KR101188635B1 - Ventury tube type Nano Bubble proceded water Generator - Google Patents

Abstract

The present invention is different from the conventional nano bubble water generating apparatus of the micro bubble generation method of generating a nano bubble water by providing a separate compressor for injecting compressed air, the pipe is connected to the intake source of the water treatment site, such as the adjacent sea or lake A simple, energy-saving cylindrical tubular porous nanofilm membrane venturi tube that can be produced at low cost on a pipeline pipeline with a hydraulic pressure pipe can be pressurized and pumped through the pipeline by a transfer pump. The raw water is passed through a venturi tube equipped with a nanometer-sized pores with a large number of pores, and the external pump is sucked in by the powerful pumping action by the pump and the composite action by the venturi. Oxygen is dissolved or bubbled in the water pipe This function is activated, and the sterilization and cleaning functions are converted to improve the function of oxygen, as well as water purification and antibiotic-free functional water containing nano-bubbles to help the organisms grow. The present invention relates to a multi-purpose nano bubble water generator using a pipeline-mounted porous nano film membrane venturi tube that can be supplied to agricultural water.

Description

Ventilation tube type Nano Bubble proceded water generator using porous nano film membrane Venturi tube

The present invention relates to a multipurpose nano bubble water generator using a pipe-mounted porous nano film membrane venturi tube,

More specifically, it is equipped with a separate compressor for injecting compressed air, and it is a diffuser installed at the bottom of the tank to supply nano-pore-sized micro bubbles (bubbles) containing oxygen into the tank and sterilize and purify by contacting the raw water with gas to be treated. Unlike the conventional nano bubble water generating device of the micro bubble generation method in the tank to generate the nano bubble water converted to the functional water of the bio-activation function,

A simple, energy-saving, tubular porous nanofilm membrane venturi tube that is plumbed to a source of water at a water treatment site, such as an adjacent sea or lake, and can be produced at low cost on pipeline pipelines with constant water pressure. Just to do

 Venturi with a porous polymer film (POLYMER) membrane with numerous pores (pores) of 5-20 nanometers (nm = 1 billionth of a meter) in size. Powerful pumping operation by pump through tube and reducing the cross-sectional area of pipe through which raw water flows, and venturi which generates differential pressure, supplies raw water to injection nozzle rapidly without deterioration of pumping performance, Ultra-fine air that is sucked into the nanoporous structure polymer film (POLYMER) membrane of the venturi tube outer periphery, which can induce air in a way that fundamentally blocks microorganisms and bacteria. Nanobubble in the form of bubbles to bring air into contact with the incoming raw water in the form of inhaled bubbles. As it is absorbed and compressed by the pump pressure, oxygen is dissolved or existed in the nano bubble state in the water pipe line, which activates the function and improves sterilization and cleaning functions. Functional water containing nano bubbles (water containing fine oxygen bubbles invisible to the naked eye), which can be used for water supply, can be supplied to fish farms, barn houses, and agricultural facilities, such as barns and vinyl houses, which must always be supplied with purified water through a spray nozzle. The present invention relates to a multi-purpose nano bubble water generator using porous nano film membrane venturi tubes.

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 that satisfies the required use characteristics of the purifying functional water required for a fish farm.

In order to solve the above problems, the inventors of the present invention is a patent application No. 10-2008-0122235, the air and ozone generated by pressurizing the compressor alone or compressed gas together with 5 to 20 nanometers (nm = 1 billion minutes) It is supplied to a diffuser (acid pipe) filled with a porous polymer film (POLYMER) having a large number of pores (pores) of 1 meter) size, and the ultra-high pressure bubbles of oxygen or ozone or chlorine dioxide generated by pressure release alone or mixed By continuously supplying and contacting the raw water flowing into the water treatment tank under the condition, it generates the nano-bubble treated water (water containing nano-bubbles, bubbled water) with the maximum energy of dissolution efficiency, contact efficiency and purification efficiency with less energy. Nano bubble water generator has been proposed.

Applicant's earlier application 'nano bubble water generator' of the present applicant is continuously circulating filtered water such as aquaculture farms activated by ultra-bubbles of nano bubbles in which oxygen, ozone or chlorine dioxide are dissolved at the same time. Efficient supply and maintenance of nano bubbles in the nanobubble for several months, supplying and dissolving dissolved oxygen needed for fish farming, antibacterial, antiparasitic, cleaning, adapting to fish's environmental changes and improving growth, saving water and saving power While operating costs can be realized simultaneously with energy savings,

Pressure tanks and compressors that provide compressed air to the water treatment tank must be provided, which increases the complexity, increases the size, consumes a lot of energy, and causes clogging of the spray nozzles that continuously supply air to the water through bubbles. As the oxygen dissolution rate of the working bubble is low, it cannot be supplied as a multifunctional sterilized functional water such as pigs, which has a limited use.

Accordingly, the present inventors have endeavored to comprehensively solve the above-described problems of the prior art. As a result, the present invention has a porous nano-film having a porous polymer film (POLYMER) having a large number of pores (pores) having a size of nanometer (nm = 1 billionth of a meter). The film membrane venturi tube allows the nanopore-sized bubbles produced on the pipeline to be directly contacted with the incoming raw water to generate multi-purpose nano-bubble water that reacts complexly with sterilization, cleaning, and activation functions. A multi-purpose nano bubble water generator using a porous nano film membrane venturi tube with a pipe mounted to be mounted on a pipeline pipe of an excitation pipe and to supply multi-purpose nano bubble water to agricultural facilities such as a farm, a pig farm, and a vinyl house. It was developed.

As described above, the conventional nano bubble water generator has various problems, and thus does not meet the requirements of using purified water (nano bubble functional water) required for fish farms.

Since the pressure tank and the compressor must be provided, the device becomes complicated and requires a lot of power costs, and clogging of the injection nozzle that continuously supplies air through the bubble occurs, and the oxygen dissolution rate is low, so that the multifunctional sterilization of livestock such as pigs Avoid the conventional nano bubble water generator (waterborne nano bubble water generator) of the micro bubble generation method that cannot be supplied to the functional water,

Inhalation of air on the water pipe line The nano particle-sized bubbles with high oxygen dissolution efficiency in the air generated by using the membrane with the porous macromolecular film of micropore are dissolved or existed in the incoming raw water immediately. Pipe-mounted porous nanofilms that can be supplied to fish farms or barns for supplying nano bubble-containing functional water (water that dissolved fine oxygen bubbles invisible) with increased dissolved oxygen in water. A multi-purpose nano bubble water generator using a membrane venturi tube has a technical problem to solve the problems of securing oxygen and water quality management, which are essential for fish growth, by forming a simple structure of low energy generation circulating filtration type.

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

The nano-film membrane guides the water to both sides around the nano bubble water generating unit formed on the outer circumference of the straight tube shape, and the raw water is sucked rapidly, and the through-holes for converting and discharging the raw water into the functional water at a high flow rate are respectively inside. A nano bubble water generator is formed in which both ends of the pipe are connected to both ends of the raw water inlet and the nano bubble water discharge unit, which are formed in both symmetrical venturi tube shapes, and the water pipe connected to the raw water supply source and the nano bubble water supply source. When the incoming raw water passes through the nano bubble water generating device, the air bubble is sucked using the Venturi principle, and the ultra-bubble generated through the nano-membrane is supplied to the incoming raw water to generate nano bubble water. As a water generator,

The porous polymer film (POLYMER) membrane with numerous holes (pores) of 5-20 nanometers (nm = 1 billionth of a meter) is supplied to the raw water to be pumped and pumped through a constant pressure water pipe by a transfer pump. Powerful pumping operation by pump and narrowing the cross-sectional area of pipe through which raw water flows, and venturi which generates differential pressure by supplying raw water to spray nozzle rapidly without deterioration of pumping performance. Air that is sucked into the nanoporous structured polymer film (POLYMER) membrane of the outer periphery of the Venturi tube that inhales air and creates nanoparticles of uniform size by fundamentally blocking water, microorganisms, and bacteria while passing through the air Nanobubble in the form of ultra-fine bubbles in a moment to make contact with the incoming raw water in the form of inhaled bubbles It is absorbed and compressed by the water pressure of the pump by the action of air pressure difference, and the oxygen is supplied on the water pipe duct to activate the function and to improve sterilization and cleaning functions. Using porous nano film membrane venturi tubes to supply functional water containing nano bubbles (water containing fine oxygen bubbles invisible to the naked eye) to supply fish farms or barns which should always supply purified water An object of the present invention is to provide a multipurpose nano bubble water generator.

The present invention thus achieved,

As the feed pump has a large number of pores (pores) of 5-20 nanometers (nm = 1 billionth of a meter), pressurized and pumped raw water is pumped through a constant water pipe. A porous polymer film (POLYMER) membrane, which promotes physical reactions, is passed through a venturi tube provided at the outer circumference to convert air introduced by the nanoporous structure film into nano-bubbles (bubbles) having a fine particle size,

The nanobubble is effectively contained in raw water so as to have high dissolution rate, and it contains nanobubble that helps the growth of living organisms.It has high oxygen dissolution rate and improves sterilization and cleaning function to produce functional water with activated function. It can be supplied to farming water such as farms, barns, and plastic houses,

Unlike the conventional nano bubble water generator of the micro bubble generation method in the tank, it is simple by the organic bonding of the porous nano film membrane which produces the venturi tube structure which speeds up the flow rate and the ultra fine particle bubble (bubble) and supplies it to the flowing water. It is cheaper to manufacture, and oxygen is supplied from the raw water inlet pipe, which is the most effective place for producing functional water, so the amount of dissolved oxygen in raw water is also maximized to reduce frictional resistance in the pipeline of pumped water, which can operate with less energy. There is.

In particular, the present invention is equipped with aquaculture farms by continuously supplying the purified nano-bubble water by circulating filtration method without the long-term exchange (total change) of the entire water in the farm, new water (nano bubble function) By circulating 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 it is necessary to change the whole, and to clean and wash the inside. It can always maintain the same water quality as the first time without adversely affecting the water ecosystem.

When used in livestock farms such as pig houses, it is suitable as an eco-friendly, functional sterilized water that does not adversely affect the growth or survival rate of livestock etc. It is effective in reducing the cost of medicine, promoting growth, early shipment, and increasing production in fisheries (farming) and livestock farms. When applied as agricultural water, it can increase production, freshness and quality, which can enhance the competitiveness of aquaculture, livestock and agriculture.

1 is a perspective view showing the overall configuration of the nano-bubble water generator according to an embodiment of the present invention
Figure 2 is an exploded perspective view of the nano-bubble water generator according to an embodiment of the present invention
3 is a cross-sectional view of the nano-bubble water generator according to an embodiment of the present invention
Figure 4 is an enlarged cross-sectional view of the main portion of the nano-bubble water generator according to an embodiment of the present invention
5 is a state of using the nano bubble water generator equipped with the present invention on the land farm water supply pipe
6 is a state diagram using the nano-bubble water generator mounted on 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 provides ultra-foam bubbles produced through a tubular body of a cartridge type in which a porous polymer (POLYMER) nanofilm 23 having a nanometer size pore size and a nonwoven filter 24 are laminated in two layers on a circumferential surface in a membrane form. In the nano-bubble water generating device 100 to supply the influent raw water to generate the nano-bubble water to supply to the demand destination,

A straight pipe having a perforated portion 21 having a plurality of vents formed therein is a nano film membrane having a narrow cross-sectional straight passage guide hole 22 penetrating therein and provided with a nano film 23 and a nonwoven filter 24. The nanobubble water generating unit 20 formed on the outer periphery is tapered to guide the inflow of raw water at predetermined inclination angles on both sides, so that the raw water is rapidly sucked in and converts the raw water into the functional water of sterilization cleaning function at a high flow rate. As the through hole for discharging, the raw water inlet 10 having the raw water guide hole 11 and the nano bubble water discharging part 30 having the nanobubble water guide hole 31 therein are symmetrical venturi tubes. It is formed and coupled to the raw water inlet 10 and the nano-bubble water discharge unit 30 in the middle of the feed water intake source 70 and the water supply pipe 80 connected to the source of nano-bubble water, such as the land farm 200 or barn 300 Nano to make To form a beulsu retrieving pipe connection 40 and the nano-bubbles can connecting water outlet pipe (50) to nano bubbles of the cartridge type provided at both ends with prefabricated generator,

When the incoming raw water passes through the nano-bubble water generator, the narrow water supply hole 11 and the nano-bubble water generating unit 20 are gradually narrowed by using the Venturi principle of attracting water sequentially. Fast air flows through the cross-sectional straight flow path guide hole 22 to suck air from the atmosphere through the nano-pores 23b micropores 23b of the nano-film membrane, and instantly generates the ultra-foam bubbles generated in the straight flow path guide hole. Compressor with organically introduced air from the atmosphere by organically combining the venturi tube structure, which feeds the inlet raw water of the high speed water flowing through the (22), and accelerates the flow rate to generate nanobubble water, and the porous nanofilm membrane of the microporous pores. It generates even and fine bubbles in the raw water with only water pressure without driving, and activates the raw water in which the nano bubble is dissolved and rich in dissolved oxygen. By converting the physical properties into nano-bubble water that performs a strong sterilization and cleaning action, the nano-bubble water can be transported with little energy of the pump 60 along the straight flow path guide hole 22 without the flow resistance with the hole wall surface. It is a device to supply nanobubble water through the drinking water supply system of pig and poultry farm using water supply pipe.

The nano-bubble water generator 100 of the present invention is a pipe-mounted nano-bubble water generator, unlike the conventional nano-bubble water generator of the micro-bubble generation method for storing water as a water treatment site such as an adjacent sea and lake It is a simple, environmentally friendly and energy-saving configuration that can be produced and supplied at low cost on the pipeline conduit of the water supply pipe 80 connected to the intake source 70 of the water supply pipe 80 with a constant water pressure.

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 water 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 farm, etc. A narrow flow path having a narrow cross section formed in the nano bubble water generating unit 20 provided with the porous thin film nanofilm 23 on the outer circumference of the raw water to be treated in a state in which it is mounted in the middle of the water supply pipe 80 and is under pressure by a pump. Negative pressure generated while passing the water flow through the through-hole 22 at high speed allows external air to flow into the fine pores 23b of the nano-film 23. Dissolving a bubble (bubbles) generated in the write nanoscale the raw water and the residue was purified sterile, bio-active function such as a combination of function could nano bubbles in the pipeline mounted for supplying the converted nano bubble generator on demand.

The nano-bubble water generator 100 of the present invention described above is provided with a simple yet energy-saving venturi tube structure that can be produced at low cost, and a porous nano-film for generating nano-particle sized micro bubbles, respectively, which are functionally linked to each other. To generate nano-sized bubbles and supply them to the incoming raw water, and to convert the physical properties into nano-bubble water as a functional water containing nano-sized bubbles, the pumping force and the venturi action is organically combined to accelerate the supply of nano Bubble water is a venturi tube structure in a nozzle assembly that can reduce frictional resistance in the holes of a pipeline, allowing it to operate with less energy,

As a hole for allowing the raw water, which is fluid, to flow in and out, a narrow, straight, linear flow path guide hole 22 is formed therein, and a plurality of fine vents (pores) are formed at a predetermined interval on the lower side of the outer periphery. The pump from the adjacent water intake source 70 to one side centering on the nanobubble water generating unit 20 in which the perforated perforated portion 21, the thin porous polymer nanofilm 23, and the nonwoven fabric filter 24 are formed in two layers. 60) The raw water guide hole in the form of a blunt-conical conical narrowing conduit having an inner wall of the left light right narrowing tapered to guide the raw water flowing into the pump and induce a negative pressure to increase the flow velocity. ) Is provided with a raw water inlet 10 and a screw groove coupled to the inlet pipe connection portion 40 provided therein, the other side opposite to the nano-bubble generated in the nano-bubble water generating unit 20 class Nano equipped with nano bubble water guide hole 31 in the form of a blunt conical diffusion conduit having an inner wall which is tapered gradually to the left side right light so as to smoothly supply the pipe 80. The bubble water discharge portion 30 and the water discharge pipe connection portion 50 coupled thereto are formed in the shape of a cylindrical venturi tube having a sequential functional structure formed in both symmetry.

As described above, the raw water inlet 10 and the nanobubble water are discharged convexly protruding from both sides of the nanobubble water generating unit 20, which is formed flat in a narrow diameter in a straight tube shape. Part 30 has a janggu shape formed in both sides symmetrically as a basic form, the raw water introduction portion 10 is the raw water guide hole 10 of the inner wall tapered with the left right narrow (左 廣 右 陜) nano The bubble water discharge part 30 is formed with a nanobubble water guide hole 31 of the inner wall gradually tapered to the left side right light, so that the cross section of the flow path is narrowed or diffused, thereby increasing the flow velocity. A venturi tube having a functional structure is formed, and as a small diameter tube, a fluid flows through the straight straight flow channel guide hole 22 provided in the nano-bubble water generating unit 20 in the center, and guides the pressure to decrease. By the pressure of the water exiting the external air flows into the fine pores (23b) of the nano-film 23, the nano-sized micro-bubbles (bubbles) generated by including in the inlet raw water passing through the straight flow path guide hole 22 It is the structure to generate nano bubble water.

The inclination angles of the short pipe-shaped raw water guide hole 11 and the long nano-bubble water guide hole 31 having the narrow end and the wide end to form an inner tapered tape have a venturi effect of increasing the flow velocity compared to the horizontal water flow. Cone-shaped compound angle (preferred embodiment: contact angle: raw water guide through hole 21 ° nano bubble water guide through hole 7 °) to maximize the diameter of the hole, the inclination angle of the bore diameter is the diameter, the length of the pipe, the pumping of the pump It can be changed according to the pressure condition.

On the other hand, a narrow diameter straight channel guide hole 22 is formed therein, and the nanobubble water that generates nano bubbles by inhaling outside air as a venturi effect to increase high-speed water flow and efficiency of generating micro bubbles in the nano film. The outer periphery of one side of the generating unit 20 is formed with a perforated part 21 in which fine vent holes are uniformly perforated at regular intervals, and the perforated part 21 is wrapped in the circumferential direction to form a nano-scale microporous polymer nano film ( 23) and the non-woven fabric filter 24 are formed to form a membrane to form a nano-sized gas-like nano-bubbles in contact with the air by the polymer nano-film (23), which acts easily even at low pressure, It is a functional water containing nano bubbles by gas-liquid contact, and it generates nano bubble water which minimizes frictional resistance with piping pipes. As described above, the nonwoven fabric filter 24 and the porous polymer nanofilm 23 are concentrically stacked in two layers on the outer circumferential surface of the porous polymer nanofilm 23 having different pore sizes. And the non-woven fabric filter 24 to form an asymmetric pore layer with a dense mesh structure so that the outside air passing through the nano-film 23 having a fine pore size passes through the non-woven fabric filter 24 having a large pore size. As a result, the pressure loss is reduced and the gas permeability is also high to decrease the flow resistance of the passage fluid.

As described above, the present invention is a nozzle assembly having a fitting structure of both sides which is easy to install a pipeline, and the water introduction portion 10 and the nano bubble water discharge portion 30 at both sides thereof are connected to the water inlet side of the water supply pipe 80. A ring-shaped fastening member provided with threaded grooves 41 and 51 so as to be connected to the pipes, and the water inlet pipe connection part 40 and the water outlet pipe connection part 50 which are spirally fastened to seal the nano bubble water generator. ) Are each provided, and the water outlet pipe connection part 50 is an expansion type pipe which is formed by separating the main pipes 50a and 50b, for example, by optimizing by varying the length and number of pipes assembled according to the use conditions. Will be used.

As is well known, the microporous nanofilm (polymer film) used in the present invention has a large number of pores (pores) having a size of 5 to 20 nanometers (nm = 1 billionth of a meter) to form a thin thickness and high porosity. It is an ultra thin porous polymer film (POLYMER) having a large surface area and excellent surface permeability. It is a porous film of mechanical properties that can pass gas, but not liquids such as water.

 As shown in the figure, the nanofilm 23 has numerous pores having a size of 5-20 nanometers (nm = 1 billionth of a meter) invisible to the naked eye formed on the non-porous substrate 23a. 23b) Microfibers are formed in a bubble structure (web structure) so that there is no decrease in fiber strength, and thus the pores are not blocked, so the air permeability (gas permeability) is very excellent. Bubbles) can be produced stably and efficiently, and the nano bubbles thus formed have a contact surface of 100 times or more than micro bubbles having a diameter of 1 μm or less and a diameter of 50 μm or less, thereby greatly improving sterilization by contacting bacteria or bacteria. ,

Therefore, it is possible to maximize the gas-liquid contact area with the inflow source water supplied by the venturi tube action and pumping power by excellent dissolution efficiency, contact efficiency, and purification efficiency with the high speed water flow flowing into the nano bubble generating unit 20. This maximizes the dissolved oxygen essential for fish and livestock growth, converting it into optimal water quality and providing stable supply.

And the air flowing through the nonwoven fabric 24 as a filter formed on the outer periphery of the bottom of the nano-bubble generating unit 20 is automatically by the hydraulic pressure and the venturi action of the pump 60 without a separate driving power according to the compressor driving Since it is sucked into the nanobubble formed by the nano-film 23 of the nano-pore structure formed on the outer periphery of the nano-bubble generating unit 20, the nano-bubble is in contact with the raw water to generate nano-bubble water. Although the number of bubbles seems to disappear due to the smaller bubbles (bubbles) on the surface, the bubbles are compressed by the self-pressing effect of ultra-fine bubbles generated by the force of the surface tension compressing the gas inside the bubbles (bubbles) having a spherical interface. Ions are concentrated on the surface of the bubble, and the concentrated ions act as shells surrounding the bubbles, causing the gas inside the bubbles to dissipate. This prevents the scattering of the gas in the nano-bubble to be stabilized as a nano-bubble, the nano-sized bubble according to the embodiment of the present invention is stabilized because the pressure inside the nano-bubble and the nano-bubble can be maintained for a relatively long time and the buoyancy is small Even if sprayed on the flowing water, it is possible to transfer the bubble bubbles remotely by self-floating and vortex operation, so that the raw water and the nano bubbles are mixed smoothly, and this effectively dissolved nano bubble water reduces the frictional force with the inner wall of the pipeline pipe to improve the flow resistance. It can be minimized, so the liquid can be delivered with less energy, thereby reducing the pumping power cost.

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.

When the multi-purpose nano-bubble water generating device 100 using the pipe-mounted porous nanofilm membrane Venturi tube of the present invention formed as described above is specifically described by the accompanying drawings,

As a water intake source 70, a pressurized pump 60 for pumping raw water from an adjacent sea or the like is installed on the land, and a pressurized pump 60 installed on the land has a pipe form connected to the aquaculture tank 210 of the land farm 200. The water supply pipe (80) is connected to the end of the water supply pipe (80) is provided with a plurality of supply pipes for constantly supplying the nano-bubble water to the culture water tank (210) and in the middle of the pipeline pipe of the water supply pipe (80) of the present invention The multi-purpose nano bubble water generator 100 using the porous nano film membrane venturi tube is mounted, so that the inflow raw water passes through the venturi tube-shaped raw water inlet 10 and faces the nano bubble water discharge unit 30 on the other side. Air is introduced into the pores 23b of the nanofilm 23 provided on the outer surface of the nano bubble generator 20 by the pressure of the raw water exiting the microbubble to generate microbubbles. Dissolved and remaining and can generate a large amount of nano-sized bubbles compared to the device size to improve the dissolved oxygen rate,

 The raw water supply process 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 so that raw water can be smoothly introduced and narrowed toward the rear end. It is possible to construct a nano bubble water supply system that is activated by the rapid oxygen transfer efficiency and the circulating filtration system is supplied to the land farm tank, thus reducing the operating cost by not having a separate oxygen tank equipped with a compressor. ,

In this way, the economically generated nano bubble water is supplied to the nanobubble without the need for a separate water storage tank, so that the water in the land tank is continuously and forcibly circulated to maintain clean water quality. The drainage can be drained through the city drain so that the proper water level can be maintained at all times, thereby eliminating the need to periodically change and clean the water in the tank, thereby realizing the effect of minimizing the waste of water. The control of the device is formed so that the display unit for displaying the operation status, the timer for adjusting the time, the measuring device for measuring the dissolved oxygen amount can be connected to the control device controlled by the microprocessor, and can be driven automatically or manually selectively. Use antibacterial or antibiotic for cleaning effect It is possible to increase the output of farms by preventing the death of fish that are sensitive to environmental change stress and weakened by bacterial or viral infections and promoting growth.

In addition, the multi-purpose nano-bubble water generator of the present invention is installed in the feed house such as pig farm 300, supplying the nanobubble water to the negative water through the pipeline to drink the nanobubble water of the livestock according to the nanobubble water feed By increasing the growth rate, intestinal bacteriostatic action, it is possible to simultaneously realize the additional effects of enhancing disease resistance, improving meat quality, and reducing manure odor.

Therefore, by using the nano-bubble water generator of the present invention to supply a multi-functional nanobubble water of which the physical properties are changed by sucking the gas to the liquid flowing at high speed to generate a nanobubble and effectively supply the generated bubble to the incoming raw water When used as water, livestock water, or agricultural water, it can supply hygienic and clean water so that germs can't propagate. It can sterilize and prevent diseases such as fish, cattle, pigs, etc. When used as an irrigation of the soil, it is possible to improve the soil, cultivate pesticide-free, and promote crop growth.

In particular, the multi-purpose nano-bubble water generator of the present invention can be connected to the adjacent outlet side of the tank in the form of bridges for the stable supply of the nano-bubble water to be supplied into each industrial site as a pipe insertion type, so that separate oxygen supply Complex synergistic effect can be realized by simply installing in the middle of the pipe of necessary element without device, so the device is simple, low production cost, and energy saving long distance of nano-bubble water with low frictional resistance to the wall inside the pipe with only pump power It is possible to transfer, reducing the operating costs such as power costs.

And the nano bubble water generator of the present invention, including the embodiments of the fishing, livestock industry, agriculture, environmental field, sewage treatment related facilities, advanced water treatment facilities, soil purification,

(Various aquaculture, nutrient farming, live fish tank, aquarium), industrial field (drainage treatment, washing), health field (bathing-related facilities, bathtub, artificial carbonate spring, water purification, toilet), medical care (precision diagnosis), household appliances (washing machine), It can be used in various areas such as ship (reduction of hull resistance).

In addition, the present invention may vaporize the liquid oxygen instead of the normal air as in the above embodiment, or may generate nano bubbles by supplying only oxygen using an oxygen generator. In this case, the packing groove 12 and the packing groove of the present invention may be used. It is preferable to block the 52 with an air bag (not shown) and seal it so that oxygen does not flow out so that only oxygen can be supplied into the air bag in the airtight state.

While the present invention has been described in connection with certain exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. .

100: nano bubble water generator
10: enemies introduction 11: enemies guide hall
12: Packing groove 13: Screw groove
20: nano bubble water generation unit 21: puncher
22: linear guide hole 23: porous nano film
24: nonwoven filter
30: nano bubble water discharge portion 31: nano bubble water guide hole
40: Inlet piping connection 41: Screw groove
50: outlet pipe connection 51: screw groove
52: packing groove 60: pump
70: water intake 80: water supply piping
200: Aquaculture farm 210: Aquaculture tank
300: Congratulations

Claims (3)

Ultra-foam foam produced through a tubular body of cartridge type in which porous polymer (POLYMER) nanofilm (23) and nonwoven filter (24) having different pore sizes are laminated on the outer circumferential surface in a membrane form. Is a nano bubble water generator 100 for generating nano-bubble water by supplying the raw water to the source, the straight flow path guide hole 22 of narrow section is penetrated therein, the nano-film 23 and the nonwoven fabric Nano film membrane with filter 24 flows in a predetermined inclination angle on both sides of nano bubble water generating unit 20 formed on a straight outer periphery having a perforated part 21 having a plurality of vents formed in a semicircle. The raw water guide hole 11 is provided as a through hole for guiding the raw water to taper and rapidly sucking the raw water and converting and discharging the raw water into the functional water having a sterilizing cleaning function at a high flow rate. The nano-bubble water discharge unit 30 having the raw water introduction unit 10 and the nanobubble water guide hole 31 formed therein are respectively formed in the shape of a venturi tube having both symmetry, and the raw water introduction unit 10 and the nanobubble water discharge unit 30, the nano bubble water inlet pipe connection part 40 and the nano so as to be coupled to the middle of the water intake source 70 and the water supply pipe 80 connected to the nano bubble water supply source of the land farm 200 or the livestock house 300. By forming the bubble-type nano bubble water generator that is provided with the bubble water outlet pipe connecting portion 50 is prefabricated at both ends, using the Venturi principle to induce water sequentially when the incoming raw water passes through the nano bubble water generator The nano film of the nano-film membrane by the rapid flow of water through the narrow passage of the raw water guide hole 11 of the raw water introduction portion 10 and the narrow flow path of the nano bubble water generation unit 20 23) fine A nano bubble water generator for generating nano bubble water by sucking air from the atmosphere through the hole 23b and incorporating the ultra-fine bubbles generated in an instant into the inflowing raw water of the high speed water flowing through the straight channel guide hole 22 ( 100),
Venturi tube structure that accelerates flow rate and pore size of microporous pores forms asymmetric pore layer superimposed of POLYMER nanofilm 23 and nonwoven filter 24 to reduce pressure loss and gas permeability. Multi-purpose nano-bubble water generating device using a pipe-mounted porous nano-film membrane venturi tube, characterized in that the organic bubble-constructing unit 20 is organically coupled delete delete

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