KR20230168549A - Functional water supply device for livestock using OH radical - Google Patents

Abstract

The present invention discloses a functional water supply device for livestock using OH radicals.
The functional water supply device for livestock using OH radicals of the present invention is to receive and store groundwater, and includes a water tank equipped with a circulation inlet, outlet, and outlet valve on one side, an OH radical generator that generates OH radicals, and the circulation outlet. In the functional water supply device for livestock using OH radicals, which consists of a stirrer connected to an OH radical generator to receive groundwater and OH radicals, stir them, and resupply them to the circulation inlet, the OH radical generator is an OH radical generator that generates OH radicals. A radical generating module, a moisture supply unit that supplies moisture in cluster units to the inside of the reaction chamber that provides the reaction space, and a moisture supply unit installed on one side of this unit irradiate RF electromagnetic wave energy into the reaction chamber to generate unit water molecules through a dielectric heating effect on moisture. A water molecule generation module consisting of an RF generator that generates a radical venturi injector that is connected to the OH radical generation module and the water molecule generation module, respectively, receives OH radicals and water molecules, mixes them through differential pressure, and then supplies them to the injection pipe. The agitator is composed of a circulation pump for forcibly sucking and pumping water from the circulation outlet, and a passage element connected to the outlet of the circulation pump and open on both sides to allow high-pressure water to pass through, gradually moving toward the center. A main passage forming a main passage with a reduced diameter is connected perpendicularly to an eccentric position from the center of the main passage, but one side is connected to the OH radical generator so that OH radicals can flow into the main passage and mix with water. It consists of a functional water venturi injector consisting of an injection pipe that guides the water.

Description

Functional water supply device for livestock using OH radical}

The present invention relates to a functional water supply device for livestock using OH radicals. More specifically, the present invention relates to a functional water supply device for livestock using OH radicals, which manufactures functional water with sterilizing and deodorizing effects on groundwater used in livestock housing using OH radicals and provides it as drinking water for livestock. This relates to an OH radical functional water purification device for livestock that can create and maintain a pleasant breeding environment by suppressing the occurrence of diseases caused by pathogenic bacteria and allowing it to be used as sterilizing water needed to treat contaminants in livestock and surrounding spaces.

In general, in the case of livestock farms raising pigs, cows, chickens, ducks, etc., tap water or groundwater is supplied as drinking water.

In the case of tap water, it is used after going through a certain sterilization process, and the sterilization methods so far have mainly been disinfection methods that introduce chlorine or bromine. In the method using these chemical agents, the chemicals are exposed to sunlight or heat. Because it evaporates when received, sufficient sterilization and disinfection are not carried out, causing frequent regrowth of bacteria. In particular, this problem is becoming more serious because old pipes and tanks on rooftops are exposed to sunlight and heat. .

Meanwhile, in order to solve the problem of this chemical injection method, NASA (National Aeronautics and Space Administration) in the 1970s proposed a sterilization method using metal ions as a method of purifying drinking water for spacecraft, and this sterilization method using metal ions removes copper and To use the sterilizing power of silver, an electrode (specially manufactured) made of an alloy of silver and copper is installed in the chamber and DC power is applied. When direct current power is applied, the silver and copper alloy are ionized in the electrode and the ions are dissolved in water. Copper and silver ions neutralize the enzymes responsible for bacterial metabolism, and the positive electric load of copper and silver ions even destroys the protoplasm of bacteria, so the residual sterilizing effect continues, the sterilizing power remains unchanged even when mixed with other substances, and the large amount of Applicable to water treatment facilities, tasteless, odorless and non-toxic, does not cause pipe corrosion, completely sterilizes over 650 types of pathogenic bacteria and molds, prevents bacterial resistance, and does not evaporate even when heated. It is increasingly gaining attention as an alternative to existing ultraviolet rays or chlorine sterilization methods.

However, devices using metal ions are based on the principle of making (+) and (-) electrodes out of metal and passing an electric current so that the metal ions are dissolved in water. As sterilization progresses, the relatively expensive electrodes gradually wear out. In the end, the distance between the (+) and (-) electrodes becomes increasingly distant, and the lifespan ends soon. Also, the ion concentration gradually decreases and must be artificially compensated for, making economical manufacturing and maintenance difficult, as well as over time. Accordingly, there was a problem in that the sterilizing power was reduced due to ion imbalance due to performance degradation.

In summary, when using tap water or metal ion treatment devices, the economic burden is greater than that of groundwater, so most livestock farms use groundwater as water.

Korea's livestock industry has grown dramatically through specialization and scale-up of pigs, Korean beef, dairy cattle, and beef cattle, but various infectious diseases, including foot-and-mouth disease, are increasing every year, and viral diseases are primarily bacterial diseases. It has been reported that multiple infections occur while the patient is infected with .

As livestock farms indiscriminately administer large amounts of antibiotics to prevent bacterial diseases, the addition of antibiotics to feed has recently been banned due to side effects such as the emergence of resistant bacteria. Recently, as an alternative to antibiotic use regulations, livestock farms are using antibiotics. Compositions made of natural substances such as yeast, Bacillus, and microorganisms that can replace have been developed and used, but there is a problem in that not only is the economic burden high, but the effectiveness such as antibacterial activity is low.

In particular, livestock manure excreted by livestock is a pollutant containing high concentrations of organic matter and nutrients, and is either untreated or residue after being used as a resource, or water cleaned from livestock waste and livestock wastewater discharge facilities (livestock farms). If wastewater mixed with rainwater and livestock waste flows into rivers or surrounding soil, it causes serious environmental pollution problems such as river pollution and groundwater and soil pollution due to water pollution and eutrophication.

The seriousness of livestock manure is due to the fact that as the scale of livestock farming has recently become larger and larger, the size of single livestock farms has also become larger than before, and the amount of manure is gradually increasing, and various environmental problems are also increasing accordingly. As a solution to this, the Ministry of Environment is installing public treatment facilities to treat livestock manure and livestock wastewater in order to preserve and manage water quality, but it is targeting small-scale reporting facilities and farms in medium- and large-scale facilities subject to permits. Since the government has to deal with the waste on its own, harm is occurring due to unauthorized discharge.

Treatment devices using various purification technologies have been proposed to treat livestock waste, but there is an urgent need to provide fundamental alternatives to improve the harmful gases (farts, burps, etc.) emitted from livestock and the odor generated from waste.

For example, the methane emissions from cows vary greatly depending on the type and quality of feed, but according to research results, the daily methane emissions per cow are 151 to 497 g for dairy cows and 161 to 323 g for beef cows, and methane is greater than carbon dioxide. It is a greenhouse gas that is more than 20 times more powerful, and its ability to trap heat is known to be up to 80 times more powerful. According to 2019 data from the Food and Agriculture Organization of the United Nations, there are 1.57 billion cows in the world.

In other words, it is a representative cause of the odor of harmful gases or excrement emitted from livestock. When livestock such as pigs or cows consume feed or water, harmful bacteria contained in the feed or water proliferate in the body, causing diseases such as epidemic diarrhea, etc. It is known to cause various diseases. Accordingly, in the case of livestock feed, the safety is guaranteed as the manufacturer necessarily performs a sterilization process during the production process. However, in the case of drinking water for livestock, most of the water used is underground water, so harmful bacteria contained in groundwater cannot be properly treated and people just drink it. This is the situation.

In the case of groundwater, it may vary depending on the surrounding environment, but research results show that Salmonella gallinarum, Salmonella enteritidis, Salmonella typhimurium, Salmonella cholerasuis, and Salmonella Salmonella derby, Salmonella enterica, Staphylococcus aureus, Escherichia coli, Streptococcus mutans, Pseudomonas aeruginosa, Helicobacter pylori, Listeria monocytogenes (Listeria monocytogenes), Campylobacter jejuni, Campylobacter coli, Serratia, Vibrio parahaemolyticus, Shigella flexneri, Clostridium difficile Pathogenic bacteria such as Clostridium difficile and Clostridium perfringens were detected.

Therefore, there is an urgent need to develop technology that can ensure sterilization of various harmful bacteria contained in groundwater, enable economical operation, and supply water that can be used for sterilization and disinfection in livestock farms, including drinking water.

Registered Patent No. 10-2059380 (2019.12.19.) Registered Patent No. 10-2050278 (2019.11.25.) Publication Patent No. 10-2020-0001918 (2020.1.07.)

The present invention was created to solve the problems of the prior art as described above. The present invention improves the water quality of groundwater used as drinking water for livestock as well as water used in livestock farms by using OH radicals to improve the water quality of groundwater. By safely sterilizing harmful bacteria and suppressing the growth of harmful bacteria within the organs of livestock that consume them, it helps reduce odor contained in harmful gases and excrement, as well as reducing larvae such as flies and mosquitoes, thereby improving the breeding environment. The purpose is to provide a functional water supply device for livestock using OH radicals that can maintain and maintain comfort.

A functional water supply device for livestock using OH radicals according to a preferred embodiment of the present invention for realizing the above object is to receive and store groundwater, and includes a water tank equipped with a circulation inlet, outlet, and outlet valve on one side, and an OH In the functional water supply device for livestock using OH radicals, which consists of an OH radical generator that generates radicals, and a stirrer that is connected to the circulation outlet and the OH radical generator to receive groundwater and OH radicals, stir them, and re-supply them to the circulation inlet. , the OH radical generator is installed on one side of an OH radical generation module that generates OH radicals, a moisture supply unit that supplies moisture in cluster units to the inside of the reaction chamber that provides a reaction space, and radiates RF electromagnetic wave energy into the reaction chamber. The water molecule generation module consists of an RF generator that generates unit water molecules through dielectric heating of moisture, and is connected to the OH radical generation module and the water molecule generation module, respectively, to receive OH radicals and water molecules for differential pressure action. It consists of a radical venturi injector that mixes the water and supplies it to an injection pipe; the agitator is connected to a circulation pump for forcefully sucking and pumping water from the circulation outlet, and is connected to the outlet of the circulation pump to allow high-pressure water to pass through. This open passage element is connected perpendicularly at a position eccentric from the center of the main passage and the main passage, forming a main passage with a gradually decreasing diameter toward the center, but one side is connected to the OH radical generator, It consists of a functional water venturi injector consisting of an injection pipe that guides OH radicals into the inside and mixes with the water.

As a preferred feature of the present invention, the water supply tank is equipped with a water level sensor that detects the water level on one side of the inside, and the OH radical generator is equipped with a drive monitoring sensor that detects operation and idle time, and detection from these sensors It consists of a control unit that receives a signal and controls the operation by applying a control signal to the stirrer.

As another preferred feature of the present invention, the radical venturi injector is provided between the OH radical generating module and the injection pipe, and is a passage element through which the generated OH radicals move, forming a diameter that gradually decreases toward the center, and has an outlet. is an OH radical pipe connected to supply OH radicals mixed with water molecules to the injection pipe, and is connected perpendicularly to a position eccentric from the center of the OH radical pipe, but one side is connected to the reaction chamber so that the generated water molecules are OH radicals It consists of a radical venturi injector consisting of a water molecule tube that guides water molecules flowing into the pipe and mixing.

The functional water supply device for livestock using OH radicals according to the present invention can provide sterilized water mixed with OH radicals in filtered groundwater as drinking water or cleaning water used in livestock houses, etc., when consumed by livestock. Not only can it prevent the ingestion of harmful bacteria through water, but it can also suppress the growth of harmful bacteria in the intestinal tract of livestock, resulting in a reduction in the generation of harmful gases (farts, burps, etc.) and odor. In addition, it can be expected to reduce harmful bacteria from livestock. It is expected to have a useful effect in creating a comfortable breeding environment as it can reduce the odor generated from excreted excrement and help reduce larvae such as flies and mosquitoes.

In addition, the present invention is expected to have a useful effect of reducing odor by stably maintaining the OH radical concentration of functional water and reducing the anaerobic decay phenomenon of manure, which is livestock excrement.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, terms or words used in this specification and claims should not be construed in their usual, dictionary meaning, and the inventor may appropriately define the concept of the term in order to explain his or her invention in the best way. It must be interpreted with meaning and concept consistent with the technical idea of the present invention based on the principle that it is.

Figure 1 is a perspective view showing the configuration of a functional water supply device for livestock using OH radicals according to the present invention;
Figure 2 is a schematic diagram illustrating the configuration of a water tank in the functional water supply device for livestock using OH radicals according to the present invention;
Figure 3 is a schematic diagram illustrating the connection configuration of the stirrer in the functional water supply device for livestock using OH radicals according to the present invention;
Figure 4 is a schematic diagram illustrating the configuration of the OH radical generator and agitator in the functional water supply device for livestock using OH radicals according to the present invention;
Figure 5 is a diagram schematically showing the configuration of a functional water venturi injector and a radical venturi injector in the functional water supply device for livestock using OH radicals according to the present invention.

Hereinafter, the configuration and operation of an embodiment of the present invention will be described in detail with reference to the attached drawings. However, it is not intended to limit the present invention to a specific disclosed form, and should be understood to include all changes, equivalents, and substitutes included in the spirit and technical scope of the present invention.

In this application, terms such as “include” or “have” are intended to designate the presence of features, steps, operations, components, parts, or combinations thereof described in the specification, but not one or more other features, steps, or operations. , it should be understood that it does not exclude in advance the possibility of the existence or addition of components, parts, or combinations thereof. In other words, throughout the specification, when a part is said to “include” a certain component, this means that it does not exclude other components but may further include other components, unless specifically stated to the contrary.

Additionally, unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as generally understood by those skilled in the art to which the present invention pertains. Terms defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and unless clearly defined in the present application, should not be interpreted in an ideal or excessively formal sense. No.

Here, repeated descriptions, known functions that may unnecessarily obscure the gist of the present invention, and detailed descriptions of configurations are omitted in order to not obscure the gist of the present invention.

Embodiments of the present invention are provided to more completely explain the present invention to those skilled in the art. Accordingly, the shapes and sizes of elements in the drawings may be exaggerated for clearer explanation.

First, the present invention is intended to sterilize various pathogenic bacteria contained in groundwater using OH radicals and provide it as drinking water for livestock, as well as water used in livestock or livestock farms.

The original name of the OH radical is hydroxyl radical. It is generated when a hydrogen atom (H) falls in the process of water (H-O-H) molecules being separated by some high and powerful energy, or an oxygen molecule (O2) ) Among the oxygen anions (O-, O2-, O3-, O) generated when broken in the same way, Super Oxide Anions (O2-) cause a chemical oxidation reaction with contaminants (mainly hydrocarbons). It is a substance that occurs in part.

This OH radical silver (OH) sterilizes and disinfects all contaminants and is the only substance that can chemically decompose and remove them. It is directly involved in contaminants in the air and water, making itself a Hydroperoxy Radical. As it changes to HO2), it continuously causes oxidative decomposition reactions and chain reactions. Among existing substances, the oxidizing power of OH radical is the second most powerful after fluorine (F) and is about twice as strong as ozone (O3) and chlorine (Cl2), but fluorine and It is an extremely safe ionic substance that is not toxic or harmful to the human body like chlorine and ozone.

Figure 1 is a perspective view showing the configuration of a functional water supply device for livestock using OH radicals according to the present invention.

In the drawing, there is a water tank 10 provided with a circulation inlet 11, a circulation outlet 13, and an outlet valve 15 on one side to receive and store raw water such as groundwater or tap water, and the circulation of the water tank 10. A stirrer (30) connected to the inlet port (11) and the circulation outlet (13) to inject and mix OH radicals in the process of circulating water, and a button provided on one side of the stirrer (30) to receive input operations from the user. A functional water supply device for livestock using OH radicals ( 1) is shown.

Figure 2 is a schematic diagram illustrating the configuration of a water tank in the functional water supply device for livestock using OH radicals according to the present invention.

In the drawing, raw water such as groundwater or tap water is supplied and stored, and a water purification filter (18) is provided to filter out foreign substances contained in the raw water, and on one side, a circulation inlet (11) and a circulation outlet ( 13) is provided, and on one side of the agitator 30, a water outlet valve 15 is provided to discharge the functional water mixed with OH radicals to the outside for use by circulating the stirrer 30. A water tank 10 is shown.

In addition, the water outlet valve 15 of the water tank 10 is shown to be connected to a waterer or hose to supply drinking water for livestock or water used in livestock houses, and the water outlet valve 15 is a solenoid. It has a configuration that can be controlled to open and close by a valve or can be delivered at high pressure by a pump.

In addition, a water supply level sensor 17 is installed on one inner side of the water tank 10 to detect the water level, and the water supply level sensor 17 is connected to the control unit 40 to apply a detection signal. It is configured, and the control unit 40 controls the supply of raw water to maintain an appropriate amount of water in the water tank 10. As shown in the drawing, this water tank 10 is connected to a pipe to circulate the agitator 30.

Figure 3 is a schematic diagram illustrating the connection configuration of the stirrer in the functional water supply device for livestock using OH radicals according to the present invention.

In the drawing, an agitator 30 is shown connected to the circulation outlet 13 of the water tank 10 and piped to receive water, and the agitator 30 forcibly sucks water from the circulation outlet 13. a circulation pump 31 for pressurizing the water, and a passage element connected to the outlet of the circulation pump 31 and open on both sides to allow high-pressure water to pass, and a main passage having a gradually decreasing diameter toward the center. The formed main pipe (33a) and the main passage of this main passage (33a) are connected perpendicularly to a position eccentric from the center, and one side is connected to the OH radical generator (20), so that OH radicals flow into the main passage, and water and The configuration of a functional water venturi injector (33) consisting of an injection pipe (33b) that guides mixing is shown.

Figure 4 is a schematic diagram illustrating the configuration of the OH radical generator and agitator in the functional water supply device for livestock using OH radicals according to the present invention.

The drawing shows an OH radical generator 20 for supplying OH radicals to the functional water venturi injector 33 constituting the stirrer 30. The OH radical generator 20 in the present invention generates OH radicals. A composition consisting of an OH radical generation module (21), a water molecule generation module (23) that receives water droplets in cluster units and converts them into unit water molecules, and a radical venturi injector (25) for mixing the OH radicals and unit water molecules. am.

Here, the water molecule generation module 23 includes a reaction chamber 23a, which is a space where OH radicals and water molecules react, and a moisture supply unit for supplying water droplets such as wet vapor or water vapor in clusters to the reaction chamber 23a. (23b) and an RF generator (23c) installed on one side of the reaction chamber (23a) to generate unit water molecules through a dielectric heating effect on moisture by radiating RF energy, which is an electromagnetic wave, into the reaction chamber (23a). The configuration that is made is shown.

In addition, the radical venturi injector 25 is a main passage for receiving and moving OH radicals, and is provided in the shape of a tube open on both sides, but has a radical pipe 25a having an orifice shape whose diameter gradually decreases toward the center; A configuration is shown consisting of a water molecule tube 25b that is vertically connected to the side of the radical tube 25a and supplies unit water molecules from the water molecule generation module 23.

Figure 5 is a diagram schematically showing the configuration of the functional water venturi injector and the radical venturi injector in the functional water supply device for livestock using OH radicals according to the present invention.

In the drawing, a radical venturi injector (25) receives OH radicals generated from the OH radical generation module (21) and mixes them with unit water molecules, and this radical venturi injector (25) supplies OH radicals to which unit water molecules are combined. A functional water venturi injector (33) connected to a pipe is shown to mix the water supplied from the water tank (10) and then circulate it back to the water tank (10).

The radical venturi injector (25) is a tube-shaped member that is open on both sides and is provided in a shape where the diameter decreases as it moves toward the center. The inlet side is connected to the OH radical generation module (21) so that the generated OH radicals flow in. On the outlet side, there is a radical tube (25a), one end is connected to one side of the narrow neck of the radical tube (25a), and the other end is connected to the water molecule generation module (23), so that the suction generated inside the radical tube (25a) A configuration consisting of a water molecule tube 25b that guides and transports unit water droplets by pressure is shown. This radical venturi injector 25 mixes OH radicals with unit water molecules and supplies them into the main pipe 33a through the injection pipe 33b of the functional water venturi injector 33, which will be described later, and mixes them.

The functional water venturi injector (33) is provided in the shape of a pipe with both sides open, and has a reduced diameter toward the center to generate differential pressure when fluid moves, and the inlet and outlet are connected to the water tank (10). (33a), and an injection pipe (33b) whose end is connected to the main pipe (33a) and the other end is connected to the radical venturi injector (25) to receive OH radicals mixed with water molecules and inject them into the main pipe (33a). A configuration consisting of is shown.

With reference to the above drawings, the configuration of the functional water supply device for livestock using OH radicals according to the present invention will be described in detail.

The present invention is to supply and store raw water such as groundwater or tap water, and includes a water tank (10) in which water is supplied to one side with a stirrer to mix OH radicals and then supplied again, and an OH radical generator (20) that generates OH radicals. It is composed of a stirrer (30) that receives water from the water tank (10) and mixes OH radicals.

The water tank 10 is a type of storage tank that receives and stores groundwater or raw water. A water supply level sensor 17 is installed on one side of the interior to detect the water level of the stored water, and the detected information is sent to the control unit 40, which will be described later. ) is approved.

This water tank (10) is provided with a circulation inlet (11) and a circulation outlet (13) to receive functional water mixed with OH radicals after supplying water to the stirrer (30), which will be described later. On one side of (11), a water outlet valve 15 is provided to discharge the water or functional water in the water tank 10 to the outside for use, and the water outlet valve 15 is a solenoid valve (not shown). It may be configured to be controlled to open and close, and may also be configured to be discharged at high pressure by a pump.

The OH radical generator 20 includes an OH radical generation module 21 for generating OH radicals, a water molecule generation module 23 for generating unit water molecules, and these OH radical generation modules 21 and a water molecule generation module. A radical venturi connected to (23) to supply a mixture of OH radicals and water molecules through differential pressure to the injection pipe (33b) of the functional water venturi injector (33) constituting the stirrer (30) to be described later. It consists of an injector (25).

The OH radical generation module 21 is for generating OH radicals, and a plasma generator using a known plasma discharge may be used, or a lamp-type generator or a plasma generator using RF energy may be used, and may be used in known technologies. Since it may be implemented by any means, a detailed description will be omitted.

The water molecule generation module 23 provides a reaction space, and is installed in a reaction chamber 23a with an electromagnetic wave leakage prevention structure and on one side of the reaction chamber 23a, so as to provide a reaction space into the reaction space of the reaction chamber 23a. A moisture supply unit (23b) for supplying cluster-unit water droplets in the form of water vapor or wet vapor, and RF energy, which is an electromagnetic wave, is radiated into the interior of the reaction chamber (23a) to produce unit water through a dielectric heating effect on the cluster-unit water droplets. It consists of an RF generating part (23c) that splits the molecules. On the other hand, when the RF generator 23c increases the radiation amount of RF energy, OH radicals can be generated from unit water molecules and oxygen in the gas through a plasma discharge action by RF excitation. However, in the present invention, RF energy is unit. The purpose is to create water molecules.

The radical venturi injector 25 includes a radical pipe 25a, which is the main passage for receiving OH radicals generated from the OH radical generation module 21 and guiding them to the injection pipe 33b, and a radical pipe 25a of the radical pipe 25a. It consists of a water molecule tube (25b) connected vertically to the side and sucked in by the differential pressure acting inside the radical tube (25a).

That is, the radical tube 25a is provided in the shape of a tube with both sides open, and has a diameter that gradually decreases toward the center, thereby increasing the speed and generating differential pressure in the section of the neck that narrows when the fluid moves. It is provided with a road, and one end of the water molecule tube (25b) is connected to one side of the neck portion where the diameter of the radical tube (25a) is narrowed, and the other end is connected to the water molecule generating module (23), thereby forming the radical tube (25a). ) is a configuration that supplies water molecules to the interior of the.

The radical venturi injector 25 with this configuration mixes OH radicals with unit water molecules, and the OH radicals combined with the mixed water molecules are injected into the injection pipe 33b of the functional water venturi injector 33, which will be described later. is supplied.

The agitator 30 is connected to the water tank 10 and is configured to mix OH radicals in the water to produce functional water and supply it back to the water tank 10. It mainly consists of a circulation pump 31 and a functional water venturi. It consists of an injector (33)

The circulation pump 31 is connected to the circulation outlet 13 of the water tank 10 and is an element for forcibly pumping the water in the water tank 10. Since it is implemented using a known technology, detailed description is omitted. do.

The functional water venturi injector (33) is for mixing OH radicals combined with unit water molecules generated in the OH radical generator (20) with the water pumped by the pumping action of the circulation pump (31). It consists of (33a) and an injection pipe (33b).

The main pipe 33a forms a passage that is open on both sides, and has a gradually decreasing diameter toward the center, forming a narrowing neck section. As the fluid passes through the narrowing neck section, the flow velocity increases and the differential pressure increases. This principle is used.

One end of the injection tube (33b) is connected perpendicularly to a position eccentric from the center of the main pipe (33a), and the other end is connected to the radical tube (25a) of the radical venturi injector (25) so that unit water molecules are combined. It is a conduit element that guides the OH radical. That is, OH radicals combined with unit water molecules connected through the injection pipe (33b) flow into the main pipe (33a) due to the differential pressure acting on the main pipe (33a) and are naturally agitated with the water.

The control unit 40 is a control element for controlling the operation of the stirrer 30 to adjust the degree of OH radical agitation in the water tank 10. This control unit 40 is connected to the water level sensor 17, which detects the water level stored on one side of the water tank 10, and receives water level detection information. In addition, it controls the operation and idleness of the OH radical generator 20. It is configured to be connected to a circuit to the drive detection sensor 27 that detects time to receive detection information.

When the water level of the water tank 10 falls below the set value, the control unit 40 receives raw water such as groundwater or tap water and fills the water tank 10 until the set value is met. When the water tank 10 is filled with a certain amount, it drives the agitator 30 to It is controlled to circulate repeatedly for a set number of times or for a set time so that OH radicals can be mixed with the water in the water tank 10.

In addition, in the present invention, the control unit 40 controls the water level in the water tank 10 when the idle operation time of the agitator 30 reaches the set time while the water level in the water tank 10 does not change. It would also be possible to control the stirrer 30 to operate for a set time or set number of times to maintain the concentration of OH radicals.

The operation of the functional water supply device for livestock using OH radicals according to the present invention configured as described above will be described as follows.

First, when the start button provided on the control unit 40 is pressed when the raw water such as groundwater or tap water that has passed through the water purification filter is supplied to the water tank 10 and filled with a certain amount, the control unit 40 operates the agitator 30. Apply a drive control signal to.

Then, the circulation pump 31 constituting the agitator 30 pumps the water in the water tank 10 so that it passes through the functional water venturi injector 33 and is supplied back to the water tank 10. .

At this time, the functional water venturi injector (33) is a mixture of OH radicals generated in the OH radical generation module (21) constituting the OH radical generator (20) and water molecules generated in the water molecule generation module (23). The mixture flows into the main pipe (33a) along the injection pipe (33b) by differential pressure and is mixed with water.

Therefore, the OH radical mixed with the water molecules and the water are stirred to produce functional water, and the functional water thus generated is circulated and supplied to the water tank (10), resulting in the OH of the water in the water tank (10). Not only can the radical concentration be increased, but since the unit water molecule and the OH radical are combined, the continuation of the OH radical can be stably maintained.

Therefore, the water in the water tank (10) is sufficiently mixed with OH radicals in the process of repeatedly circulating through the agitator (30) to function as sterilizing water, and the user can use the water provided in the water tank (10). Functional water can be discharged to the outside through the water outlet valve (15) and used as drinking water for livestock or cleaning water for livestock.

Meanwhile, the present invention is not limited to the described embodiments, and can be used by changing the application area, and various modifications and variations can be made without departing from the spirit and scope of the present invention. It is self-evident to those with knowledge. Accordingly, such variations or modifications should fall within the scope of the claims of the present invention.

1: Functional water supply device for livestock using OH radicals
10: water tank 11: circulation inlet
13: circulation water outlet 15: water outlet valve
17: Water supply level sensor 19: Water purification filter
20: OH radical generator 21: OH radical generation module
23: Water molecule generation module 23a: Reaction chamber
23b: moisture supply unit 23c: RF generation unit
25: Radical venturi injector 27: Drive detection sensor
30: Agitator 31: Circulation pump
33: Functional water venturi injector 33a: Host
33b: injection pipe 40: control unit

Claims (3)

To supply and store groundwater, there is a water tank equipped with a circulation inlet and outlet and an outlet valve on one side, an OH radical generator that generates OH radicals, and the circulation outlet and the OH radical generator are connected to receive groundwater and OH radicals and stir them. In the functional water supply device for livestock using OH radicals, which consists of an agitator that re-supplies it to the circulation inlet,
The OH radical generator is installed on one side of an OH radical generation module that generates OH radicals, a moisture supply unit that supplies moisture in cluster units to the inside of a reaction chamber that provides a reaction space, and irradiates RF electromagnetic wave energy into the reaction chamber. A water molecule generation module consisting of an RF generator that generates unit water molecules through dielectric heating of moisture is connected to the OH radical generation module and the water molecule generation module, respectively, and receives OH radicals and water molecules through differential pressure. It consists of a radical venturi injector that mixes and supplies it to an injection pipe;,
The agitator includes a circulation pump for forcibly sucking and pumping water from the circulation outlet, a passage element connected to the outlet of the circulation pump and open on both sides to allow high-pressure water to pass, and having a gradually decreasing diameter toward the center. An injection pipe that is connected perpendicularly to a position eccentric from the center of the main passage and the main passage forming the main passage, but whose one side is connected to the OH radical generator to guide OH radicals to flow into the main passage and mix with the water. A functional water supply device for livestock using OH radicals, characterized in that it consists of a functional water venturi injector. The method of claim 1, wherein the water tank is equipped with a water level sensor to detect the water level on one side of the water tank, and the OH radical generator is equipped with a drive monitoring sensor to detect operation and idle time, and receives detection signals from these sensors. A functional water supply device for livestock using OH radicals, characterized in that it further includes a control unit that receives approval and controls the operation by applying a control signal to the stirrer. The method of claim 1, wherein the radical venturi injector,
An OH radical tube is provided between the OH radical generating module and the injection tube and has a diameter that gradually decreases as it moves toward the center as a passage element through which the generated OH radicals move, and an OH radical tube is positioned perpendicular to the OH radical tube in an eccentric position from the center. A functional water supply device for livestock using OH radicals, characterized in that it consists of a radical venturi injector consisting of a water molecule tube connected to the reaction chamber on one side to guide the generated water molecules to flow into the OH radical tube and be mixed.