KR101938121B1 - Disinfection and disinfection system inside and outside of the pig house using sodium hypochlorite - Google Patents

Abstract

The present invention relates to a system for removing foul odors and sterilizing the inside, outside, and the vicinity of a pigsty using sodium hypochlorite. Specifically, chromaticity sensors are installed respectively on a liquid fertilizer treatment water storage tank and a purification discharge tank, and a Venturi pipe is installed on a liquid passage pipeline connected between the liquid fertilizer treatment water storage tank and the purification discharge tank to automatically supply sodium hypochlorite having a predetermined ppm (e.g., 190-210 ppm) into the Venturi pipe through which a liquid fertilizer passes if the chromaticity of the liquid fertilizer flowing into the liquid fertilizer treatment water storage tank or flowing to the purification discharge tank from the liquid fertilizer treatment water storage tank by a pump after being separated through a nano filter separation membrane in a liquid fertilization facility exceeds a predetermined chromaticity to automatically change the chromaticity of the liquid fertilizer discharged to a sewage pipeline or the like from the purification discharge tank to desired chromaticity. Therefore, it is possible to prevent the color of the liquid fertilizer of the pigsty discharged from the purification discharge tank as the discharge water from causing unpleasant feelings to nearby residents in advance.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a disinfection and disinfection system for disinfection, disinfection,

The present invention relates to a disinfection and disinfection system for disinfection and disinfection of internal, external and peripheral pigs using sodium hypochlorite. More particularly, the present invention relates to a disinfection system for disinfection, It is possible to remove the odor generated in the composting solid-liquid separating chamber and the leachate collecting tank, and when the chromaticity of the liquid to be transported to the next purge tank after being separated through the separating membrane exceeds the predetermined chromaticity, the sodium hypochlorite is automatically The color of the liquid discharged from the purification tank is not disturbed by the color of the liquid discharged to the residents. In addition, when the creature such as people or various wild animals approaches the site boundary around the pigeon, Sodium hypochlorite is automatically sprayed around the border facility, It is possible to prevent various livestock epidemic diseases from occurring by disinfecting and sterilizing various harmful bacteria, that is, viruses and the like, which are possessed by the pests, and when sodium hypochlorite for sterilization for a predetermined period of time is close to the entrance Disinfection and disinfection of various germs as well as removal of bad smell inside and outside of pig house by taking small facility cost and operation cost by enabling automatic disinfection and sterilization of various viruses attached to vehicles entering and exiting pig The present invention relates to a system and a disinfection / disinfection system for removing, deodorizing, and removing odor in a pig man by using sodium hypochlorite.

The domestic environment is very serious as livestock farms using pigs or cattle are enlarged and complex and many livestock (pigs or cattle) are kept in a regular pig house or house, and the treatment of wastewater such as manure is also problematic It is in a situation that is becoming.

In other words, environmental pollution caused by continuous cattle manure and large number of rearing in a large-scale complex is being made all over the whole, and as the pigs or cattle are kept for a long time in one place, circulation of the atmosphere is not performed, The air pollution is serious, and the surrounding air is full of foreign substances such as gas, odor, and various bacteria. Therefore, it is time to clean and use the ambient air.

In such a situation, there is a limit to improvement in simply circulating air inside or outside of a money house or a house, and therefore, a power fan, a power blower, a large fan, and an air conditioner are installed in numerous places, It is not a fundamental solution.

Therefore, livestock is exposed to various kinds of harmful gas inside, and it is dead without treatment. Even if livestock are dead, they do not know the cause of the disease and do not know the cause of the disease. They say it is a new disease and close the farm. Farm houses are also occurring.

More seriously, these harmful gases can have an extreme human impact on the livestock as well as on the livestock. Such harmful gases include hydrogen sulfide, ammonia, carbon dioxide and methane, which are mostly colorless, and ammonia And hydrogen sulphide, it is odorless and the grower should be exposed to the risk of exposure to such harmful gas without knowing himself.

In particular, such pollution will become more severe in winter and summer. In winter, carbon monoxide gas is generated due to the use of various hot air balloons to warm the inside of the room, and ventilation is minimized in order to maintain warmth. In the summer, livestock is exposed to air, and with the rise in temperature, it accompanies the humidity, accelerating the decay of internal and external decay, resulting in more germs and harmful gases, and poisoning of the harmful gases .

In addition, because the various gases generated from pig farms and houses are flammable, fires that do not know the cause often occur when the densely populated pigeon houses are located in a place where air ventilation is not smooth at the lowest level. This is because low- The flammable gas generated from the flammable gas is generated while staying. Therefore, in order to prevent the explosion risk, it is urgently required to solve the problem of efficiently purifying and discharging the air in the pig or house.

In addition, the incidence of manure and wastewater caused by the rearing of pigs or cattle causes a great deal of cost for disposing of the animals to the cattle raising household, and many studies for the disposal thereof are still underway.

On the other hand, as a method for removing odor and harmful gas from the inside of a pig, usually, a ventilation system is used to forcibly circulate the air inside the pig or to remove odor by spraying a substance to remove odor on the pig , Which is a reality that causes other problems due to the odor eliminating substances used together with the generation of a lot of costs.

On the other hand, sodium hypochlorite (NaOCl) is one of hypochlorite produced by chlorine gas such as sodium hydroxide solution.

Such sodium hypochlorite is used not only as a disinfectant for eliminating spoilage bacteria or pathogens in potable foods but also as a disinfectant, a bleaching agent and an oxidizing agent. In particular, it is used for decomposition of odor and removal and disinfection of viruses such as livestock infectious diseases .

This material releases oxygen as it decomposes, dissolves well in water, decomposes in aqueous solution during storage and forms chlorine gas, which is ineffective as a fungicide for long-term storage.

In addition, sodium hypochlorite generates oxygen by reaction in water and makes cyanogenous acid present in the wastewater by using oxygen. After that, the cyanic acid is decomposed again into nitrogen and carbon dioxide to make it harmless.

The lower the pH, the stronger the sterilizing power, the sterilization power is reduced by protein, sugar, amino acid, etc., and the sterilizing power is the highest when diluted to 100ppm and adjusted to pH 8-9.

Sodium hypochlorite is a pale greenish yellow or colorless liquid and smells of chlorine. When the aqueous solution is stored for a long time, it decomposes and is converted into chlorine gas. As a result, the effect as a bactericide disappears, and since it is highly corrosive, Should be.

Such an apparatus for generating sodium hypochlorite uses a direct current (DC) added to both ends of the electrode in the process of passing diluted brine (salt water (NaCl) at an appropriate concentration) through a series of electrodes having no diaphragm It is a device that electrolyzes salt and reacts it with water to produce a small amount of hydrogen gas and sodium hypochlorite.

Sodium hypochlorite produced by the above method is a safe form of chlorine and is finally used for chlorine disinfection in a field requiring disinfection.

On the other hand, wastewater generated from pigs is mixed with cleaning water used to maintain purity of pig manure and pigs, resulting in turbidity and odor generally. The resulting pig emissions are mixed with a solid and a liquid, which is put into a reservoir of a certain size, and the odor is removed by an appropriate biological method. A part of the solid is decomposed into a liquid form which can be used as an environmentally friendly fertilizer.

Some of the suspensions in this state may be used as liquid fertilizer, but since the amount of liquid fertilizer generated from the pesticide is enormous, it is impossible to utilize them as liquid fertilizer.

In order to carry out further treatment, the slurry-type suspension is put into a storage tank, and a flocculant is used to agglomerate the suspended solids and the fine solids suspended in the liquid.

There are many kinds of coagulants used here, but ferric chloride (FeCl ₃ ), which is economical and quick, and which is known to be suitable for waste water treatment, is mainly used.

When the coagulant is added, fine suspended matters floating in the liquid are aggregated around the constituents of the coagulant by electrical reaction, and gradually become lumps. In order to maximize the flocculation effect, an alkaline agent such as caustic soda is added Adjust the pH.

Since the lumps made by this method are fragile due to mechanical impact, the polymer flocculant is injected in a next step so as not to break off the lumps by mechanical means.

The polymer flocculant reacts with moisture to cause a sol-gel reaction, and the aggregated lumps aggregated with the polymer flocculant are further aggregated by the ferric chloride, and the aggregated lumps are prevented from being broken by the mechanical impact.

When the coagulant is added to the liquid, the colloid, which is a fine liquid suspended in the suspension, is aggregated, and the charged particles dissolved in the water are aggregated to separate the clear liquid and the solid, and the aggregated solids sink by gravity.

The process of separating the settled solids from the liquid is called the solid-liquid separation process. The liquid that remains after removing the solids is generally discharged to the environment and is discharged, which is called discharged water.

In order to facilitate the separation of solids, a pressurized flotation method is usually used. The pressurized flotation method uses the following phenomenon.

When the compressed air is injected into the liquid, the solubility of the air in the liquid increases, and when the air is dissolved in a liquid such as water at a pressure higher than atmospheric pressure, the gas such as dissolved air maintains equilibrium at high pressure, The dissolved gas is separated into a gas and a liquid in the liquid, and bubbles are generated, and the bubbles are gradually increased, so that they float on the surface of the liquid.

Here, when the carbonated water is in a closed container, it is maintained in the liquid state, but when the carbon dioxide water is exposed to atmospheric pressure by opening the cap of the carbonated water container at a pressure higher than atmospheric pressure, carbon dioxide bubbles are generated. Is used to float solids to the liquid surface if it is mixed and separated.

In a place where the suspension is separated and mixed by a coagulant, the liquid in which the high-pressure air is dissolved by using a compressor is put into the lower part of the storage tank containing the suspension, and the suspension and the liquid containing the dissolved air are slowly When the gas is mixed with the high pressure, the liquid pressure of the storage tank is low and the solubility of the gas becomes low. Therefore, the bubbles rise as the bubbles are generated in the entire region below the storage tank.

At this time, the solid substance separated by the coagulant, which is attached to the solidified solid or floated, floats up to the surface of the water, and a device for performing such a series of operations is called a pressurized floating device.

The solid material rising above the water surface by the above-mentioned pressure flotation method is mixed with the gas droplets to form a foam, the foam disappears over time, and the floating matters mixed with the foam are removed from the water by the mechanical device, The solids are sent to the additional dehydrator.

Thus, the solid matter sent to the dewatering device is dewatered and dried or used as a compost or recycled according to the situation, capacity, etc., such as filter press, decanter, belt press and the like.

The liquid dehydrated from the dehydrator and the liquid separated from the solid-liquid separator are not as transparent as drinking water but have a dark color like the color of ordinary people's urine.

This color is a common phenomenon in mammalian excrement. It is a result of mammalian digestion process and metabolism process. The digestive process is caused by a part of digestible food and a large intestine It is a product produced by digestion with the digestive juices, that is, a product produced by the action of digestive juices showing the color of the stool. What occurs in the metabolism is the product of decomposition of blood cells, which is discharged into the urine.

These are usually harmless to the environment because they are not toxic. These feces can be effectively removed by using a flocculant when the molecular weight is large, but it is difficult to separate and remove the flocculant when the molecular weight is less than 10 kDa and neutral.

It is treated as coagulant and removed by floatation which can be removed by pressurized flotation method, and discharged from the dehydrator to the river, which is called discharged water. Since this discharged water is colored, it causes disgust to the residents during discharge. It is a fact that civil complaints caused by this situation are not ending.

The cause of the color of discharged water is mainly caused by nitrogen compounds such as stercobilin and urobilin. In addition, when the ponds are near the water source, According to the law enacted on March 25, the regulation was initiated, but due to economic problems such as the processing cost of livestock farmers, it is impossible to sanction the release of livestock farmers. Therefore, In fact.

Removal of chromaticity results in the decomposition of polymer organic matter into small molecules, which facilitates further processing and accelerates the natural decomposition. As a result, environmental problems are not caused, and efforts have been made to remove the chromaticity from the discharged water. However, many problems have not been commercialized It is not only applicable but also not applicable.

Conventional methods to remove the chromaticity of the effluent discharged from the pig pens include biological treatment methods, activated carbon, ozone treatment, and chemical treatment. In addition, a membrane filtration method may be used .

Among the methods of removing chromaticity of the discharged water as described above, first, the biological treatment method is to biodegrade using a strain capable of degrading the chromaticity of the discharged water.

As an example of such a technique, "an apparatus and a treatment apparatus for an animal manure waste" (Korean Patent Registration No. 10-0719435) discloses a technique and apparatus for treating animal wastewater by a biological method, This biological method is not only time-consuming, but also involves a treatment space, such as a bioreactor, a dehydrator, a filter, an air cooling facility, a first reservoir, a second reservoir and a third reservoir. There is a problem in that it can not be easily applied considering factors such as cost of facility space for operating the strains.

Second, the method using activated carbon is a method of adsorbing and removing the chromogenic material on the activated carbon. The amount of activated carbon to be used depends on the concentration of the substance to be adsorbed. In order to remove it, Since the amount of activated carbon to be used is very large in order to remove the chromaticity of the waste water from the pig pond, it is inconvenient in the process operation to frequently supply the activated carbon, and the amount of the used activated carbon is large. have.

Third, the ozone treatment method is to oxidize the coloring material of the effluent to ozone and break it into smaller molecules, thereby removing the coloring molecules.

In order to remove chromaticity from ozone, an ozone generator is required. Ozone can be generated in various ways, but it is most convenient to use an electric method.

There are various methods of generating ozone according to the high voltage discharge method. Among them, the corona discharge method and the dielectric barrier discharge method are most widely used to prevent silent discharge, that is, discharge intrinsic noise. .

The higher the oxygen concentration, the higher the rate of ozone generation, the greater the energy efficiency, and the lower the energy efficiency when air is used, as the energy efficiency decreases sharply with moisture or other gases.

In the case of the dielectric barrier method, the lifetime of the dielectric is not long, and the life of the electrode is not long even in the case of the corona discharge. This is a problem that can not be generated when high voltage is applied. The moisture in the air is liquefied and reacts with the electrode to form a reaction product, consuming the electrode, or liquefied moisture adversely affecting the high-voltage device, thereby accelerating deterioration of the ozone generating electrode.

In order to treat ozone with water, it is necessary to make the generated ozone react with the liquid as much as possible. However, it is not easy to completely dissolve ozone as a gas in the liquid. In order to mix ozone into the liquid, Bubbles, etc., can dissolve as much ozone as possible in the liquid.

Even if the ozone dissolution is facilitated, there is a problem that ozone having a strong oxidizing power oxidizes the nozzle. Even if the nozzle is made of ceramic, it is difficult to directly treat the contamination with a nozzle having a very high pollution degree, There is no way to easily solve the clogging phenomenon of the micro nozzle, and the manufacturing process of the micro nozzle itself is also heavy on the economical efficiency of the device, and the high voltage discharge device itself must be solved for practical use such as economic efficiency and operation There are a lot of problems to do.

In conclusion, the method of treating chromaticity with ozone is a method that can not be practically used in terms of economy and efficiency.

Fourth, the chemical method is a chemical oxidizing method for chemically oxidizing the chromatic substance, and an oxidizing agent such as a generator oxygen or a hydrogen peroxide generating a strong active radical is used. In order to remove the chromaticity by using such a substance, There is a problem that the amount of chemicals to be used for removing the chromaticity corresponding to the discharge standard is increased, which is a problem in that it can not be used economically.

Fifth, the membrane filtration method uses a membrane filtration method as a physical method in removing chromaticity. In order to apply the membrane filtration method, a membrane should be prepared so as to filter out the substances contained in the effluent water to be treated. Basically, pores smaller than or equal to the size of the substance to be sieved are on the membrane surface, allowing only the useful components to pass through and the rest removed. For example, how to desalinate seawater.

In this case, the coarse fine impurities of seawater such as solid matter or colloid are firstly removed by using a microfilter or the like, and activated carbon for adsorbing smaller organic matter or fine particles is secondarily placed, and then, Remove small colloidal particles or insoluble particles.

This series of processes is called a pretreatment process, and then a reverse osmosis process is carried out in order to obtain purified water. Here, the core of the reverse osmosis process is a reverse osmosis membrane, which prevents scale from being contaminated, A safety filter for filtering the particles, and a device for cleaning the reverse osmosis membrane because the water is gradually contaminated.

If the treatment of waste water from pigs is to be applied by this method, it is not necessary to treat the waste water as much as the drinking water, but a similar level of equipment is required to be treated to meet the final effluent standard. In other words, since each membrane acting as a filter is gradually contaminated, in particular, when pollution is high, such as the effluent of a waste water stream, the pollution is accelerated and countermeasures are needed. In addition, the pollutant is chemically and physically easily damaged There is a problem that a membrane made of a material suitable for application to the waste water of the pig man must be produced.

In addition, it is necessary to pressurize the effluent water for operation and send it to the membrane filtration unit. Therefore, the initial facility cost such as the equipment cost is excessively higher than other methods, and the operation cost must be taken into consideration. It is not realistic to use this method.

On the other hand, when a large number of pigs are cultivated, a large amount of odor such as ammonia and hydrogen sulfide is generated in the vicinity of the leachate storage tank where the leachate generated from the composting reservoir and the composting reservoir, It is necessary to remove this odor because it is a fact that the quality of the air spreading around is very bad and the complaints are not constant.

In addition, there are many wild animals such as wild boar, herd, cat, and rat which have various harmful bacteria around pigs, and many breeding pigs raised in pig farms, as well as those who raise them, It may be transmitted by bacteria (that is, germs), so it is necessary to sterilize various noxious bacteria as well as disinfecting around the site boundary.

In addition, since various vehicles entering and exiting the pilgrimage company are traveling with a lot of germs, there is a need to disinfect and sterilize (ie, prevent) the vehicles entering and leaving the pilgrimage facilities by installing a pest control device at the entrance of the pilgrimage company.

However, most of the conventional pig smell removal devices remove odor generated in the pig. In addition, the smell removal device generated in the composting solid-liquid separation chamber can also remove only odors generated in the composting solid- And there is no sterilization and disinfection device at the site boundary near the pigeon.

Particularly, the above-described device for removing odor from the inside of the pig manhole, the compost solid-liquid separation chamber odor removing device, and the automobile anti-theft device are each driven separately from each other as described above, The disinfecting and deodorizing processes are not smoothly carried out, resulting in a large cost in terms of economic efficiency, and the efficiency of the sterilization and disinfection is greatly reduced.

Korean Patent Registration No. 10-0719435 (May 11, 2007) Korean Patent Registration No. 10-0901756 (June 02, 2009) Korean Patent Publication No. 10-2018-0031211 (Mar. 28, 2018) Korean Patent Registration No. 10-1248110 (March 21, 2013)

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a liquid level detection sensor in a liquid treatment water storage tank and a purified water discharge tank, A venturi tube is installed as a diluting force promoting means and separated from the liquefied water by the nanofilter separation membrane and then introduced into the liquid treatment water storage tank through the pump or the chromaticity of the liquid introduced into the purified water discharge tank side from the liquid treatment water storage tank If the chromaticity is exceeded, sodium hypochlorite having a predetermined ppm (for example, 190 to 210 ppm) is automatically supplied into the venturi pipe through which the liquid is passed so that the chromaticity of the liquid discharged from the purified water discharge tank to the side of the sewage pipe becomes a desired color. In order to make the change automatically, It is an object of the present invention to provide a system for disinfection and disinfection of inside, outside, and surrounding odors by using sodium hypochlorite which can prevent the color of the liquid to flow to the residents in advance.

It is another object of the present invention to provide a method and apparatus for producing odorous compost, which is a main odor generating zone, An ammonia detection sensor and a hydrogen sulfide detection sensor are installed on the inside of a pig mannitol production facility where odors are generated because the manure is continuously blown and aerated and on the side of the compost solid-liquid separation chamber and the leachate storage tank, Ammonia or hydrogen sulfide contained in the air of the inside of the piggery or in the vicinity of the composting solid-liquid separation chamber or around the leachate storage tank exceeds the predetermined ppm (for example, ammonia exceeds 0.8 to 1.2 ppm or hydrogen sulfide reaches 0.04 to 0.08 ppm , Sodium hypochlorite having a predetermined ppm (for example, 70 to 90 ppm) is mixed with a plurality of The present invention also provides a disinfection system for disinfection and disinfection of inside, outside and surrounding odors of pigs using sodium hypochlorite, which can remove the odor generated in the poultry house solid-liquid separation chamber and the leachate collecting tank by spraying through the injection nozzle.

It is a further object of the present invention to provide a motion detection sensor such as a plurality of injection nozzles and a far-infrared ray detection sensor at the site boundary of the pigeon, that is, above the fence, Sodium hypochlorite is automatically sprayed around the site boundary facility to disinfect and sterilize various harmful bacteria, ie, viruses, etc., contained in wildlife, so that sodium hypochlorite can be used to prevent the occurrence of infectious diseases And to provide a sterilization and disinfection system for removing odors inside and outside of a pig.

It is a further object of the present invention to provide a method and apparatus for disposing a plurality of injection nozzles at the entry and exit of a pilgrimage to dispatch a sodium hypochlorite for a predetermined period of time to a vehicle Disinfection system for sterilization and disinfection of inside, outside, and surrounding odor of pigs using sodium hypochlorite which can automatically prevent disinfection and sterilization of viruses and the like and prevent occurrence of infectious diseases caused by various germs through vehicles.

In other words, the present invention utilizes only sodium hypochlorite which can be produced at a relatively low cost, so that when the chromaticity of the liquid produced through the liquefaction facility exceeds the predetermined chromaticity, it can be converted to a predetermined chromaticity or less and discharged, Disinfecting and sterilizing various harmful bacteria, such as harmful bacteria, possessed by living organisms close to the boundary of the ponds near the ponds, which can remove the odor generated in the composting solid- Etc., and also to the vehicles entering and exiting the pilgrimage company. Thus, it is possible to sterilize and disinfect not only the inside of the pig house but also the outside, The effect of sodium hypochlorite, which can significantly increase the effect, And to provide a sterilization and disinfection system for removing odors from the surrounding area.

Other objects and advantages of the present invention will become apparent to those skilled in the art from the following detailed description.

According to an aspect of the present invention, there is provided a sodium hypochlorite generator that is driven in response to a driving signal output from a control panel and generates sodium hypochlorite having a predetermined ppm; A sodium hypochlorite storage tank having a level sensor for detecting the level of water and storing the sodium hypochlorite discharged from the sodium hypochlorite generator and supplying the sodium hypochlorite discharged to the side required by the control panel; A nanofilter separation membrane for filtering and sludging various sludges contained in the liquid fertilizer supplied from the liquefaction facility to discharge water; A liquid supply pump that operates when a driving signal is outputted from the control panel by detecting a low level in the level sensor provided in the liquid treatment water storage tank and supplies the solid solution passing through the nanofilter separation membrane to the liquid treatment water storage tank side, ; A level sensor for level detection and a submersible pump, temporarily storing the liquid being transferred through the liquid supply pump, and supplying the liquid to the purification tank through a submerged pump when requested by the control panel, Wow; A first external pump for supplying the sodium hypochlorite stored in the sodium hypochlorite storage tank to the sodium hypochlorite temporary storage tank for controlling the chromaticity by an amount required by the control panel; The amount of opening and closing of which is controlled when the first external pump is operated by the control panel and water is supplied to the sodium hypochlorite supplied to the temporary storage tank of sodium hypochlorite for chromaticity control, A first direct-flow-regulating-purpose electronic valve for controlling the ppm of sodium hypochlorite to be controlled to a predetermined value; A level sensor for level detection and a submerged pump for temporarily storing sodium hypochlorite for controlling the chromaticity of a predetermined ppm supplied through the first external pump and the first direct flow control electronic valve, A sodium hypochlorite temporary storage tank for controlling the chromaticity; First and second chromaticity detection sensors electrically detecting the chromaticity of the liquid ratio in the liquid treatment water storage tank or the purified liquid discharge tank, respectively, in the state where the liquid treatment water is stored in the liquid treatment water storage tank and the purified water discharge tank, respectively, And is provided on the liquid passing pipe, and is provided in the liquid processing water supplied from the liquid processing water storage tank through the submerged pump to the purified water discharge tank side, through a submerged pump and is supplied from the sodium hypochlorite temporary storage tank for chromaticity control to a predetermined ppm A venturi tube for uniformly diluting the sodium hypochlorite for controlling the chromaticity; A purge outlet for storing the chromaticity of the liquid to be continuously supplied through the liquid bypass line in a state where the sodium hypochlorite for chromaticity control is diluted through the venturi pipe to a desired chromaticity so that only the liquid exceeding the predetermined level is discharged naturally or forcibly A tank; And a control panel for receiving signals from the respective sensors in real time and performing overall control functions of the system in response to the determined control programs.

Further, sodium hypochlorite stored in the sodium hypochlorite storage tank is added between the sodium hypochlorite storage tank and the inside of the pile, the compost solid-liquid separation chamber, and the leachate storage tank by an amount required by the control panel for the sodium hypochlorite A second external pump for supplying the water to the storage tank side; And the water is supplied to the sodium hypochlorite supplied to the temporary storage tank for sodium hypochlorite for the combined treatment by controlling the amount of opening and closing when the second external pump is operated by the control panel, A second direct-flow-rate-regulating-side electronic valve for setting a ppm of sodium hypochlorite for treatment to a predetermined value; A sodium hypochlorite temporary storage tank having a level sensor for level detection and an underwater pump for temporarily storing sodium hypochlorite for complex treatment having a predetermined ppm; A hypochlorous acid hypochlorous acid solution for temporarily storing sodium hypochlorite for the complex treatment supplied from the side of the temporary storage tank for sodium hypochlorite for the complex treatment in response to the operation of the submerged pump, A sodium transient storage tank; A plurality of ammonia detection sensors and a hydrogen sulfide detection sensor each having a shape installed in the interior of the pile, a compartment of the solid-liquid separation chamber, and an upper portion of the leachate storage tank, respectively, and detecting the concentration of ammonia and hydrogen sulfide generated in each of them in real time, The sodium hypochlorite for odor treatment is supplied from the side of the temporary storage tank for odor treatment due to the operation of the first high-pressure atomizer, the sodium hypochlorite for odor treatment is supplied to the inside A plurality of spray nozzles for evenly spraying the whole spray nozzle; And is installed between an injection nozzle provided in each of the pig mannitol and the composting machine solid-liquid separation chamber or the upper part of the leachate storage tank and the submerged pump in the sodium hypochlorite temporary storage tank for treating the malodor, If the concentration of ammonia or hydrogen sulphide contained exceeds the specified ppm, the sodium hypochlorite for odor treatment is operated in conjunction with the submerged pump in the temporary storage tank, and the first high-pressure atomizer, which supplies sodium hypochlorite for the malodor treatment, Wow; The solid-liquid separator according to any one of claims 1 to 3, wherein the first high-pressure atomizer is disposed between the purging nozzles in the pycnometer solid-liquid separation chamber and the leachate storage tank, and the ammonia or hydrogen sulfide in the pit- And the first to third electromagnetic valves for supplying malodorous sodium hypochlorite to the flue gas to automatically remove the offensive odor.

The sodium hypochlorite temporary storage tank for complex treatment is provided with a level sensor for level detection and a submerged pump between the boundary site of the pilgrim site and the sodium hypochlorite temporary storage tank for complex treatment, A temporary storage tank for sodium hypochlorite for sterilization and disinfection for temporarily storing sodium hypochlorite for combined treatment, A plurality of motion detection sensors for detecting in real time when an organism including a person or various wild animals approaches the site boundaries with a predetermined spacing in the site boundary fence and delivering them to the control panel; A plurality of spray nozzles having a predetermined distance from the upper part of the fence at the boundary of the pigeon site and spraying high pressure sodium hypochlorite for sterilization and disinfection when the second high pressure atomizer is operated; It is installed between the spray nozzles installed in the fence at the border of the pigeon site and the submerged pump in the sterilization and disinfection sodium hypochlorite temporary storage tank. Or if no organism is detected for a defined period of time around the site boundary, it is operated by a control panel in conjunction with an underwater pump in a sodium hypochlorite storage tank for sterilization and disinfection and stored in a temporary storage tank for sterilization and disinfection sodium hypochlorite A second high-pressure atomizer for supplying sterilizing and disinfecting sodium hypochlorite to the injection nozzle side at a high pressure; The second high-pressure sprayer is installed between the spray nozzles installed at the site boundary, and when various organisms are close to the site boundary, sterilizing and disinfecting sodium hypochlorite is supplied to the spray nozzles at the site boundary And a fourth electromagnetic valve for allowing harmful bacteria contained therein to be automatically sterilized and disinfected.

In addition, a level sensor for level detection and a submerged pump are provided between the vehicle entrance of the pilgrimage company and the sodium hypochlorite temporary storage tank for complex treatment, and the sodium hypochlorite temporary storage tank A sodium hypochlorite temporary storage tank for temporarily storing antimicrobial sodium hypochlorite for combined treatment, A vehicle proximity detection sensor having a form installed at a vehicle entrance and detecting a vehicle when the vehicle is in proximity and transmitting the detected proximity to a control panel; A plurality of injections for spraying a high-pressure sodium hypochlorite solution to the high-pressure sprayer when the third high-pressure sprayer is operated due to the operation of the third high-pressure sprayer, A nozzle; And is installed between the spray nozzles at the entrance of the vehicle and the submerged pump in the temporary sodium hypochlorite storage tank. When the vehicle proximity detection sensor detects the proximity of the vehicle to the entrance of the pilgrim's car, A third high pressure atomizer which is operated for a predetermined period of time together with an underwater pump in a sodium hypochlorite temporary storage tank and supplies sodium hypochlorite for prevention to the injection nozzle side at high pressure stored in a temporary sodium hypochlorite storage tank; The third high-pressure sprayer is installed between the spray nozzles installed at the vehicle entrance of the pig. When the vehicle is close to the entrance of the pilgrim, the sodium hypochlorite for sterilization is supplied to the injection nozzles installed at the entrance of the car And a fifth electromagnetic valve for automatically supplying the vehicle to the vehicle.

At this time, the sodium hypochlorite stored in the sodium hypochlorite storage tank is controlled to have 8,000 ppm, the sodium hypochlorite for controlling the color stored in the temporary storage tank for sodium hypochlorite is controlled to have 190-210 ppm, And sodium hypochlorite for treatment, which is stored in the temporary storage tank for treating sodium hypochlorite, is adjusted to have 70 to 90 ppm.

When the chromaticity level of the chromaticity-adjusted sodium hypochlorite temporary storage tank for the chromaticity-adjusting sodium hypochlorite storage tank is lower than the predetermined threshold value, The water pump is operated.

In the control panel, in the ammonia detection sensor or the hydrogen sulfide detection sensor provided in the pile, the upper portion of the composting solid-liquid separation chamber, and the upper portion of the leachate storage tank, ammonia The underwater pump and the first high-pressure atomizer in the sodium hypochlorite temporary storage tank for malodor processing are operated when the concentration exceeds 0.8-1.2 ppm or the hydrogen sulfide concentration exceeds 0.04-0.08 ppm, Is opened or both are opened or all of them are opened and the mixture is selectively or simultaneously fogged until the concentration is less than the predetermined ppm in the inside of the pile or in the compost solidification chamber or the leachate storage tank.

In addition, in the control panel, when the proximity of various organisms is detected by the motion sensor, or when various organisms are not detected for 3 to 4 hours in the vicinity of the site boundary, an underwater pump in the temporary storage tank for sterilizing and disinfecting sodium hypochlorite 2 high-pressure atomizer is operated for 1 to 3 minutes, and the fourth electron valve is opened to spray the sterilizing and disinfecting sodium hypochlorite around the site boundaries through the plurality of spray nozzles at a high pressure.

In the control panel, when it is determined that a specific vehicle is close to the vehicle entrance through the vehicle proximity detection sensor, the underwater pump and the third high-pressure atomizer in the temporary sodium hypochlorite storage tank are operated for 1 to 2 minutes The fourth electromagnetic valve is opened to control the injection of the high-pressure sodium hypochlorite to the entire outer surface including the wheels of the vehicle through the plurality of injection nozzles provided at a predetermined interval in the horizontal direction and on both sides at the upper portion of the vehicle entrance .

As described above, according to the disinfection and disinfection system for removing odor and surrounding odor using the sodium hypochlorite according to the present invention, chromaticity detection sensors are respectively installed in the first liquid treatment water storage tank and the purification liquid discharge tank, A venturi pipe is provided as a diluting force promoting means on the liquid passing pipe connected between the storage tank and the purge tank and is separated through the nanofilter separation membrane in the liquefaction facility and then introduced into the liquid treatment water storage tank through the pump, The sodium hypochlorite having a predetermined ppm (for example, 190 to 210 ppm) is automatically supplied into the venturi pipe through which the liquid is passed, so that when the chromaticity of the liquid fed into the purge tank exceeds the predetermined chromaticity, The color of the liquid discharged to the pipeline side is automatically changed to the desired color The color of the liquid manure by the way that is discharged into the discharge water from the purification tank so that the discharge can be prevented in advance from being dropped aversion to residents.

Second, since the solid-liquid separated solid matters as the main odor-generating zones are collected and the manure is placed for simple storage or stirred and blown for compost production, the liquid odorant, which has been separated from the liquid- And an ammonia detection sensor and a hydrogen sulfide detection sensor are provided on the inside of the pig manufac- turing facility where the odor is generated due to the aeration and on the side of the compost solid-liquid separation chamber and the leachate storage tank, and a plurality of injection nozzles are provided on each of the pig- Ammonia or hydrogen sulphide contained in the air inside the composting solid-liquid separation chamber or around the leachate storage tank exceeds a predetermined ppm (for example, the ammonia exceeds 0.8 to 1.2 ppm or the hydrogen sulfide exceeds 0.04 to 0.08 ppm) , Sodium hypochlorite having a predetermined ppm (for example, 70 to 90 ppm), respectively, is supplied through a plurality of injection nozzles Used by internal as well as the nursery can eliminate the odor generated in the solid-liquid separation chamber and toebisa leachate water tank.

Third, when a motion detection sensor such as a plurality of injection nozzles and a far-infrared ray sensor is installed on the site boundary of the pigeon, that is, above the fence, and various organisms such as people or various wild animals come close to the site boundary around the pigeon Sodium hypochlorite around the site boundary facility is automatically sprayed to disinfect and sterilize various harmful bacteria, viruses, etc., which are held by various organisms, so that the occurrence of infectious diseases can be prevented in advance.

Fourth, if multiple injection nozzles are installed at the entrance of the pilgrimage company and the vehicle is close to the exit of the pilgrimage company, it will automatically disinfect various viruses attached to the vehicle entering and exiting the pilgrimage by spraying the vehicle with sodium hypochlorite for a predetermined time It is possible to prevent the occurrence of infectious diseases caused by various kinds of germs through the vehicle.

That is, the present invention uses only sodium hypochlorite, which can be produced at a relatively low cost, so that when the chromaticity of the liquid produced through the liquid pot facility exceeds the predetermined chromaticity, it is converted into a predetermined chromaticity or less so that the liquid can be discharged. Or disinfecting and sterilizing various kinds of harmful bacteria such as harmful bacteria that can be removed from the composting solid-liquid separation chamber outside the pig house and the odor generated in the infiltrated water storage tank, Etc., and also to the vehicles entering and exiting the pilgrimage company. Thus, it is possible to sterilize and disinfect not only the inside of the pig house but also the outside, It is possible to greatly increase the effectiveness of anti-pest Is extremely useful inventors etc. that can significantly increase the reliability such as the compatibility and efficiency of the operation and use of the system itself.

The effects of the present invention will be clearly understood and understood by those skilled in the art, either through the specific details described below, or during the course of practicing the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic block diagram of a disinfection and disinfection system for the inside, outside, and surrounding odors using sodium hypochlorite to which the present invention is applied.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and are herein described in detail. It should be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprising" or "having ", and the like, are intended to specify the presence of stated features, integers, steps, operations, elements, parts, or combinations thereof, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, parts, or combinations thereof.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the meaning in the context of the relevant art and are to be interpreted as ideal or overly formal in meaning unless expressly defined in the present application Do not.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a schematic block diagram of a disinfection and disinfection system for the inside, outside, and surrounding odors using sodium hypochlorite to which the present invention is applied.

According to the present invention,

A sodium hypochlorite generator (10) driven in response to a driving signal output from the control panel (130) and generating sodium hypochlorite having a predetermined ppm;

A sodium hypochlorite storage tank 20 having a level sensor 21 for storing a level of sodium hypochlorite discharged from the sodium hypochlorite generator 10 and supplying the sodium hypochlorite discharged from the sodium hypochlorite generator 10 to a side required by the control panel 130;

A nanofilter separation membrane (40) for filtering and sludging various kinds of sludge contained in the marsupial solution supplied from the side of the liquefying facility (30) and treating the treated sludge with the discharged water quality;

When the driving signal is output from the control panel 130 by detecting the low level by the level sensor 61 for detecting the level of the liquid stored in the liquid treatment water storage tank 60, A liquid supply pump 50 for supplying the liquid to the liquid treatment water storage tank 60 side;

A liquid level sensor 61 and a submerged pump 62 for temporarily storing the liquid level transferred through the liquid level supplying pump 50. When the control panel 130 requests the water level pump 61, A liquid treatment water storage tank 60 for supplying liquid waste to the purified water discharge tank 120 side;

A first external pump 70 for supplying the sodium hypochlorite stored in the sodium hypochlorite storage tank 20 to the sodium hypochlorite temporary storage tank 90 for controlling the chromaticity by an amount required by the control panel 130;

When the first external pump 70 is operated by the control panel 130, the amount of opening and closing thereof is controlled and temporarily stored in the sodium hypochlorite for chromaticity control A first direct-flow-rate regulating valve 80 for supplying water to the sodium hypochlorite supplied to the tank 90 so that the ppm of the sodium hypochlorite for controlling the color has a predetermined ppm;

 A level sensor 91 for level detection and a submerged pump 92 and a predetermined ppm of sodium hypochlorite for controlling the chromaticity supplied through the first external pump 70 and the first direct- A sodium hypochlorite temporary storage tank 90 for temporarily storing and supplying chromaticity sodium hypochlorite temporary storage tank 90 to the venturi pipe 111 when the control panel 130 makes a request;

The chromaticity of the liquid ratio in the liquid treatment water storage tank 60 or the purified liquid discharge tank 120 is detected electrically in the liquid treatment water storage tank 60 and the purified water discharge tank 120, The first and second chromaticity detection sensors 100a and 100b;

And a submersible pump 92 is provided in the liquid treatment water supplied from the liquid treatment water storage tank 60 to the purified water discharge tank 120 side through the submerged pump 62 A venturi tube 111 for uniformly diluting sodium hypochlorite for controlling the chromaticity of a predetermined ppm supplied from the side of the temporarily storing sodium hypochlorite storage tank 90 through the chromaticity adjusting tank 90;

The chromaticity of the liquid supplied through the liquid bypass pipe 110 in the state where the sodium hypochlorite for chromaticity control is diluted through the venturi pipe 111 is stored in a desired chromaticity through continuous reaction with sodium hypochlorite for controlling the chromaticity, A purge tank 120 for causing only liquid exceeding the level to be discharged naturally or forcibly;

And a control panel 130 that receives signals from the respective sensors in real time and performs overall control functions of the system in response to the determined control programs.

Between the sodium hypochlorite storage tank 20 and the python 140, the compost solidification chamber 150 and the leachate storage tank 160,

A second external pump 170 for supplying the sodium hypochlorite stored in the sodium hypochlorite storage tank 20 to the sodium hypochlorite temporary storage tank 190 by an amount required by the control panel 130, ;

When the second external pump 170 is operated by the control panel 130 in the form of being connected in series with the flow meter 182 on the direct water supply pipe 181, the amount of opening and closing thereof is controlled and the sodium hypochlorite temporary storage tank (180) for supplying water to the sodium hypochlorite supplied to the side of the first flow rate regulating unit (190) so that the ppm of the sodium hypochlorite for the combined treatment is set to a predetermined ppm;

A combined sodium hypochlorite temporary storage tank 190 for temporarily storing a sodium hypochlorite for complex treatment having a level sensor 191 for level detection and a submerged pump 192;

A level sensor 201 for level detection and a submerged pump 202. The submerged level sensor 201 is connected to the submerged sodium hypochlorite temporary storage tank 190, A sodium hypochlorite temporary storage tank 200 for temporarily storing sodium hypochlorite;

The concentration of ammonia and hydrogen sulfide generated in the interior of each of the piles 140, the upper portion of the composting solid-liquid separation chamber 150 and the upper portion of the leachate storage tank 160 are detected in real time and transmitted to the control panel 130 A plurality of ammonia detection sensors 210a to 210c and hydrogen sulfide detection sensors 220a to 220c;

The first high pressure sprayer 240 is installed on the upper portion of the plowshare solid-liquid separation chamber 150 and the leachate storage tank 160. The sodium hypochlorite temporary storage tank 200 A plurality of spray nozzles 230a to 230c spraying the sodium hypochlorite for malodor treatment uniformly to the entire inside thereof when the sodium hypochlorite is supplied thereto;

The injection nozzles 230a to 230c installed in the upper part of the python solid-liquid separation chamber 150 or the leachate storage tank 160 and the submerged pumps in the sodium hypochlorite temporary storage tank 200 for the malodor treatment, And when the concentration of ammonia or hydrogen sulfide contained in the air in the pycnosis solid-liquid separation chamber 150 or the leachate storage tank 160 exceeds a predetermined ppm, the sodium hypochlorite for odor treatment A first high-pressure sprayer 240 which is operated together with the submersible pump 202 in the temporary storage tank 200 and supplies the sodium hypochlorite for processing the malodor to the injection nozzles 230a to 230c at a high pressure;

The syringe 140 is installed between the first high-pressure sprayer 240 and the injection nozzles 230a to 230c in the python solid-liquid separation chamber 150 and the leachate storage tank 160, Or odor-treating sodium hypochlorite in which bad odor is injected by supplying sodium hypochlorite for odor treatment only to the injection nozzles of the composting solid-liquid separation chamber 150 or the leachate storage tank 160 on the side where ammonia or hydrogen sulfide exceeds a predetermined ppm The first to third electromagnetic valves 250a to 250c for automatically removing the first to third electromagnetic valves 250a to 250c.

Further, between the site of the pilgrim site boundary 260 and the sodium hypochlorite temporary storage tank 190 for complex treatment,

A level sensor 271 for detecting the level of water and an underwater pump 272 and is provided with a level sensor 271 for detecting the level of the mixed treatment A sodium hypochlorite temporary storage tank 270 for sterilization and disinfection for temporarily storing sodium hypochlorite for sterilization and disinfection;

A plurality of motion detection sensors (not shown) are installed in the fence and spaced apart from each other at predetermined intervals. When a variety of living things such as a person or a wild animal approaches the site boundary, 280);

The sodium hypochlorite for sterilization and disinfection is supplied by the operation of the second high-pressure sprayer 300. The sodium hypochlorite for sterilization and disinfection is sprayed at a high pressure A plurality of injection nozzles 290;

Is installed between the spray nozzles 290 provided in the fence of the pigeon ground boundary 260 and the submerged pump 272 in the sterilizing and disinfecting sodium hypochlorite temporary storage tank 270, 260 or the like is detected by the motion detection sensor 280 or when the organism is not detected for a predetermined period of time in the vicinity of the site boundary 260 by the control panel 130, The sodium hypochlorite for sterilization and disinfection stored in the sodium hypochlorite temporary storage tank 270 for sterilization and disinfection, which is operated together with the underwater pump 272 in the sodium chlorate temporary storage tank 270, A second high-pressure sprayer 300 for spraying the water;

The second high pressure sprayer 300 is installed between the spray nozzles 290 installed at the site boundary 260 and the spray nozzles 290 installed at the site boundary, And a fourth electromagnetic valve 310 for supplying sterilizing and disinfecting sodium hypochlorite to the side walls 290 so that harmful bacteria contained in the sodium hypochlorite can be automatically sterilized and disinfected.

Between the vehicle entrance 320 of the python 140 and the sodium hypochlorite temporary storage tank 190 for complex treatment,

A level sensor 331 for detecting the level of water and an underwater pump 332 and is provided with a level sensor 331 for detecting the level of the mixed treatment An antimicrobial sodium hypochlorite temporary storage tank 330 for temporarily storing sodium hypochlorite as a vehicle antimicrobial agent;

A vehicle proximity detection sensor 340 installed at the vehicle entrance 320 for detecting the vehicle proximity and transmitting the detected proximity to the control panel 130;

And has a shape horizontally arranged at an upper portion of the vehicle entrance 320 and vertically spaced from both sides thereof. When sodium hypochlorite for prevention is supplied due to the operation of the third high-pressure sprayer 360, A plurality of injection nozzles 350 for spraying the droplets;

And is installed between the injection nozzles 350 of the vehicle entrance 320 and the submerged pump 332 in the temporary sodium hypochlorite storage tank 330. The vehicle entrance 320 of the pig ' When the proximity sensor detects the proximity of the vehicle proximity sensor 340, the control unit 130 is operated for a predetermined time together with the underwater pump 332 in the temporary sodium hypochlorite storage tank 330 for protection, A third high-pressure sprayer 360 for supplying the sterilizing sodium hypochlorite stored in the sodium hypochlorite temporary storage tank 330 at a high pressure to the injection nozzles 350;

Is installed between the third high-pressure sprayer 360 and the spray nozzles 350 installed in the vehicle entrance 320 of the piggy 140. When the vehicle approaches the vehicle entrance 320 of the piggy company, And a fifth electromagnetic valve (370) for supplying a sterilizing sodium hypochlorite to the side of the injection nozzles (350) installed in the entrance (320) so that the prevention against the vehicle is automatically performed.

At this time, sodium hypochlorite stored in the sodium hypochlorite storage tank 20 is controlled to have 8,000 ppm, and sodium hypochlorite for controlling the chromaticity, which is stored in the temporary storage tank 90 for controlling the chromaticity, , And the sodium hypochlorite for combined treatment stored in the temporary storage tank 190 for sodium hypochlorite for combined treatment is adjusted to have 70 to 90 ppm.

In the control panel 130, even if any of the first and second chromaticity detection sensors 100a and 100b installed in the liquid treatment water storage tank 60 and the purified water discharge tank 120 is chromaticity 10 To 15 is detected, the underwater pump 92 installed in the temporary storage tank 90 for sodium hypochlorite for color adjustment is operated.

In the control panel 130, the ammonia detection sensors 210a to 210c or the hydrogen sulfide detection sensors 220a and 220b installed in the pile 140, the compost solid-liquid separation chamber 150 and the leachate storage tank 160, respectively, The concentration of ammonia contained in the air in the pythia solid-liquid separation chamber 150 or the leachate storage tank 160 is more than 0.8 to 1.2 ppm, or the concentration of hydrogen sulfide is 0.04 to 0.10 ppm, The operation of the underwater pump 202 and the first high-pressure sprayer 240 in the sodium hypochlorite temporary storage tank 200 for operating the malodor can be performed and the first to third electromagnetic valves 250a to 250c ) Is opened, or both of them are opened or both of them are opened and the concentration of sodium hypochlorite for the treatment of odors (hereinafter referred to as " sodium hypochlorite " Selectively or simultaneously By injection it characterized in that the control to give like.

When the proximity of various organisms is detected by the motion detection sensor 280 or when various organisms are not detected for 3 to 4 hours around the site boundaries 260, The submerged pump 272 and the second high-pressure sprayer 300 in the sodium temporary storage tank 270 are operated for 1 to 3 minutes while the fourth electromagnetic valve 310 is opened, So that sodium hypochlorite for sterilization and disinfection is sprayed around the boundary 260 at a high pressure.

When the control panel 130 determines that a specific vehicle is approaching the vehicle entrance 320 through the vehicle proximity sensor 340, the control panel 130 determines that the underwater pump 332 in the temporary sodium hypochlorite storage tank 330 And the third high-pressure sprayer 360 are operated for 1 to 2 minutes while the fourth electromagnetic valve 310 is opened to open the upper portion of the vehicle entrance 320 at a predetermined interval in the horizontal direction and at both sides, And controls the spraying of sodium hypochlorite for prevention to the entire outer surface including the wheel of the vehicle through the nozzle 350 at a high pressure.

The operation and effect of the sodium hypochlorite thus formed according to the present invention on the removal, and the disinfection and disinfection of odor in the inside of the pig, external and peripheral odors will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the sodium hypochlorite generating unit 10, the sodium hypochlorite storage tank 20, the nano-sodium hypochlorite storage tank 20, The liquid treatment water storage tank 60 provided with the filter separation membrane 40, the liquid feed pump 50 and the underwater pump 62, the first external pump 70, the first direct water flow rate control electronic valve 80, And a second chromaticity detection sensor 100a 100b, a venturi pipe 111, a purge tank 120, and a control panel 130 as main basic technical components.

The sodium hypochlorite generator 10, which is one of the main technical elements of the present invention, is driven in response to a driving signal outputted from the control panel 130 and continuously generates sodium hypochlorite having a predetermined ppm .

In view of the fact that most of the electrolytic sodium hypochlorite generators conventionally produce 12% effective chlorine by diaphragm type and generate chlorine gas and the disinfection byproduct content gradually increases as the storage period becomes longer, In the present invention, by using the non-diaphragm type sodium hypochlorite generator (10) to produce 0.8% (i.e., 8,000 ppm) of effective chlorine, the content of disinfection by-products such as cleolite and perchlorate is extremely low, It has no effect on the human body.

The sodium hypochlorite storage tank 20 may have a predetermined volume and may be continuously supplied with the sodium hypochlorite from the sodium hypochlorite generator 10 to a predetermined level every time the control panel 130 detects the low water level. And a level sensor 21 for detecting the level of the sodium hypochlorite to store the sodium hypochlorite discharged from the sodium hypochlorite generator 10 and continue to supply the sodium hypochlorite to the side required by the control panel 130.

In addition, the nanofilter separation membrane 40 has a nanofilter therein. The nanofilter separation membrane 40 filters various sludge contained in the marsupial solution supplied from the liquid facility 30 and treats the treated sludge as discharged water.

The liquid supply pump 50 is operated whenever a drive signal is outputted from the control panel 130 by detecting the low level by the level sensor 61 for level detection provided in the liquid treatment water storage tank 60 , And the function of supplying the matured liquid ratio passed through the nanofilter separation membrane (40) to the liquid treatment water storage tank (60) side.

The liquid treatment water storage tank 60 has a predetermined volume and includes a water level detecting level sensor 61 and an underwater pump 62 so that the driving of the liquid treatment water storage tank 60 is controlled by the output signal of the control panel 130 The control unit 130 temporarily stores the liquid amount transferred through the liquid supply pump 50 and supplies the liquid to the purified water discharge tank 120 through the underwater pump 62 whenever the control panel 130 makes a request .

The first external pump 70 supplies the sodium hypochlorite stored in the sodium hypochlorite storage tank 20 to the sodium hypochlorite temporary storage tank 90 for the chromaticity adjustment by an amount required by the control panel 130 .

The first direct water flow rate controlling electronic valve 80 is connected to a direct water supply pipe 81 which is directly connected to a channel between the outlet of the first external pump 70 and the sodium hypochlorite temporary storage tank 90 for controlling the chromaticity Connected in series with the flow meter 82.

When the first external pump 70 operates in response to the output signal of the control panel 130, the first external pump 70 controls the amount of opening and closing of the first external pump 70, and the first external pump 70 is connected to the sodium hypochlorite temporary storage tank 90 (For example, 190 to 210 ppm) of ppm of sodium hypochlorite for color adjustment, which is stored in the temporary storage tank 90 for actual chromaticity control, is supplied to 8,000 ppm sodium hypochlorite being supplied For example, 8,000 ppm of sodium hypochlorite, for example, has a function of introducing an appropriate amount of direct water to have a chromaticity controlling sodium hypochlorite having 190 to 210 ppm.

The first and second chromaticity detection sensors 100a and 100b are installed on the outer surfaces of the liquid treatment water storage tank 60 and the purified water discharge tank 120 so as to visually confirm the color of the liquid stored therein, And the chromaticity of the liquid ratio in the glass tube whose water level changes in accordance with the change in the liquid level in the liquid treatment water tank 60 and the purified water tank 120 is set to be electrically And transmits the detected signal to the control panel 130 in real time.

In the control panel 130 receiving the output signals of the first and second chromaticity detection sensors 100a and 100b in real time, the control panel 130 receives the output signals of the first and second chromaticity detection sensors 100a and 100b in the liquid treatment water storage tank 60 and the purified water discharge tank 120, The submerged pump 92 provided in the temporary sodium hypochlorite storage tank 90 for colorimetric adjustment every time chromaticity of 10 to 15 or more is detected in any one of the chromaticity detection sensors of the first chromaticity detection sensor 100a and the second chromaticity detection sensor 100a, To be supplied in an amount corresponding to the chromaticity detected until the chromaticity becomes less than 40 in the liquid ratio stored in the liquid treatment water storage tank (60) or the purified water discharge tank (120) .

Here, chromaticity refers to the degree of coloring of water. The coloring is often caused by organic matter, but it may be colored by an inorganic substance such as iron, manganese or copper. For example, In the case of iron, it becomes red water, the number of manganese becomes black and the copper becomes blue. The standard of chromaticity is called the color 1 degree of chromaticity when 1 mg of platinum or 0.5 mg of cobalt is contained in water 11. Usually, the chromaticity of tap water is 5 degrees or less. When the water level is 10 degrees or more, the degree of chromaticity In the present invention, the sodium hypochlorite for controlling the chromaticity is intermittently supplied so that the chromaticity of the liquid discharged finally through the purified water discharge tank 120 is always less than 40. [

The sodium hypochlorite temporary storage tank 90 for controlling chromaticity has a predetermined volume as well as a level sensor 91 for detecting the level of water and an underwater pump 92. The first external pump 70 and the first external pump 70 And is disposed between the outlet of the direct flow control valve 80 and the inlet of the purification tank 120.

The sodium hypochlorite temporary storage tank 90 for controlling the chromaticity is operated by the control panel 130 so that the first external pump 70 is operated and the first direct water flow rate regulating valve 80 is opened appropriately and sodium hypochlorite The sodium hypochlorite for controlling the chromaticity of ppm determined by the mutual dilution becomes the sodium hypochlorite determined by the mutual dilution. When the control panel 130 requests the supply of sodium hypochlorite to the venturi pipe 111, Function.

The venturi pipe 111 is installed on the liquid bypass pipe 110 and is connected to the submerged pump 62 in the liquid treatment water storage tank 60 and the sodium hypochlorite The operation of the submerged pump 92 in the reservoir tank 90 makes the amount of sodium hypochlorite for controlling the chromaticity to be relatively low compared to the relatively large amount of the liquid processing water and the sodium hypochlorite for the chromaticity control, So that they are uniformly diluted with each other when they are moved to the side of the purification tank 120. [

The purge and discharging tank 120 has a predetermined volume and is provided with a level sensor 121 for detecting the level of the liquid and has a shape provided at an end of the liquid pipe 110. The venturi pipe 111 The liquid level supplied through the liquid pass pipe 110 is stored for a long period in a state where the sodium hypochlorite for adjusting the chromaticity is diluted for a long period of time and the chromaticity of the liquid liquid is continuously reacted with the sodium hypochlorite for controlling the chromaticity to have a desired chromaticity, Is discharged naturally or forcibly by using a pump or the like.

Although not shown in the drawing, the control panel 130 includes a microcomputer for executing a control program, various comparison data, and a driving device for each electric / electronic component. And performs the control functions of the system such as various pumps, electronic switches, and high-pressure sprayers.

The second external pump 170 is installed between the sodium hypochlorite storage tank 20 and the inside of the python 140 and between the compost solidification chamber 150 and the leachate storage tank 160. In addition, A second direct water flow rate regulating valve 180, a combined sodium hypochlorite temporary storage tank 190, a malodorous sodium hypochlorite temporary storage tank 200, a plurality of ammonia detection sensors 210a to 210c, The hydrogen sulfide detecting sensors 220a to 220c, the plurality of spray nozzles 230a to 230c, the first high-pressure sprayer 240 and the first to third electromagnetic valves 250a to 250c are installed, 140, the compost solid-liquid separation chamber 150, and the leachate storage tank 160 can be removed through the sodium hypochlorite spray for treating odors.

As described above, the second external pump 170 is configured to supply the sodium hypochlorite stored in the sodium hypochlorite storage tank 20 to the control panel 130 in an amount required for the sodium hypochlorite for complex treatment To the temporary storage tank 190 side.

The second direct water flow rate regulating valve 180 is connected to a direct water supply pipe 181 having a state of being directly connected to the pipeline between the outlet of the second external pump 170 and the sodium hypochlorite temporary storage tank 190 Connected in series with the flow meter 182.

When the second external pump 170 is operated in response to the output signal of the control panel 130, the amount of opening and closing of the second external water pump 180 is controlled and the sodium hypochlorite temporary storage tank 190 ppm of sodium hypochlorite, which is stored in the actual sodium hypochlorite temporary storage tank 190, is supplied to a predetermined ppm (for example, 70 to 90 ppm), that is, 8,000 ppm of sodium hypochlorite, for example, has an odor of 70 to 90 ppm, and an appropriate amount of direct water to have sodium hypochlorite for combined treatment for sterilization and disinfection prevention .

The sodium hypochlorite temporary storage tank 190 for complex treatment has a predetermined volume and a level sensor 191 for detecting the level of water and an underwater pump 192. The second external pump 170, The second external pump 170 is operated by the control panel 130 in a state where it is installed between the outlet of the second direct water flow rate regulating valve 180 and the inlet of the sodium hypochlorite temporary storage tank 200 for odor treatment, When the second direct water flow rate controlling electronic valve 180 is opened properly and sodium hypochlorite and direct water are sent in a properly diluted state, it is stored for a while, and a combined treatment of ppm (for example, 70 to 90 ppm) determined by mutual dilution For example, sodium hypochlorite, and supplies the sodium hypochlorite to the temporary storage tank 200 for malodorous processing, which will be described later, when there is a request from the control panel 130.

The sodium hypochlorite temporary storage tank 200 for odor treatment has a predetermined volume and includes a level sensor 201 for detecting the level of water and an underwater pump 202. The sodium hypochlorite temporary storage tank 200 The submerged pump 192 in the sodium hypochlorite temporary storage tank 190 for complex treatment is operated by the control panel 130 in a state where it is installed between the storage tank 190 and the first high-pressure sprayer 240, The control unit 130 temporarily stores the sodium chloride and supplies the sodium chloride to the plow 140 and the compost solid-liquid separation chamber 150 and the leachate storage unit 160 when the control panel 130 requests it.

The plurality of ammonia detection sensors 210a to 210c and the hydrogen sulfide detection sensors 220a to 220c are disposed inside the python 140, on the upper part of the compost solidification chamber 150 and on the upper part of the leachate storage tank 160 And detects the concentrations of ammonia and hydrogen sulfide generated in the respective units in real time and transmits the detected concentrations to the control panel 130. [

The plurality of injection nozzles 230a to 230c are installed in the piles 140, the compost solid-liquid separation chamber 150, and the leachate storage tank 160 at predetermined intervals and distances, respectively, When sodium hypochlorite for malodor treatment is supplied at a high pressure from the side of the temporary storage tank 200 for malodorous sodium hypochlorite due to the operation of the high-pressure sprayer 240, the sodium hypochlorite for malodor treatment is sprayed evenly over the entire inside thereof, And can be removed through fusion with malodorous sodium hypochlorite to which various odors including maltose are sprayed.

The first high-pressure sprayer 240 is connected to the injection nozzles 230a to 230c installed in the upper part of the plow 140 and the composting solid-liquid separation chamber 150 or the leachate storage tank 160, And is connected in series on the channel between the underwater pump 202 in the sodium hypochlorite temporary storage tank 200.

The first high-pressure sprayer 240 is connected to the pit 140 or compost solid-liquid separation chamber 150, which is detected by the plurality of ammonia detection sensors 210a to 210c and the hydrogen sulfide detection sensors 220a to 220c, ) Or the concentration of ammonia or hydrogen sulfide contained in the air in the leachate storage tank 160 exceeds a predetermined value (for example, the ammonia concentration exceeds 0.8 to 1.2 ppm or the hydrogen sulfide concentration exceeds 0.04 to 0.08 ppm) The control panel 130 is operated together with the underwater pump 202 in the sodium hypochlorite temporary storage tank 200 for malodor treatment and the malodorous process is performed in the sodium hypochlorite temporary storage tank 200 for the malodor treatment And supplies the sodium hypochlorite to the injection nozzles 230a to 230c at a high pressure.

The first to third electron valves 250a to 250c are connected to the first high pressure sprayer 240 and the plow nozzle 140a, the compost solidification chamber 150 and the injection nozzle 230a in the leachate reservoir 160, And 230c, respectively, on the branch conduit.

The first to third electromagnetic valves 250a to 250c may be configured such that the ammonia or hydrogen sulfide in the pycnosis 140 or the compost solidification chamber 150 or the leachate storage tank 160 exceeds the predetermined ppm, Only the injection nozzles on the side where the ammonia concentration exceeds 0.8 to 1.2 ppm or the hydrogen sulfide concentration exceeds 0.04 to 0.08 ppm) is added to only the predetermined time corresponding to the concentration of each gas detected for the malodorous sodium hypochlorite 1 to 3 minutes).

That is, in the control panel 130, the ammonia detection sensors 210a, 210b, 210c and 210d installed in the pycnotes 140, the compost solid-liquid separation chamber 150, and the leachate storage tank 160, respectively, The concentration of ammonia contained in the air in the pilger's steam distillation chamber 150 or the leachate storage tank 160 within the python 140 or the hydrogen sulfide detection sensors 220a to 220c is 0.8 to 1.2 ppm (200) and the first high-pressure sprayer (240) in the sodium hypochlorite temporary storage tank (200) when the concentration of hydrogen sulfide in the first sodium hypochlorite solution exceeds 200 ppm or the concentration of hydrogen sulfide exceeds 0.04 to 0.08 ppm, One or both of the third electromagnetic valves 250a to 250c may be opened or both of them may be opened so that a predetermined amount of ppm or less is applied to the inside of the python 140 or the compost solidification chamber 150 or the leachate reservoir 160 Until it becomes a bad smell A selective or simultaneous spraying of sodium sulfate is carried out so as to perform a reaction with sodium hypochlorite for malodor processing in which odor generated in the python solid-liquid separation chamber 150 or the composting solid-liquid separation chamber 150 is injected As shown in FIG.

Here, the sodium hypochlorite with a concentration of 70 to 90 ppm reacts with ammonia to produce a substance called chloramine, and chloramine is actually used as a sterilizing agent having sterilizing power, causing injury to DNA and causing DNA to become a single strand It causes splitting.

NH ₃ + HOCl? NH ₂ Cl (monochloramine) + H ₂ O - (Equation 1)

NH ₂ Cl + HOCl → NHCl ₂ (dichloramine) + H ₂ O- (Equation 2)

NHCl ₂ + HOCl → NCl ₃ (nitrogentrichloride) + H ₂ O - (Equation 3)

The substitution of the above formula is called nitrogentrichloride or 'bonded chlorine', and the combined chlorine has a sterilizing effect which is about 1/10 lower than that of the free chlorine acid group. However, since the reaction with organic substances proceeds slowly, There is an advantage of not generating the ingredients that cause it.

In the present invention, in addition to the above-described components, a sodium hypochlorite temporary storage tank 270 for sterilization and disinfection and a plurality of sodium hypochlorite storage tanks 270 for sterilization and disinfection are provided between the site of the pig house site boundary 260 and the sodium hypochlorite temporary storage tank 190 A plurality of spray nozzles 290, a second high-pressure sprayer 300 and a fourth electromagnetic valve 310 are installed in the vicinity of the site boundaries, so that various living things including people, wild animals, To disinfect and disinfect various harmful bacteria, ie viruses, which may exist in the boundary of the site, by spraying sterilization and disinfection sodium hypochlorite on the site boundary when there is no proximity for more than a fixed period of time. Is another component.

The sodium hypochlorite temporary storage tank 270 for sterilization and disinfection has a predetermined volume and includes a level sensor 271 for detecting the level of water and an underwater pump 272. The sodium hypochlorite temporary storage tank 270 for sterilization and disinfection includes a sodium hypochlorite And is installed between the outlet of the storage tank 190 and the inlet of the second high-pressure sprayer 300.

The sodium hypochlorite temporary storage tank 270 for sterilization and disinfection is operated by the control panel 130 so that the submerged pump 192 is operated so that the mixed sodium hypochlorite temporary storage tank 190 The sodium hypochlorite is temporarily stored for sterilization and disinfection when the sodium hypochlorite is transported to the control panel 130. When a request is made by the control panel 130, 290).

In addition, the plurality of motion detection sensors 280 are installed at predetermined intervals in the fence of the site boundary 260, and the motion detection sensors 280 may be installed in the vicinity of the site boundary When an organism such as a wild animal including a person approaches it, the detection unit detects it in real time and transmits it to the control panel 130.

The plurality of injection nozzles 290 are installed at predetermined intervals on the upper part of the fence at the pigter site boundaries 260. The sterilization and disinfecting sodium hypochlorite temporary storage tank 270 When the sodium hypochlorite for sterilization and disinfection in the sterilizing and disinfecting sodium hypochlorite temporary storage tank 270 is supplied by operating the water pump 272 in the first high pressure sprayer 300 and operating the second high pressure sprayer 300 , And then spraying the same at a site boundary 260 with high pressure to disinfect and sterilize various harmful bacteria, that is, viruses, which may exist at the site boundary, thereby preventing the occurrence of infectious diseases.

The second high-pressure sprayer 300 is connected to the injection nozzles 290 provided in the fence of the pigeon ground boundary 260 and the underwater pump 272 in the sterilizing and disinfecting sodium hypochlorite temporary storage tank 270 ) Connected in series.

The second high-pressure sprayer 300 may be used to detect the movement of the living organisms around the site boundaries 260 when the motion detection sensor 280 detects the presence of the organisms, The sodium hypochlorite for sterilization and disinfection is operated by the control panel 130 together with the submerged pump 272 in the sodium hypochlorite temporary storage tank 270 for sterilization and disinfection, And supplies sodium hypochlorite for sterilization and disinfection stored in the storage tank 270 to the injection nozzle 290 at a high pressure.

The fourth electromagnetic valve 310 is installed on the pipeline between the second high-pressure sprayer 300 and the injection nozzles 290 installed at the site boundary 260, And is stored in the temporary storage tank 270 for sterilization and disinfection, and is stored in the sterilizing and disinfecting sodium hypochlorite temporary storage tank 270 The sodium hypochlorite for sterilization and disinfection of 70 to 90 ppm is supplied to the injection nozzles 290 at the site boundary so that the harmful bacteria that can be held by various organisms can be automatically sterilized and disinfected.

That is, when the proximity of various organisms is detected as a result of the detection through the motion detection sensor 280 in the control panel 130 or when various organisms are not detected for 3 to 4 hours around the site boundaries 260, The operation of the underwater pump 272 and the second high-pressure sprayer 300 in the disinfecting sodium hypochlorite temporary storage tank 270 is performed for one to three minutes while the fourth electromagnetic valve 310 is opened, 290) can inject sodium hypochlorite for disinfection and disinfection at a high pressure around the site boundary (260), thereby disinfecting and sterilizing various harmful bacteria, that is, viruses, Etc. can be prevented in advance.

Here, sterilizing and disinfecting sodium hypochlorite having a concentration of 70 to 90 ppm is effective for both Gram-positive bacteria and negative bacteria by sterilizing action, and it is effective for some viruses and apopto when used at a high concentration.

That is, the sodium hypochlorite for sterilization and disinfection has a disinfecting power of 99.999% against the bacterium Bacillus cereus, Escherichia coil, Listeria, Staphylococcus aureus, Salmonella typhimurium, fungus Aspergillus niger, Clostridium perfringens, yeast Candida albicans, Rhizopus oryzae, Saccharomyces cerevisiae And sterilization of foot-and-mouth disease, norovirus, and viruses of African swine fever, so that farm livestock diseases and livestock epidemics can be prevented in advance.

In addition, in the present invention, in addition to the above-described components, an antimicrobial sodium hypochlorite temporary storage tank 330 and an antimicrobial sodium hypochlorite storage tank 330 are provided between the vehicle entrance 320 of the python 140 and the sodium hypochlorite temporary storage tank 190 The vehicle proximity detection sensor 340, the plurality of injection nozzles 350, the third high-pressure sprayer 360 and the fifth electromagnetic valve 370 are installed to automatically disinfect various viruses and the like attached to the vehicle entering and exiting the pig It is another major technological component that prevents the occurrence of infectious diseases caused by various germs through vehicles by sterilization.

At this time, the temporary sodium hypochlorite storage tank 330 has a predetermined volume, a level sensor 331 for detecting the level of water, and an underwater pump 332. The sodium hypochlorite temporary storage tank 330 Pressure sprayer 190 and the inlet of the third high-

The underwater pump 192 is operated by the control panel 130 to temporarily store the sodium hypochlorite temporary storage tank 330. The hypochlorous acid solution is supplied to the sodium hypochlorite temporary storage tank 190 for combined treatment, When sodium is delivered to the vehicle anti-vehicle, it temporarily stores the sodium, and when there is a request from the control panel 130, a plurality of injection nozzles 350 ) To the user.

In addition, the vehicle proximity sensor 340 detects the proximity of the vehicle to the vehicle exit of the pug and detects it in real time, and transmits it to the control panel 130.

The plurality of injection nozzles 350 are installed horizontally at an upper portion of a structure provided in a tunnel form at the vehicle entrance 320 and spaced at predetermined intervals in the vertical direction from both sides.

The injection nozzles 350 recognize that the vehicle is close to the result of receiving the output signal of the vehicle proximity sensor 340 from the control panel 130 and store the sterilizing sodium hypochlorite temporary storage tank 330, By operating the submersible pump 332 and the third high-pressure atomizer 360 for a predetermined period of time (for example, one to two minutes to allow the passage of time to pass sufficiently), the temporary sodium hypochlorite storage tank 330 ) Is supplied for a predetermined time at high pressure, it is sprayed evenly over the entire vehicle passing through the entrance of the vehicle in the form of mist, so that various viruses that may be attached to the vehicle can be used for the prevention of hypochlorous acid It performs the function of automatic disinfection and sterilization by sodium.

The third high-pressure sprayer 360 is connected in series with the spray nozzles 350 of the vehicle entrance 320 and the submerged pump 332 in the temporary sodium hypochlorite storage tank 330 .

The third high-pressure sprayer 360 detects the presence of the vehicle proximity sensor 340 when the vehicle approaches the vehicle entrance 320 of the python 140. When the vehicle proximity sensor 340 detects the presence of the sodium hypochlorite The sodium hypochlorite for operation, which is operated for a predetermined time together with the underwater pump 332 in the temporary storage tank 330 for 1 to 2 minutes and stored in the temporary sodium hypochlorite storage tank 330, To the nozzle 350 side.

The fifth electromagnetic valve 370 is installed in series on the pipeline between the third high-pressure sprayer 360 and the injection nozzles 350 installed in the vehicle entrance 320 of the piggy bank 140 .

The fifth electromagnetic valve 370 is opened for 1 to 2 minutes in response to the output signal of the control panel 130 generated when the vehicle approaches the vehicle entrance 320 of the pilgrim, 70 to 90 ppm of sodium hypochlorite for prevention contained in the temporary storage tank 330 is supplied to the injection nozzles 350 installed in the vehicle entrance 320 to automatically perform the anti- .

That is, when it is determined that the specific vehicle is close to the vehicle entrance 320 through the vehicle proximity detection sensor 340 in the control panel 130, the submerged pump 332 in the temporary sodium hypochlorite storage tank 330, And the third high-pressure sprayer 360 are operated for 1 to 2 minutes while the fourth electromagnetic valve 310 is opened. Thus, a plurality of The injection nozzle 350 automatically injects high-pressure sodium hypochlorite on the entire outer surface including the wheels of the vehicle to automatically sterilize and sterilize various viruses that may be attached to unspecified vehicles entering and exiting the pig The occurrence of infectious diseases caused by various kinds of germs can be prevented in advance.

While the present invention has been described in connection with what is presently considered to be practical and exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

10: Sodium hypochlorite generator
20: sodium hypochlorite storage tank 21: level sensor for level detection
30: Liquefaction facility 40: Nanofilter membrane
50: Liquid supply pump 60: Liquid treated water storage tank
61: Level sensor for level detection 62: Submerged pump
70: first external pump 80: first direct water flow regulating valve
81: Direct supply pipe 82: Flow meter
90: sodium hypochlorite temporary storage tank for controlling the chromaticity
91: Level sensor for level detection 92: Submerged pump
100a, 100b: first and second chromaticity detection sensors
110: Liquid passing pipe 111: Venturi pipe
120: purge tank 121: level sensor for water level detection
130: Control panel 140:
150: compost solid-liquid separation chamber 160: leachate storage tank
170: second external pump 180: second direct water flow rate controlling electronic valve
181: Direct supply pipe 182: Flow meter
190: Sodium hypochlorite for combined treatment temporary storage tank
191: Level sensor for level detection 192: Submerged pump
200: Sodium hypochlorite for odor treatment Temporary storage tank
201: Level sensor for level detection 202: Submerged pump
210a to 210c: ammonia detection sensors 220a to 220c: hydrogen sulfide detection sensor
230a to 230c: injection nozzle 240: first high-pressure sprayer
250a to 250c: first to third electron valves
260: Site boundaries
270: Sodium hypochlorite storage tank for sterilization and disinfection
271: Level sensor for level detection 272: Submerged pump
280: motion detection sensor 290: injection nozzle
300: second high pressure atomizer 310: fourth electron source
320: Vehicle entrance
330: Temporary storage tank for sodium hypochlorite for disinfection
331: Level sensor for level detection 332: Submerged pump
340: vehicle proximity detection sensor 350: injection nozzle
360: third high pressure atomizer 370: fifth electron source

Claims (10)

A sodium hypochlorite generator driven in response to a driving signal output from the control panel and generating sodium hypochlorite having a predetermined ppm;
A sodium hypochlorite storage tank for storing the sodium hypochlorite discharged from the sodium hypochlorite generator and supplying the sodium hypochlorite to the side required by the control panel;
A nanofilter separation membrane for filtering and sludging various sludges contained in the liquid fertilizer supplied from the liquefaction facility to discharge water;
A liquid feed pump for feeding a solid solution passing through the nanofilter separation membrane to the liquid treatment water storage tank;
A liquid storage tank for temporarily storing the liquid stored through the liquid supply pump and supplying the liquid storage tank to the control tank when the control panel requests the control tank;
A first external pump for supplying the sodium hypochlorite stored in the sodium hypochlorite storage tank to the sodium hypochlorite temporary storage tank for controlling the chromaticity by an amount required by the control panel;
Wherein the first external pump is operated by the control panel, water is supplied to the sodium hypochlorite supplied to the temporarily storing sodium hypochlorite storage tank for controlling the chromaticity so that the sodium hypochlorite for controlling the chromaticity has a predetermined ppm, and;
A sodium hypochlorite temporary storage tank for temporarily storing the predetermined sodium hypochlorite for controlling the chromaticity of ppm and supplying the sodium hypochlorite to the venturi tube when the control panel requests it;
First and second chromaticity detection sensors electrically detecting the chromaticity of the liquid ratio in the liquid treatment water storage tank or the purified liquid discharge tank, respectively, in the state where the liquid treatment water is stored in the liquid treatment water storage tank and the purified water discharge tank, respectively,
And is provided on the liquid passing pipe, and is provided in the liquid processing water supplied from the liquid processing water storage tank through the submerged pump to the purified water discharge tank side, through a submerged pump and is supplied from the sodium hypochlorite temporary storage tank for chromaticity control to a predetermined ppm A venturi tube for uniformly diluting the sodium hypochlorite for controlling the chromaticity;
A purge outlet for storing the chromaticity of the liquid to be continuously supplied through the liquid bypass line in a state where the sodium hypochlorite for chromaticity control is diluted through the venturi pipe to a desired chromaticity so that only the liquid exceeding the predetermined level is discharged naturally or forcibly A tank;
And a control panel for receiving signals from the respective sensors in real time to perform a control function of the system in response to a predetermined control program, and a sterilization and disinfection system for removing, deodorizing and disinfecting odor inside and outside the pig using sodium hypochlorite.
The method according to claim 1,
Between the sodium hypochlorite storage tank and the inside of the pile, the compost solid-liquid separation chamber and the leachate storage tank,
A second external pump for supplying the sodium hypochlorite stored in the sodium hypochlorite storage tank to the temporary sodium hypochlorite storage tank by an amount required by the control panel;
Wherein when the second external pump is operated by the control panel, water is supplied to the sodium hypochlorite supplied to the temporary storage tank for sodium hypochlorite, the amount of which is controlled and the amount of opening and closing thereof is controlled, A second direct-flow-rate-regulating-side electronic valve for causing sodium hypochlorite for the combined treatment to have a predetermined ppm;
A temporary sodium hypochlorite storage tank for temporarily storing sodium hypochlorite for complex treatment having a predetermined ppm;
A sodium hypochlorite temporary storage tank for temporarily storing sodium hypochlorite for complex treatment supplied from the side of the sodium hypochlorite storage tank for complex treatment in response to the control of the control panel;
A plurality of ammonia detection sensors and a hydrogen sulfide detection sensor each having a shape installed in the interior of the pile, a compartment of the solid-liquid separation chamber of the compost, and an upper portion of the leachate storage tank and detecting the concentration of ammonia and hydrogen sulfide generated in each of them in real time,
The first and second high-pressure atomizers are installed in the solid-liquid separation chambers and the upper part of the leachate storage tank, respectively. When sodium hypochlorite for odor treatment is supplied from the sodium hypochlorite storage tank for odor treatment due to the operation of the first high- A plurality of injection nozzles for spraying evenly the entire interior thereof;
When the concentration of ammonia or hydrogen sulfide contained in the air in the pest or composting solid-liquid separation chamber or the leachate storage tank exceeds the predetermined ppm, it is operated by the control panel together with the submerged pump in the sodium storage tank for odor treatment, A first high pressure atomizer for supplying sodium chlorate to the injection nozzle side at a high pressure;
The solid-liquid separator according to any one of claims 1 to 3, wherein the first high-pressure atomizer is disposed between the purging nozzles in the pycnometer solid-liquid separation chamber and the leachate storage tank, and the ammonia or hydrogen sulfide in the pit- The first, second, and third electromagnetic valves for supplying odorous sodium hypochlorite to the first and second electrodes to automatically remove odors by supplying sodium hypochlorite for odor treatment only to the first and second electrodes.
The method of claim 2,
Between the sodium hypochlorite temporary storage tank for complex treatment and the pig site boundary,
A sodium hypochlorite temporary storage tank for sterilization and disinfection for temporarily storing sterilizing and disinfecting sodium hypochlorite for complex treatment supplied from the temporary sodium hypochlorite storage tank side in response to the output signal of the control panel;
A plurality of motion detection sensors having a form arranged at predetermined intervals on a site boundary fence and detecting an electrical signal when various creatures approach the vicinity of the site boundary and transmitting the detected electrical signals to the control panel;
A plurality of injection nozzles for spraying the sodium hypochlorite for sterilization and disinfection at a high pressure when the second high pressure atomizer is operated by the control panel and the sodium hypochlorite for sterilization and disinfection is supplied, and;
If an organism is detected by the motion sensor due to the proximity of the organism around the site boundary, or if no organism is detected for a predetermined period of time around the site boundary, the organism is disinfected and disinfected by the control panel with a submersible pump in the temporary storage tank of sodium hypochlorite A second high-pressure atomizer for supplying sterilizing and disinfecting sodium hypochlorite to the injection nozzle side at a high pressure;
The second high-pressure sprayer is installed between the spray nozzles installed at the site boundary, and when various organisms are close to the site boundary, sterilizing and disinfecting sodium hypochlorite is supplied to the spray nozzles at the site boundary And a fourth electron source for allowing the harmful bacteria contained therein to be automatically sterilized and disinfected. The sterilizing system for disinfection and sterilization of the inside, outside, and surrounding odors of pigs using sodium hypochlorite.
The method of claim 2,
Between the sodium hypochlorite temporary storage tank for complex treatment and the vehicle entrance of the python,
An antimicrobial sodium hypochlorite temporary storage tank for temporarily storing antimicrobial sodium hypochlorite supplied from the temporary sodium hypochlorite storage tank for complex treatment in response to an output signal of the control panel;
A vehicle proximity detection sensor having a form installed at a vehicle entrance and detecting a vehicle when the vehicle is in proximity and transmitting the detected proximity to a control panel;
And the third high-pressure atomizer is operated by the control panel to spray sodium hypochlorite for prevention to the vehicle at a high pressure. A plurality of injection nozzles;
When the proximity sensor detects that the vehicle is approaching the vehicle entrance of the pilgrim, it is operated by the control panel for a predetermined time together with the submerged pump in the temporary sodium hypochlorite storage tank, and is stored in the antimicrobial sodium hypochlorite temporary storage tank A third high-pressure atomizer for supplying the stored sodium hypochlorite for prevention to the injection nozzle side at a high pressure;
The second high-pressure sprayer is installed between the third high-pressure sprayer and the injection nozzles installed at the vehicle entrance of the pig. When the vehicle is close to the entrance of the pig car, the injection nozzles installed at the entrance of the vehicle are provided with a sterilizing sodium hypochlorite And a fifth electronic valve for automatically transmitting a control signal to the vehicle so as to automatically prevent the vehicle from being supplied to the vehicle. The system for disinfection and sterilization of the inside, outside, and surrounding odors of pigs using sodium hypochlorite.
The method according to claim 1,
Wherein the sodium hypochlorite stored in the sodium hypochlorite storage tank is adjusted to have 8,000 ppm and the sodium hypochlorite for controlling the chromaticity stored in the temporary storage tank for sodium color is adjusted to have 190 to 210 ppm. Disinfection and disinfection system for removing odor inside and outside of pigs using sodium chlorate.
The method of claim 2,
Wherein the sodium hypochlorite for combined treatment stored in the temporary storage tank for sodium hypochlorite for combined treatment is adjusted to have 70 to 90 ppm.
The method according to claim 1,
When the chromaticity of 10 to 15 or more is detected in any of the chromaticity detection sensors of the first and second chromaticity detection sensors provided in the liquid treatment water storage tank and the purified liquid discharge tank respectively in the liquid level control sodium hypochlorite temporary storage tank And the sodium hypochlorite for chromaticity control is supplied to the liquid treatment water storage tank or the purification liquid discharge tank side by operating the installed submersible pump.
The method of claim 2,
In the control panel, in the ammonia detection sensor or the hydrogen sulfide detection sensor provided in the inside of the pile, the upper portion of the composting solid-liquid separation chamber, and the upper portion of the leachate storage tank, the ammonia concentration contained in the air in the pit- The submerged pump and the first high-pressure atomizer in the sodium hypochlorite storage tank for malodor treatment are operated when the concentration of hydrogen sulfide exceeds 0.8 to 1.2 ppm or the concentration of hydrogen sulfide exceeds 0.04 to 0.08 ppm, Characterized in that one or both of the openings or both are opened and controlled so that they are selectively or simultaneously sprayed mistily until the concentration is less than the predetermined ppm in the inside of the pile or in the compost seawater liquid separation chamber or the leachate storage tank Removing odor inside and outside of the used pycles Disinfection system.
The method of claim 3,
In the control panel, when the proximity of various organisms is detected by the motion detection sensor, or when various organisms are not detected for 3 to 4 hours in the vicinity of the site boundary, the underwater pump in the temporary storage tank for sterilizing and disinfecting sodium hypochlorite, The sodium hypochlorite is controlled to be sprayed at a high pressure for sterilizing and disinfecting sodium hypochlorite around the site boundary through a plurality of spray nozzles by opening the fourth electromagnetic valve while operating the atomizer for 1 to 3 minutes. Disinfection and disinfection system for odor removal inside and outside of the used pycnosphere.
The method of claim 4,
The control panel operates the underwater pump and the third high-pressure atomizer in the temporary sodium hypochlorite storage tank for 1 to 2 minutes, and, at the same time, The control unit controls the injection of high-pressure sodium hypochlorite to the entire outer surface including the wheels of the vehicle through a plurality of injection nozzles provided at predetermined intervals on both sides in the horizontal direction and on the upper side of the vehicle entrance Disinfection system for removing, deodorizing and disinfecting inside, outside, and surrounding pigs using sodium hypochlorite as a reducing agent.

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