastic (resin) sintered body can be used.

As a selective separation membrane, the body surface consisting of fine pores provided on the outer circumference of the body 10 is preferably installed as thin as possible so that no water film is formed and the resistance to gas diffusion is minimized. About 0.001㎛? It is desirable to have a pore size in the range of 0.01 μm (1-10 nm).

In addition, the sintered body structure of the tubular body 10, which is composed of metal particles directly sintered and has a space between the particles and is entirely porous (breathable), is not a single pore layer but two or It is also possible to asymmetrically construct a pore layer having two or more of the various pore characteristics with three different pore sizes, for example, air filtered through a layer having a smaller pore size is drawn out through a support layer having a larger pore size below. Formation with an outgoing multiple particle size distribution structure results in less pressure loss and higher gas permeability.

Also, for example, in the embodiment of the present invention shown in FIG. 2, a foamed metal is shown as a porous sintered body. As a porous metal having numerous bubbles in the metal material, the foamed metal is lightweight and the metal powder is arranged in almost one layer. By forming the porous nanostructured pore layer, it effectively realizes the air intake effect with selective breathability and wide specific surface which allows gas to pass through with high porosity of more than 98%. OC) has a characteristic of easily passing gas or fluid.

In addition, the sintered metal is a conventional sintered metal that realizes high suction efficiency under low differential pressure conditions by forming a nano-structured pore layer in which pores are not blocked by fixing the synthesized metal nanoparticles on a micron metal fiber filter. Can also be used.

As a result, the nanobubble formed in the body 10 having a straight tube shape as the porous sintered body of the present invention has an average diameter of about 200 nm and has a contact surface of 100 times or more than the microbubble, thereby greatly improving sterilization by contacting bacteria or bacteria. Therefore, it has excellent dissolution efficiency, contact efficiency, and purification efficiency with the high speed water flow flowing into the body 10 of the porous sintered body, and thus the gas-liquid contact area with the inflow source water supplied by the venturi tube action and pumping force. It can maximize the dissolved oxygen which is essential for fish or livestock growth, converting it into optimal water quality and supplying it stably.

The fine nano-bubbles generated by the air introduced into the porous body 10 of the present invention reacts with the raw water to produce nano-bubble water, but the nano-bubble water appears to disappear due to the smaller bubbles (bubbles) on the surface. As the bubble is compressed by the self-pressurization effect of ultra-fine bubbles generated by the surface tension in the bubble (bubble) having a spherical interface, the ions are concentrated on the surface of the bubble, and the concentrated ions are concentrated. Acts as a shell surrounding the bubble, preventing the gas from scattering in the bubble is prevented from being dissipated and the dispersion of the gas in the nano-bubble is suppressed and stabilized as a nano-bubble. The internal pressure is high and the nano bubbles can last for a relatively long time, so it is stabilized and the buoyancy is small. Self-floating and vortex operation allows the bubble to be delivered remotely, so that raw water and nano bubbles can be mixed smoothly, and this effectively dissolved nano bubble water can minimize frictional resistance by reducing friction with the inner wall of the pipeline. It is possible to transfer liquid by energy, which reduces the pumping power cost.

In particular, the nano-bubble water generating device of the present invention further increases the flow rate by further reducing the cross-sectional area of the flow path through which the raw water passes to form the nano-bubbles, and the stronger water stream forms turbulent flow to suck the outside air while the incoming raw water passes through By forming the nano bubble water smoothly and minimizing the flow resistance of the water flow, it is possible to prevent the water particles surrounding the pipe wall of the straight flow path through which the inflowing raw water passes, hitting the pipe wall and flowing back out between the pores of the pipe wall.

After all, the present invention combines the water purification effect, sterilization effect, and dissolved oxygen enhancement effect in combination to improve the dissolution of oxygen in aquaculture farms due to the supply of nano-bubble water whose physical properties are changed, and the amount of discharged water is also reduced. In addition to improved economics, optimal water quality also prevents water pollution and promotes the growth of living organisms.

An embodiment of adopting the nano-bubble water generator 100 of the present invention formed as described above in the aquaculture farm for farming fish will be described in detail with reference to the accompanying drawings.

As a water intake source 70, a pressurizing pump 60 for supplying raw water from an adjacent sea or the like is installed on the land, and a pressurized pump 60 installed on the land is connected to the aquaculture tank 210 of the aquaculture farm 200. Of the water supply pipe 80 is connected to the end of the water supply pipe 80 is provided with a plurality of distribution pipes 90 for supplying a constant supply of nano-bubble water to the culture water tank 210, the pipeline pipe of the water supply pipe (80) The nano-bubble water generator 100 is mounted in the middle, and the raw water discharge part 50 on the other side of which the incoming raw water passes through the straight channel guide hole 11 having a narrow cross section formed in the venturi tube-shaped body 10 is opposed. Air is introduced into the microporous layer 12 provided on the outer surface of the body 10 by the pressure of the raw water exiting, so that microbubbles are generated. Compared with a large amount of nano By generating bubbles, the dissolved oxygen rate can be improved,

 Raw water supply forcibly inhaling water and discharging it in the other direction by the venturi effect of the nano bubble water generator 100 configured to have a predetermined inclination angle wide and narrow toward the rear end so that the raw water can be smoothly introduced In the process, the funnel-shaped raw water concentration guide 43 prevents the flow rate from dropping, thereby generating nano-bubble water activated by rapid oxygen transfer efficiency, and constructing a nano-bubble water supply system that is supplied by circulation filtration to the land farm tank. By doing so, there is no separate oxygen tank equipped with a compressor, which reduces operating costs.

In this way, the economically generated nano-bubble water is continually and forcibly circulated through the water in the aquaculture tank 210 by supplying the nano-bubble water without a separate water storage tank that needs to be changed frequently. It can be maintained and drained through the drain if necessary so that the proper water level can be maintained at all times, eliminating the hassle of regularly changing and cleaning the water in the tank, thereby minimizing the waste of water. The control of the overall apparatus according to the present invention is automatically or manually connected to a control device controlled by a microprocessor (not shown), a display unit for displaying an operation state, a timer for adjusting the time, and a measuring device for measuring the amount of dissolved oxygen. It is formed to be driven so that it can be sterilized and cleaned separately. Without the use of antimicrobials or antibiotics, it is sensitive to environmental stress and prevents the death of fish weakened by bacterial or viral infections and promotes growth, thereby increasing the production of farms.

In addition, the multi-purpose sintered nano-bubble water generator according to the present invention is installed in a feed pipe such as a pig house 300 and stored primarily in the storage tank 310 and then through a distribution pipe 311 connected to the water supply pipe 80. When the nano-bubble water is fed to the drinking fountain (312) and the nano-bubble water is consumed by pigs, etc., the growth rate of livestock according to the feeding of the nano-bubble water is improved. Additional effects of the reduction can be realized simultaneously.

Therefore, the apparatus for producing sintered nano-bubble water of the present invention includes the above-described embodiments of the fishing, livestock, and agricultural fields, environmental fields, sewage treatment-related facilities, advanced water treatment facilities, soil purification, various cultures, nutrient solutions, live fish tanks, and aquariums. Versatility in various fields such as industrial field (drainage treatment, cleaning), health field (bathing facility, bathtub, artificial carbonated spring, water purification, toilet), medical care (precision diagnosis), home appliance (washing machine), ship (reduction of hull resistance) Can be used as

In addition, the nano-bubble water generator of the present invention can supply oxygen and special gas from the ground through the air injection hose 102 communicated with the circular pipe 101 by sealing the peripheral portion of the circular pipe 101, as well as in the water Even if it is installed in the air, it is possible to use the air because it is possible to inflow.

The present invention described above is not limited to the above-described embodiment as various substitutions and changes can be made by those skilled in the art without departing from the technical spirit of the present invention. .

100: nano bubble water generator
101: round pipe 102: air injection hose
10: body 11: straight euro guide hole
12: Fine pore 20: Inlet pipe connection
30: outlet piping connection
40: raw water inlet 41: raw water inlet
42: Borders 43: Enemies Focus Guide
50: raw water discharge part 51: raw water discharge hole
60: pump 70: water intake
80: water supply pipe 90: distribution pipe
200: Aquaculture farm 210: Aquaculture tank
300: barn 310: storage tank
311: distribution pipe 312: drinking fountain

Claims (2)

The water supply pipe 80 is coupled to the middle and implements a venturi effect, so that raw water pumped into the pump is rapidly sucked and discharged into the water stream at a high flow rate. The connection part 20 and the water discharge piping connection part 30,
As the raw water induction pipe that guides the raw water to taper the inside of the water inlet pipe connection part 20 and the water outlet pipe connection part 30, the raw water inlet hole 41 and the raw water discharge hole 51 which are inclined at a predetermined angle are rounded (42). ) Having funnel-type raw water inlet 40 and raw water discharge 50 provided therein, respectively,
Between the raw water inlet 40 and the raw water discharge unit 50 is provided with a hollow parallel straight tube-shaped body 10 having a narrow flow path guide hole 11 having a narrow cross section therein as a sintered body having a nanometer size pore size. By generating the ultra-fine nano-bubbles to the outside air drawn through the micro-pores 12 formed on the outer periphery of the body 10 and supplied to the incoming raw water to multi-functional multi-functional nano bubble water to react in a complex manner, such as sterilization, cleaning, activation function In the nano-bubble water generator 100 to supply to the demand destination,
Inner edge ribs 42 of the funnel-shaped raw water inlet 40 which are connected to the front end of the straight channel guide hole 11 of a narrow cross section inside the parallel tubular body 10 to guide the incoming raw water to a predetermined angle. The end is extended so that it extends over a portion of the straight flow path guide hole 11 at the tip of the straight body 10, and the funnel effect is reinforced by inserting a funnel-shaped raw water concentration guide 43. It is formed so that the negative pressure state of the proper pressure is maintained by passing the straight flow path guide hole 11 through the water flow of the hydraulic pressure to prevent the deterioration of the air intake function of the Venturi tube due to the pressure loss, so as to allow the smooth inflow of external air,
In addition, a predetermined area around the nano-bubble water generating device 100 including the straight tube-shaped body 10, the raw water inlet 40, and the raw water discharge 50 is circularly connected to the air inlet hose 102. By enclosing and closing the pipe 101 to prevent the loss of air flowing into the air intake area of the nano-bubble water generator 100, the pressure at which water escapes when the raw water passes through the straight body 10 formed of the porous sintered body ( By the water pressure of the pump) air is continuously introduced through the micropores 12 formed on the outer periphery of the porous body 10 of the body to generate fine nano bubbles to dissolve and coexist in the raw water.
The porous structure of the micropores and the accelerating structure of the Venturi tube to make the flow rate faster and the pressure pumping action by the pump are functionally linked to each other to efficiently dissolve and contain the nanobubble water containing the nano-sized micro-bubbles. Multipurpose nano bubble water generator using porous porous sintered Venturi tube with nano pore structure The method of claim 1,
The sintered body which forms the straight tube-shaped body 10 is a porous material having a nano-porous structure, characterized in that the sintered body selected from a porous metal sintered body in a sintered metal or a foam metal (METAL FOAM), or a porous ceramic or a porous plastic (resin) sintered body. Multipurpose Nano Bubble Water Generator Using Sintered Venturi Tube

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