KR20120000550A - Production of liquid foods such as soy sauce, red pepper paste, and miso, manufacturing of fresh water with seawater, environmentally friendly food waste disposal method, environmentally friendly waste disposal method, food, milk, vinegar and beverage, wine and liquor Process for collecting oil in oil sands, method for purifying fresh water or tap water, sewage or waste water or fresh water or seawater, method for producing salt water for salt production, method for preparing ballast water for ships and substitution of salt in sea water Process of extracting food and water purifier applied to it - Google Patents

Production of liquid foods such as soy sauce, red pepper paste, and miso, manufacturing of fresh water with seawater, environmentally friendly food waste disposal method, environmentally friendly waste disposal method, food, milk, vinegar and beverage, wine and liquor Process for collecting oil in oil sands, method for purifying fresh water or tap water, sewage or waste water or fresh water or seawater, method for producing salt water for salt production, method for preparing ballast water for ships and substitution of salt in sea water Process of extracting food and water purifier applied to it Download PDF

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KR20120000550A
KR20120000550A KR1020110108410A KR20110108410A KR20120000550A KR 20120000550 A KR20120000550 A KR 20120000550A KR 1020110108410 A KR1020110108410 A KR 1020110108410A KR 20110108410 A KR20110108410 A KR 20110108410A KR 20120000550 A KR20120000550 A KR 20120000550A
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South Korea
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water
material separation
compartment
seawater
brush
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KR1020110108410A
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Korean (ko)
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한상관
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한상관
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    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/02Treatment of water, waste water, or sewage by heating
    • C02F1/04Treatment of water, waste water, or sewage by heating by distillation or evaporation
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/34Treatment of water, waste water, or sewage with mechanical oscillations
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/44Treatment of water, waste water, or sewage by dialysis, osmosis or reverse osmosis
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F2103/00Nature of the water, waste water, sewage or sludge to be treated
    • C02F2103/08Seawater, e.g. for desalination
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W10/00Technologies for wastewater treatment
    • Y02W10/30Wastewater or sewage treatment systems using renewable energies
    • Y02W10/37Wastewater or sewage treatment systems using renewable energies using solar energy

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  • Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Hydrology & Water Resources (AREA)
  • Environmental & Geological Engineering (AREA)
  • Water Supply & Treatment (AREA)
  • Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
  • Mechanical Engineering (AREA)
  • Physical Water Treatments (AREA)

Abstract

PURPOSE: A method for manufacturing seawater based on fresh water, drinks, alcohol, seawater for producing salts, ballast water for vessels, and fluid material, a method for treating food waste and waste, a method for collecting oil from oil sand, a method for extracting materials replacing salts, a method for purifying water are provided to use organic pollutants contained in fresh water or seawater, which is collected in filtering parts and collecting containers, as separate energy. CONSTITUTION: A filtering container outlet(8) is arranged at one side of the lower part of a filtering container(1). An adjusting valve(7) is arranged at the filtering container outlet. Filtering parts(3, 4, 5) are arranged at the upper surrounding part of the filtering container in order to filter impurities. A first collecting container(54) is arranged at the lower side of a first filtering part. A second collecting container(59) is arranged at the lower side of a second filtering part. A third collecting container(52) is arranged at the lower side of a third filtering part. A brush crosses the filtering container.

Description

Production of liquid foods such as soy sauce, red pepper paste, and miso, manufacturing of fresh water with seawater, environmentally friendly food waste disposal method, environmentally friendly waste disposal method, food, milk, vinegar and beverage, wine and liquor Process for collecting oil in oil sands, method for purifying fresh water or tap water, sewage or waste water or fresh water or seawater, method for producing salt water for salt production, method for preparing ballast water for ships and substitution of salt in sea water Process for extracting food and water purifier applied to it {?}

The present invention is a method for producing alcohol, a method for producing ballast water for ships, a method for preparing seawater for salt production, a method for preparing seawater as a salt substitute food, and a method for preparing fresh water using seawater components and sewage. Or fresh water or sea water purification method, fresh water or sea water processing method to obtain energy, removal of harmful substances with low specific gravity, alcohol production method, and liquid foods such as soy sauce, red pepper paste or miso, milk, vinegar and beverage The present invention relates to a process for preparing food by removing harmful substances contained therein and a water purifying apparatus applied thereto.

 As is well known, most of the water provided by drinking water supplies the purified water to rivers, rivers, and reservoirs, and contaminates the incoming water because water enters through spaces such as rivers, rivers, and reservoirs. It is obvious that the substance contains a large amount.

Therefore, various methods have been proposed to purify the stored water, and conventional water purification methods include gravel contact oxidation method, reverse contact oxidation method, sewage treatment plant water purification method, chlorine input purification method, etc. Compared to the cost of carrying, the effect was insignificant.

In order to improve this, a device has been introduced to implement water purification by forming a vortex in water through a separate device to float contaminants and removing it, but this has the disadvantage of having a separate device to improve the water quality. Of course, since the water purification area is very limited, there was a weak point to improve the water quality in a wider range.

In addition, there is a device for purifying water by using a photocatalyst, but a water purifier using such a photocatalyst has a disadvantage in that it is difficult to continuously purify a large amount of water because the water is purified without flowing in a limited space. A device capable of continuously purifying water was required.

Here, the term applied to this invention is demonstrated in order to raise the technical value of this invention.

"Material Acceleration" and "Material Scavenging", "Law of Material Preservation Instinct" and "Mass Consolidation" and "Material Coupling" and "Material Rejection" in which contaminated water quality contained in river water is naturally purified or deteriorated. Action "and" material release action "will be described.

Due to the difference in the mass and specific gravity of the substance, all the substances flow in the different places of the material, ie in different states, depending on the specific gravity of the substance.

Due to this action, clean water with heavy specific gravity flows in the lower layer of the river water, and polluted water with light specific gravity flows in the state of herpes at the upper layer of the river water. The reality is that it flows faster than the lower seawater. This action occurs because the amount of pollutants contained in the water, ie the pollutant load, is high. This principle is defined as the "material acceleration phenomenon."

The reason that the water flowing in the stream is more polluted is because of the "acceleration of substance" and "agglomeration". Lightweight polluted water flows into the lower part of the river while lightly polluted water flows to the lower part of the stream by the action of gravity caused by the rotation of the Earth and the solar system. Pollution in river waters is further aggravated by the deterioration of contamination by "agglomeration", which combines with other pollutants that have been introduced.

The following describes the process of "material indentation" that occurs when the material acceleration phenomenon is used in reverse. There is a close relationship between mass cutting action and material acceleration. The process of material ingestion is performed when contaminated river waters try to pass through the lower part of the hydrology, and the waters forming the river water are pushed to the upper part of the clean water with heavy gravity and then to the upper layer. Through the lower part of the first try to get out of the action, this principle is the "material cut action". It is defined as. All materials on earth are different in volume or specific gravity, even if they are the same size, depending on the atomic weight and molecular weight of the materials that make up the material.

Next, all substances are "laws of substance preservation instinct" that seek to instinctively preserve the essential components of the substance, and "material massing" exerted by these actions, and "substance release" caused by material thrust. Action ". Water has the characteristic of inducing another substance by instinctively accepting the penetrating substance and integrating the substance when water other than water penetrates into the structure of the water by the structural characteristic of water. In the present invention, such an action is defined as "a substance aggregation action".

In addition, when a certain impact is applied to water to shake off the contaminants that penetrate into the pure water molecular structure forming water crystals, the contaminants contained in the pure molecular structure of the water are immediately released from the water molecule. Sun action is "material release action" is. It is defined as. In other words, the action of cleaning the polluted water by the force of the impact from the outside "material release action" is. It is defined as. As described above, the mass-aggregation action is generated when the water storage system is constructed in such a way that the water storage system for confining the river water is discharged to the upper end of the inflowing river water such as concrete beams, conductive water gates, or rubber dams. Pollution is aggravated by, but if you install a hydrologic system that discharges the river water to the lower end, the contaminated river water will be naturally purified as the natural material grabbing action, material jungle action and material release action. Large dams can also be constructed in this way so that they do not add pollution. In addition, the installation of a hydrologic system configured to discharge only a portion of the stream water in the lower part of the water storage system increases the pollution. The material is pushed by these heavy clean waters and pushed out of the outlet, causing the pollution to be further aggravated by agglomeration of materials that combine with other pollutants. Due to material jungle action and mass aggregation, contaminated river water, which has a relatively low specific gravity besides the hydrologic outlet, is absolutely impossible to move downstream of the stream itself. Contamination of contaminated materials becomes more and more contaminated by condensation. More specifically, the installation of a siphon-type water gate configured to selectively discharge only a portion of the outlet water formed at the lower end of the rubber dam or a portion of the bottom water trapped in the lower portion of the conductive water gate will result in a heavy gravity of clean water. Polluted waters that have a high specific gravity by pushing out these light waters and exiting the material first are pushed by clean waters that are heavy, and remain stagnant inside the water gate. In the state of absolutely failing to escape to the downstream part, the contaminated materials are bundled together and the contamination is further aggravated by the condensation of materials and the conjugation of materials that combine to create another material. When the water is confined using a submerged beam that discharges the influent to the upper part by these actions, the material condensation action and the substance generated by condensing the contaminants and water molecules together while confining the water inside the reservoir system There is a significant problem that contamination is rather weighted by the binding action.

The following describes the "law of substance conservation instinct".

All matters are rejected and pushed away if other foreign matter penetrates into the material structure of the material by the natural property of the material by the structural property of the material. Or the action of trying to escape from the substance or contaminants to permanently preserve the pure structure of the substance is defined as "law of the substance conservation instinct" in the present invention.

The following describes the "substance rejection action" caused by the "law of substance conservation instinct".

When all substances enter the water, they are diluted with the substances mixed in the water, and the aggregation of substances that add water pollution is not exerted from the beginning, but the structures of pure water molecules are bound directly by the substance rejection action that rejects the pollutants. In other words, it rejects the agglomeration effect of substances and substances, and after a certain period of time, pollutants are released by natural reactions such as dissolved oxygen, solar heat, microorganisms and osmotic pressure. It gradually combines with water molecules and transforms into contaminants. As the particles are naturally decomposed again, the particles generated by natural matters are combined with other materials, which increases the pollution of water. These are the active green algae and the red tide occurring in the sea. . A substance called a terrestrial animal is a by-product produced by the aggregation of organic and inorganic substances.

The following describes mass decomposition, mass binding and mass flotation. The pure molecules of water react to try not to combine with other substances due to substance rejection caused by the "law of substance preservation instinct" to maintain pure water molecules. They are bound by mass-binding action that binds to molecules and at the same time become heavy, and decompose by the natural decomposition that occurs naturally while sitting on the bottom layer of the river. A repetitive action occurs in which the material binds to the water molecules and some of the pollutants coming from the upstream.

Contaminants contained in water molecules undergo repetitive flotation, which transforms into microparticles by self-decomposing self-decomposition, and then moves to the upper layer of the reservoir, again binding to another contaminant. The water molecules bound by are repeatedly bonded to become heavy at the same time as they are bound and sink to the bottom of the reservoir, increasing the pollution of the river water. They are called "mass decomposition", "material binding" and " Material injury action ".

The following describes the "material explosion" that increases water pollution.

Substances that undergo various kinds of chemical reactions are naturally introduced into the water. These kinds of unknown substances meet with another substance, and when the unique chemical components of the substance and the unknown chemical components meet, As it explodes, it creates a substance like tiny bubbles that rises above the water. In other words, the continuous generation of fine droplets in the beer glass is due to the droplets continue to occur because the microparticles and fine particles contained in the beer is exploded.

Subsequent mass explosions occur in water, which are produced continuously by the tiny droplets due to the explosive mass of materials that meet and explode. When these explosions occur, other particles are formed by the combination of air bubbles and other particles contained in the water. The generated particles are heavier in specific gravity than the molecular structure of water. As it settles in the bottom layer, it adds to the contamination of the water.

The following describes the "material friction action", "material decomposition action" and "material binding action".

All materials are lighter than water or heavier than the specific gravity of water, but the sharp part of the particles and other clean water molecules that make up the clean water molecules by the pressure generated by the action of gravity and the pressure of water upon entering the water. Particles of contaminants that are sandwiched between water molecules, while a continuous blow is naturally applied to the particles of contaminants sandwiched between water molecules when active contact is made with the sharp parts of the particles. As the gradual wear occurs, the presence of the contaminant particles itself wears away, and the contaminated water is changed into clean water.

The natural purification of contaminated water by this action is defined as "natural water purification by material friction" and "academic term" as Hans action. When this action occurs, the polluted water is naturally purified, and the polluted substances are naturally decomposed without the action of oxygen.

In this process, the particles of incompletely decomposed materials are combined with pollutants and clean water by the viscous force contained in the particles, that is, the viscous force and magnetic force contained in the decomposed particles in another material. This action is "material binding action". The microparticles generated by the decomposition of materials naturally have viscous and magnetic forces due to the material frictional movement that causes the water molecules to move in an enormous motion inside the water, ie, to wear them and move them innumerably. Since the surface tension of the material occurs naturally and naturally occurs on the surface of the material, the viscous force to bond with the material and the magnetic force to attract the material are naturally strengthened. "Is defined.

The new materials produced by the material binding action generated through this process are heavier than the specific gravity of water, so that the material bonds and settles down to the reservoir where it is stored.

At this time, the contaminants of sedimentation sludge generated at this time generate a large amount of fine particles again through a continuous process in which they are decomposed again by material friction action and another decomposition action. The contaminated water quality is naturally revived as the particles are combined and rubbed again. If this occurs continuously, green algae occurs on land and red tide occurs in the sea. .

All materials are decomposed by the material friction and other material decomposition actions exerted by the particles that make up the water molecules at the moment they enter the water.

For example, the sea rust produced by the decomposition of iron is finer particles having a lighter specific gravity than water molecules, and they are settled in the bed as the material binds to other particles decomposed by water molecules. The material that arises at the time is deposition.

All the organic, inorganic, phosphorus and nitrogen substances contained in the water convert the polluted water into clean water with heavy gravity through the process of material friction, the action of oxygen, microorganisms, solar heat and the natural decomposition of water molecules. As it is shrouded in the lower part of the reservoir, when it is discharged through the lower part of the water gate, that is, it produces only clean water continuously.

When the water flowing down from the upstream is discharged through the lower layer where water is stored, the material is possessed by the laminar flow which is naturally classified according to the difference of the specific gravity of the material according to the law of material grabbing and specific gravity. Since the location of herpes by the inherent mass is different, the material binding action is not performed, so that the pollution is not aggravated and the polluted water is naturally purified.

Therefore, if the water is confined to a certain place for a long time, the contamination is further increased by the material decomposition and material binding action, so that the water stored in the reservoir always maintains the full water level, and the water flowing from the upstream through the lower part of the water gate The method of frequent discharge is the best way to prevent the contamination of river water, and also by using the method of discharging the water in the reservoir through the lower part of the sluice, the material binding action of the substances contained in the water It releases pollutants such as aggregated sewage sludge, and at the same time generates material acceleration phenomenon, material scavenging phenomenon, material decomposition action, material flotation action, and naturally cleans the contaminated water quality. A small amount of water that floats on top of the water by discharging some of the incoming water It is most desirable to purify the contaminated water quality by diluting it with salted substances and clean water with heavy gravity discharged through the lower part of the gate.

In addition, the conventional liquor processing method has matured liquor by simply casting and then placing it in an oak barrel for a long time. There were many drawbacks.

In addition, liquid foods such as soy sauce, soybean paste, or red pepper paste are also expensive because they are aged by using a jar method for a long time.

In addition, in the case of milk sterilization by applying heat there was a defect that nutrients are destroyed.

The following describes the basics of water which the inventors found while studying water.

Definition of water and explanation of basic common sense about water

The readers of this research paper will be able to understand the reason why the researcher insists that "water is made" by understanding the following questions.

Therefore, the argument is cited in order to counter the conventional doctrine of water, and therefore, the author intends to openly discuss it.

The claim that water is made of H2O is misleading

▶ The composition of water that J. Priestley claims is absolutely wrong.

The first person to discover the composition of water was J. Priestley1). In 1771 he discovered that water was produced when hydrogen and oxygen were mixed and an electrical spark was generated.2 This logic is absolutely wrong.

This experiment establishes the contradictory logic of how to explain the phenomenon that moisture is generated when heat is heated on a cold iron plate.

H. Cavendish also claims that water was produced in two volumes of hydrogen and one volume of oxygen by repeating accurate experiments from 1771 to 1784.3 This experiment also generates water when heat is applied to an iron plate. There is a dilemma of how to understand what is happening, and scholars who are working on this evidence are looking for a wise answer.

In addition, in 1785, it was confirmed that hydrogen was generated when water was passed through a heated iron pipe, and it was demonstrated that water is composed of hydrogen and oxygen.4 Also, when hydrogen is heated on the iron plate, traces of hydrogen are generated. I would like to ask you to hold a public hearing on this logic because of the problems of responsibility of scholars.

In addition, W. Nicholson et al. Reported that electrolysis was first performed by a Volta battery, resulting in 1 volume of oxygen at the positive electrode and 2 volumes of hydrogen at the negative electrode. This phenomenon was more accurately demonstrated by JL Gay-Lussac. Where water was derived from hydrogen and oxygen, and the composition was found to be 2 hydrogen 1 oxygen.

It is logically contradicting the logic of false evidence that these arguments have no idea of the circulation process when water is made, and have a physical contradiction of hydrogen 2 vs. oxygen 1 with the phenomenon that water is formed physically. I would like to ask you to attend the discussion.

* 1) 2) 3) 4) 5) Search and quote from Naver search box *

According to this logic, there should be no contradictory logic that contaminated river water should not exist because oxygen naturally contaminates river water, and dissolved oxygen content in water should be 33% or higher and 67% hydrogen. Not like that.

Some environmental scientists and environmental groups who mislearned this hereditary learning process dominate the definition of environmental value while dominating the definition of the rot when water is blocked. I'm wasting.

For example, even if the stomach is sick, it is the same as human beings to survive after repairing the stomach, and the water flowing into the river is scared by environmental groups, and it is difficult to touch it. The future of the country is just pathetic.

In other words, because the executives of environmental groups who have misunderstood environmental knowledge have a monopoly on the definition of water, even if they have sufficient quantity of water to properly maintain the river and self-sufficient in the country, the necessary electricity cannot be introduced. It's frustrating

In order to solve this problem, scholars, environmental organizations and public officials Ultrafine particles  We must diligently discuss and actively study the factual logic that the mass and specific gravity of water molecules in a state are different for each individual water molecule, and that the action of gravity acts absolutely differently for each individual water molecule. The energy self-sufficiency country proposed by this researcher Cant  It can be.

Comment on the question of how water is produced by natural processes occurring in nature

1. The total amount of water evaporated from the sea and land per day is approximately 1 trillion tons  It is said to be about!

Why does fermentation of biaxial or phosphorus produce methane gas for home use?

3. Why do people or animals eat and eat?

4. Why is rainwater, hail, or snow made?

5. Why is a large amount of gas produced at a landfill?

6. Why doesn't water on Earth escape to the outside world?

7. Why are the first, second, and third laws of energy conservation and fundamental and real problems? Wrong  ?

8. Why do people and animals eat food and make serving or manure and smell it in their mouths?

9. Why is the moisture released to the outside when the iron is heated?

10. How will the smoke generated from burning car fuel, tobacco smoke and wood or oil change?

11.Why do air bubbles continuously in river water? Will it occur?  ?

12.Why do the fragrances from juniper and cypress and nostalgic plants Will it occur  ?

13. You smoke a lot At a meat house  Why do clothes smell after eating meat?

14.plant or People  Why do animals die over time?

15.Why are the stones dug in the raindrops and how do the crushed stones change?

16. What is the effect of air bubbles in water on a continuous basis?

17.Why do air bubbles occur when shaking a water bottle?

18.Why the beer shakes why What happens ?

19.Equator Kilimanjaro Mountain  Why is the eyes of the summit Shouldn't it melt? ?

20.It's hot in the summer under the sun, but why not hot in the shade?

This is because no material explosives occur on the surface

21.Clean polluted river water by removing only phosphorus and nitrogen Could  There is Mistaken How ?

22.Why is the contaminated river water Made How ?

23. Purify polluted river water only through sewage treatment plant Sewage  Mistaken How ?

24. Tap water Do integer  When the precipitant is added to the organic matter mixed in the river water To be removed  Mistaken How ?

25.water Do integer  Why should I use a filter to clean Do integer  Mistaken How ?

26.Why do you crumple clothes if you iron your clothes with an iron? Will it spread? ?

27.All materials will melt or Is decomposed  Do you not know that dissolved or degraded substances turn into water molecules?

28.All materials are burned or Melting  Knowing the facts, do you not know that when you go through the final end of the process, you turn into water molecules?

29. Is the content of moisture molecules formed in the gaseous state in the air in the atmosphere 50% to 90%?

30. Why is all water mixed with all living things and objects?

31. What is the reason for airplanes having low back pain in the sky?

32. In the morning by rivers or rivers What  Is it because?

This is because material explosions occur between ultraviolet rays and alpha rays emitted from the sun and substances formed on the surface of water.

33. Tropical night phenomena are due to continuous material explosion. Similar to the white night phenomenon in the Arctic.

The researcher would logically argue that water is produced by these evidence facts.

That is, water is intended to be defined as " deformation of water crystals" by various actions and bonds after all material molecules on the earth are decomposed into ultra-fine particles by various actions and primarily transformed into gases .

Clear evidence of this logic is that a cloud in the sky is a clear proof of this logic.

That is, clouds, which are the basic crystals of "water molecules," are combined by the magnetic field exerted by the earth and transformed into liquid or gas, or clouds, and then combined with more powerful magnetic fields, becoming crystals of water, becoming eyes, and transforming into hail.

All matter present on Earth is To ultrafine particles  Decomposed and deformed gases Generated  Due to natural phenomena, that is, the earth's magnetic field, or magnetic force, combines with other substances in the atmosphere again to become "water molecular crystals" or "water-binding" rainwater, hail or snow. Would Want to define  do.

Evidence of evidence that all matter decomposes and transforms into a gas that is the basis of water molecules, and the gases combine to form crystals of water molecules

1: "A tree growing in the mountains dies and then breaks down into water and its leaves break down into water."

Evidence: Dead trees and fallen leaves mix in rainwater when it rains, enter the rivers, enter the oceans, and break down completely into water molecules through various naturally occurring actions.

Evidence of Logic: If this logic is wrong, trees and leaves should remain forever

2: "All people, creatures, and animals on earth die and become water, and their waste also becomes water."

Evidence of Logic: If this logic is wrong, people, primates, beasts, reptiles, and all other creatures that have lived on the planet for billions of years ago should not have died but remain alive, and the manure and excretion they excreted There is a contradictory logic that must exist.

3: "all inorganic minerals and organic fluids present on Earth are decomposed into water"

Evidence of Logic: If this logic is wrong, muddy water should not occur in rivers when it rains, and the waste paddles discarded in the Nakdong River in 1991 should remain in the Nakdong River without being changed into water molecules and remain toxic. When entering the water, the water should not turn black, and the iron should not rust to produce rust. There is a contradictory logic that hundreds of thousands of tons of oil spilled into the sea in the West Sea in 2007 should remain there forever.

In addition, contradictory logic is established that stones should not be dug in raindrops and limestone should not be decomposed by water and transformed into lumps.

4: "All the fish, creatures, microbes, and plants that grow in the sea die and become water, and their waste and manure also become water."

Evidence of Logic: If this logic is wrong, the contradictory logic that all fish, seaweeds, and microorganisms and creatures that lived from the beginning must remain alive, and the excreta and manure they excreted The contradictory logic that it must exist as it is.

5. "All substances become liquor, beverages, and vinegar through processes of decomposition, explosion, and fermentation."

Proof of logic: Rice is fermented into makgeolli and soju, and after harvesting the grapes, the grapes are fermented and transformed into liquor such as cognac, wine and whiskey.

Botanical substances such as grapes, cacti, rice, barley, and corn, which are the basic substances of alcohol, are initially solid, and the material is changed into fluid by the natural action that occurs. In other words, it is a realistic and logical proof of the cross section of the process of changing solids into gaseous and fluid and then into alcoholic molecules.

Evidence of Logic: If this logic is wrong, contradictory logic is established that alcohol by-products made through this process do not decompose and become water but remain forever.

6. After the final decomposition process, all substances are transformed into gaseous state and reduced to invisible substance molecules. That is, they are transformed into invisible ultra-fine particles by various naturally occurring actions and combined with air in the atmosphere. After being maintained for a certain period of time, it is transformed into water crystals by the action of gravity and magnetic field, which occurs naturally, becomes rainwater, becomes snow, hail, falls to the ground, becomes river water, and becomes seawater.

Evidence for this logic: Oil, wood, or tobacco burns and produces smoke that combines with atmospheric air.

Clear evidence: If cigarettes, oil, garbage or paper burn, they will smell for a while, but after a while they will not.

Because smell is a substance, the sense of reality is recognized by the human sense of smell.

A solid proof of this logic:

1) If the logical proof of this theory is wrong, the contradictory logic holds that a person trapped in an enclosed place should not be killed by smoke when the fire is low.

It should be noted that smoke is also toxic.

2) There is also a contradictory logic that odor should not occur in the garbage dump in automobile smoke or manure treatment plant.

3) In sum, these logical evidences show that all matter decomposes and decomposes into a natural process, in which a solid turns into a gas and a fluid turns into a gas, which then becomes a water molecule by the action of gravity and the influence of a magnetic field. I will let you.

4) One trillion tons of fluid per day evaporates by gravity from the sea and land, or the earth, and becomes clouds, and the collected clouds are transformed into water crystals and become rainwater, snow, and hail, and become river water and seawater. It is a clear proof that.

5) The components that make up seawater are mass-bound substances that are decomposed into ultra-fine particles by various actions and transformed into gas and then into crystals of water introduced into the sea by various actions. It is a composite product made by passing through the river by mixing it with rainwater while keeping it as it is.

After these materials are transformed into gas molecules, the basic substances of water molecules, through various processes, they rise to the atmosphere by the action of gravity and become clouds, and clouds are aggregated and transformed into water crystals by the influence of magnetic fields. To become snow or hail.

6) In many countries of the world, garbage, manure and sewage sludge are just thrown into the sea, and these wastes are finally decomposed and transformed into seawater.

7) Thus, all the materials present on the earth prove that they are finally decomposed by various actions and eventually transformed into water molecules.

8) If all matter is decomposed and not transformed into water molecules, contradictory logic must be established that the manure excreted by all people and animals living on the earth should be preserved as it is.

In other words, the contradictory logic that wastes and manures discarded in the sea must always exist intact.

9) A comprehensive analysis of these natural phenomena clearly demonstrates that all matter eventually decomposes, and that the decomposed material eventually transforms into water crystallites, becoming river water and seawater. contrary to the logic of those who claimed to have distorted the evidence logic is wrong is thought that the quality issues will obviously have to prove that to leave society organizations and academia forever.

The reason is that Self-sufficient  Evidence that the underlying logic that can Proven  Despite All the way  It is natural that the damages should be clarified at the level of the punishment.

Thus, "water" is completely decomposed in the form of ultra-small microparticles that are invisible and invisible to the water through various processes and various pathways through which natural life and all matters exist on the earth. It is transformed into 'crystals of water' by various actions that occur after changing to 'gas', which is the basic substance of 'water' through the process.

In other words, "gas molecules" produced through this decomposition process are defined as: "water crystals" by recombining in water or in the atmosphere.

In other words, all the objects and living things Ultrafine particulate  Transformed into gas molecules, As ultra-fine particles  These modified "materials" are brought into the atmosphere due to "gravitational action" and "earth-generated magnetic fields." Ascension and  At the same time Magnetic  By combining the dark matter, or other invisible materials, the mass-binding and mass-aggregating effects make the specific gravity heavy and at the same time turn into rain or snow or hailstones and fall to the surface and change to "water molecular crystals".

If this logic is wrong, all objects and living things must remain unchanged forever, always in their shape, and all organisms with life must stay forever, not die, remain unchanged forever, must not disintegrate, lakes or rivers. Or contradictory logic that seawater should not be contaminated or evaporated, nor snow, rain or hail.

Anyone who formally refutes this logic that " all natural matter decomposes into water" should present a formal objection to the researcher.

In other words, all materials, living things and plants on earth are decomposed by various actions and phenomena to become water.

Water is a special component of each substance made up of the decomposition of all molecules of matter. DNA Having ingredients  It is natural that gravity is governed by the gas because it is a fluid made by combining gas.

It is natural that all the gases and fluids produced through these properties have mass.

That is why all gases and fluids are naturally subject to gravity, and the bottom-discharge multi-functional hydrology, which is configured to work in reverse, naturally separates contaminants from contaminated river water and cleans it with water for consumption. I can do it.

The reason is that clean river water with heavy gravity flows to the bottom layer of the river, and contaminated river water with light gravity flows through the upper layer, so that all the water installed in the river after installing the bottom drainage movable gate in the whole length of the river Simply by continuously discharging clean river water with a heavy weight through the lower part of the door, the contaminated river water is made into clean river water that can be floated.

At this time, the lightly polluted river water that has shrouded in the upper part of the lower part of the drainage operation gate will be purified into clean river water with heavy gravity by various actions and phenomena.

This logic suggests that clean river water with heavy gravity is in the bottom layer of the river and polluted river water with light gravity is in the upper layer of the river. If wrong  Is the same as claiming that all water and pollutant molecules are not subject to gravity

According to that claim, water contains contaminants Galway  And there is a contradictory logic that there should be no contaminated streams.

Because of this prejudice, the basic ideas of all those who have studied water have the very wrong prejudice that in order to save the contaminated water, the contaminated water can only be saved through a mechanism such as a sewage treatment plant.

Most scholars understand that all matter and objects are governed by gravity, but claim that water is rotting because it does not have a clear understanding of the vague logic that water molecules will or will not be subject to gravity. will be.

After recognizing the basic knowledge of the factual logic that water molecules are also fluid materials with specific gravity and mass, they are absolutely subject to gravity. Once the water has been stored in multiple stages, If only the inflow water is continuously discharged from the upper part of the river through the lower part of the hydrologic gate, it can be considered to understand logically how the polluted river water naturally survives.

For example, once again we understand that the water floating in the upper part of the water is clean, and the water molecules are also subject to gravity, so once again we understand that the pollutant molecules that are light in gravity are floating in the upper part of the water. It is believed that the upper part of the water is the most contaminated.

Figure pat00001
Figure pat00002

 Photos of water molecules know the answer Of  ( Emoto Masaru  )Quotation

This spray oil in water gravity is so light oil floating on water.

This phenomenon is due to the action of gravity, and it is understood that the pollutant molecules with light specific gravity are distributed in the upper part of water due to the phenomenon of gravity acting according to mass and specific gravity.

Clean water molecules are water molecules stored in the bottom layer, not the bottom of the stream.

The cause is due to the action of gravity, which depends on the mass of the water molecules, that is, the lighter specific gravity of the water molecules, naturally in the upper layer of the reservoir. After understanding logically the action of gravity, we understand the gist of this paper. It is believed to be.

If we know the effect of gravity and the effect of specific gravity depending on the mass of water molecules, we can naturally learn the basics of the principle that we can make clean water that can be eaten even if polluted water.

It simply claims that the components of the water molecule consist of hundreds or thousands of substances, but these theories are absolutely wrong.

The reason is that all living things and all things on the earth are transformed into gaseous material molecules of ultra-fine particles through the process of friction, decomposition and explosion, and they are combined into the crystals of water through natural convection circulation and flow into the water again. Because it binds to water molecules, I think it's a contradiction to say how many water molecules are in water.

Up to now, it has been known that about 1㎥ of water, or 1 ton of water, contains about 50 molecules of molecules. I would argue that more algebra is added.

The reason for this is that all living things and all matter, with or without living things, are transformed into water crystals by various actions, transforming matter molecules into gaseous matter, tiny microparticles that are invisible through friction, explosion, decomposition and circulation. It is not possible to count the total number of substance molecules in water because it is then turned into seawater or river water after it falls into the sea or land due to rain or snow or hail.

.

The reality that scholars, environmental groups and public officials in charge of water-related work do not know that "the basic substance of the unit of weight set by the World Standards Association" is governed by water is infinite. The reality is that Korea is blocking the opportunity of self-sufficiency in self-sufficiency of all energy imported from foreign countries through the process of creating energy.

For example, if water is placed in a bowl, the composition and specific gravity of the upper and lower waters of the bowl must be absolutely different due to the action of gravity. I think it is the product of a false climate that tries to block, ignore and disapprove the logic that scientists claim.

If the people who are armed with such wrong logic do not overcome the reality of controlling the environmental policy, it is inevitable to introduce the environmental policy that naturally cleans the polluted river water.

If we calculate the phenomenon of gravity that the location of herpes depends on the weight and mass of water molecules by the action of gravity, we can understand the technical value of this paper.

After understanding the logical fact that about 4,000 substances in cigarette smoke must be transformed into water components by the mass-binding action of recombination with substances in the air, it is considered that the circulation of water will be recognized.

In other words, knowing what happens naturally after the smoke in a factory chimney rises to a certain point, or knowing that the action is due to a material binding action, denying the existence of that action would monopolize the wrong definition of the environment. I think it's an extreme of arrogance.

Some environmental groups and some scholars who do not know why a standard unit of 1 m3 of water for a tonne of mass of a substance set by the World Standards Association may know that this changes the basic common sense of the presence of water molecules. It is believed to be.

After recognizing the basic common sense about the water presented above, even if it is polluted river water, it will be recognized that it is very easy to save polluted river water by using water.

In addition, the billions, thousands, or infinite amounts of toxic substances on Earth or in the universe enter into the water and are decomposed into clean water molecules by natural actions that occur naturally. It is not.

Toxic or non-toxic individual substances, such as the radiation generated by atomic bombs, are introduced into rivers and oceans through decomposition, bonding, coalescence, evaporation, and convection cycles, and seawater has many effects. After the evaporation and transformation into gas, the gaseous molecules are transformed into water-molecular crystals through various binding processes, and it is possible to recognize the fact that rainwater becomes river water after snow or hail.

When a tanker carrying crude oil in the sea is stranded and pours oil into the sea, the crude oil turns into water molecules by various actions that occur naturally after a certain time, and becomes water.

If this logic is wrong, the logic is that the crude oil should remain in the sea forever without being changed or broken down.

.

In addition, contaminants cannot be absolutely contained in seawater, and all contaminants introduced into the sea must exist forever in the seawater as it was first formed, but the reality is never.

I think that the basic DNA of the billions of billions of substances in crude oil is absolutely unchanged.

In addition, because all substances entering a stream or sea have their own source DNA, which is different for each individual molecule of a substance, the substance molecules are stored in seawater, stored in dams or reservoirs, or flowing in streams. Due to the action of gravity generated by the revolution and rotation of the earth, the earth is automatically separated into layers according to mass and specific gravity, and at the same time, it changes into water molecules through various actions and phenomena that occur naturally.

The divergence of seawater can be confirmed by airplane in the offshore sea.

In other words, if we understand these phenomena, we can understand the basic theory that even the polluted river water can be purified by the natural action that occurs naturally.

If the astronaut Lee So-yeon poured water into the spaceship and saw the water just floating inside the spaceship, he would have noticed how gravity might be.

The floating water inside the spaceship is due to the absence of gravity, and due to the condensation of water in space, gravity is not generated in the universe.

Because of the action of gravity on Earth, it is believed that all matter molecules entering the stream will naturally flow in different layers depending on their mass and specific gravity.

Under the understanding of the basic common sense of water, the readers of this study read that even natural substances, even the most toxic substances, are naturally decomposed and eventually become water molecules, no matter how polluted river water The multi-functional hydrostatic discharge at the bottom, which shows the effect of naturally saving the river water, is installed in a multi-stage step-wise fashion, like hydro-power plants, by simply storing the river water and contaminating the pollutant molecules with the action of gravity and gravity. It is believed that due to the various actions generated by it, the factual logic that can only be changed to clean water will be recognized.

Those who read this paper without acknowledging or not understanding the basic functions and natural logics of naturally occurring water molecules, even if the molecules with the strongest toxicity by natural actions and effects, The natural decomposition and toxic disappearance is due to the material friction and explosive action. That is, the explosive logical thought of the explosive does not explode twice. Let me tell you in advance that you can never understand the factual logic and evidence.

Therefore, please be aware of the fact that using the action of gravity, even the most highly toxic substances and polluted river water can be brought to life with clean river water.

In addition, since the seawater containing a large amount of pollutants is evaporated to become water, and even polluted river water is purified to clean water by natural action that occurs naturally, there is more clean water on earth. After recognizing the facts, it is likely to understand the semantics conveyed by this paper.

Everyone involved in water throws away all the common sense that has been recognized so far, and because water molecules are governed by gravity, the action of gravity can produce even the most polluted river water and the worst polluted river water. I urge you to renew your understanding of the basic functions of the fact that there are numbers.

Water can only understand the truth of this paper by stinging the truth of the truth that it can never express a false state because the weighting phenomena immediately appear when pollution is aggravated.

If we understand the truth of the fact that when we boil water in the coffee pot, the sound of bubbles is the time of explosive mass explosion when the infrared rays and water molecules meet, we can fully understand the value of the truth pursued by this paper.

Among the members of the central environmental organization, one who knows better than anyone that the researcher has been studying water works.

As a last resort when he decisively opposes the installation of the bottom drain multi-functional hydrologic gate in Cheongju Mucheoncheon, the researcher stipulates that if the contaminated river water does not survive after the installation, the bottom drain multifunctional hydrologic gate will be removed and the construction cost returned. The construction was carried out after the notarization was submitted to Cheongju City Hall.

At this time, knowing that the contaminated river water survives by installing this type of floodgate, it is an ironic reality that shows one aspect of history.

3) All substances with or without toxicity

Definition of logic to change into water molecules through decomposition process

Gunpowder cannot explode twice because it will lose its function once exploded.

When poisons such as cyanide, dioxins or phenols, which are highly toxic, enter the water, they undergo a series of mass catalysis and detonation reactions between the water molecules and the substance molecules with the poisons, until the molecular structure of the poison is alive. Because it completely destroys and neutralizes through the material explosion, the molecular structure of the poisonous material is changed into water molecules and becomes clean water.

If this theory is wrong, the logic that all the poisons that have existed so far must exist forever, without destroying the structure of its molecular structure.

In addition, the logic that once exploded bombs can be exploded is established, and all the poisons are introduced into the river through various paths and mixed with water, so that all those who eat the water must be poisoned and die. .

No matter how strong and toxic the substance is, from the moment it enters the water, the material friction action, the catalytic activity and the material explosion action occur between the material and other material molecules contained in the water molecule. It is believed that the contaminated river water can be saved only by understanding the truth of the fact that there is clean water because the natural action of neutralizing all the strong toxins disappears forever.

Even though poisonous substances have been introduced into water, such as the principle that radioactivity disappeared completely over time in Hiroshima, which was caused by atomic bombs, it occurs between toxic substances and various molecules of substances in water over a certain period of time. Due to various natural actions, even the most poisonous poisons are completely extinguished by natural actions such as the explosives and the friction of substances that occur naturally when they meet water or air molecules in the air. It is the providence of nature.

In this way, all substances are decomposed into microparticles and transformed into water molecules through various natural processes such as material explosion that we did not know.

If this theory is wrong, all toxic substances must not decompose forever, and all living things on Earth must live without dying.

Also, all poisonous substances must have been preserved forever, without degrading their molecular structure.

In other words, all living things and plants do not die and continue to live to this day.

Should be

It is the providence of nature that all matters and lives on earth die through the end of the existence of life through various naturally occurring actions.

Since the end of life has lost its very existence, billions of years later there is no saturation of life and matter.

Since all living things and matter that existed in the past have been killed or decomposed, the existence does not exist until now.

If this logic is wrong, dinosaurs must be alive today.

The process of decomposing the steel materials introduced into the water causes the rusted green waters to become cloudy with clean water, which is caused by the material binding action that combines the decomposed green matters and water molecules by the material explosion and material friction action. It is due to the action of gravity and finally the green matter is completely broken down into water molecules.

Through these various naturally occurring actions, all living things and matters are decomposed and their existence disappears.

Decomposing matter into ultra-fine particles proves in fact that it is not because of Brownian motion, but because of the action of mass friction, explosive action and gravity, which are caused by the magnetic fields of material molecules.

Numerical data suggests the truth of the fact that all the poisonous substances entering the water are decomposed into ultra-fine particles through the process of explosives and become water molecules. There is.

The reason for this is that the explosives that naturally explode when a substance meets other substances occur in the water, and when the poison enters the water, the explosive action naturally occurs continuously.

Fish are living in all current streams because the toxins are transformed into water molecules through natural processes in which explosives occur continuously, which proves practically that the properties of the poison itself disappear after a certain period of time. .

Asphalt content in roads is a very harmful substance, such as poison, because of its petroleum content.

Drinking water that contains a lot of asphalt will kill people and animals.

As the vehicles pass through the road, they wear out the asphalt components. The worn asphalt components are mixed with rainwater and flow into the rivers, and then flow into the sea. As a result, the asphalt components themselves are completely decomposed and converted into water molecules. It is not.

In other words, oil components are not detected in sea water because the asphalt components mixed with oil are completely decomposed into water molecules.

As such, all harmful or poisonous substances and living organisms gradually change into water molecules due to various natural actions that occur from the moment they enter the water, so clean water exists.

3) 1. Definition of the principle that foods eaten by humans or animals are transformed into water molecules

It is a natural phenomenon that humans or animals eat foods that are in liquid or solid state, and then, after digestion, make foods liquid and absorb the foods that are left after urine or feces.

After eating, almost all of it is broken down by the action of liquids, such as stomach acid and hormones, in which solid or liquid foods are secreted in the body, causing some components to become urine and undigested debris to become feces.

When the amount of food eaten is based on 100%, the rate of discharge to urine and feces is less than 10% to 30%, and the rest is converted into liquid state and used as energy for our body.

The argument that foods turn into water molecules is due to the following actions.

The reason why sweat occurs in the human body is that sweat occurs due to the osmotic action of releasing moisture which is not necessary to balance the body when the five muscles are excessively operated through excessive exercise of the body.

In addition, after eating foods, the food ingredients are decomposed and absorbed, and the sweating is caused by the osmotic action of discharging unnecessary ingredients to the outside of the body through the pores.

The components of sweat released through the pores are water molecules in ultrafine particles containing various inorganic substances made during the decomposition of food ingredients.

The foods eaten by humans and animals are transformed into sweat, urine and feces through the process of digestion, digestion, and excretion. I think it's a solid proof of the logic.

3) 2. Definition of pollutants and why all substances are subject to gravity

Highly toxic pollutants such as phenols and dioxins are also subject to gravity

This logic If wrong  There should be no contaminated river water.

Incompletely decomposed substances, which are in the state until all substances, plants and life on earth, and all matters that enter the earth from space, enter the water and are completely decomposed into tiny microparticles that are invisible. To be defined.

Even though all living things, living things and plants die and are completely decomposed and transformed into water molecules, the genetic factors of the material and living things, the DNA of the basic material, are constantly changing in water, It is to be defined that living organisms and plants continue to exist through the process of continuous rebirth.

If this logic is wrong, there is always a contradictory logic that a new kind of life must be born continuously and a new kind of plant must be born continuously.

For this reason, even if all plants and organisms are killed or degraded, the basic DNA possessed by the plants and organisms is never changed and is permanently preserved in the state of water molecules.

Under any circumstances, since the basic DNA of life never changes, it is judged that the species of living things and plants are inherited dependently.

In other words, even if substances and living things are completely decomposed, I think that the basic DNA of the living things and plants has never changed.

Just as humans and animals can live by eating food, plants also have substances that plants like, and they absorb basic nutrients in water and soil that contain the basic DNA of those substances, and in the water and soil. Because they grow by absorbing nutrients, animals and plants with living molecules are growing while preserving native DNA. By this principle, I think that life-giving materials and genes of life have been inherited while being preserved.

3) 3. Definition of the actions and principles by which polluted river water is naturally purified.

The principle of natural purification, where all pollutants flowing into river water flows downstream of the stream, becomes more and more clean. Pollution contained in river water by the material friction and material explosion action generated by the contact of water and pollutant molecules As molecular molecules and other contaminant molecules meet and explode, they are split into smaller and smaller sizes, and the presence of contaminants disappears through the process of changing the water molecules of the ultra-fine particles, so that the contaminated river water flows downstream. Because it turns into molecules, it is naturally purified by clean water.

In other words, when material molecules with different ingredients and other material molecules with different ingredients meet, material friction and material explosive action occur according to the characteristics and actions of each molecular structure, and the molecular structure of the material is split into smaller and smaller sizes. Through this process, the size of the substance molecules is changed to ultra-fine particles, which are the basic units of water molecules.

Although uranium generates radiation continuously, even after a certain period of time, even if it is toxic, the molecular structure of the substance explodes at the same time as the principle of no radiation. As the molecular structure of a substance with a smaller and smaller size is continuously broken down, the presence of the toxic substance disappears itself, so that no toxic substances are detected in the downstream stream far past the point where the toxic substance was introduced.

That is, the toxic substances are not detected in the downstream stream because the presence of toxic substances introduced into the stream disappears due to the material friction action and the material explosion occurring between the material molecules and the material molecules in the river water.

In other words, the toxic toxic substances were broken down into ultra-fine particles due to the explosive action that occurred when they met with other constituent molecules, and completely disappeared. Therefore, no toxic substances are detected in the downstream stream.

The basis of the principle that all pollutants contained in river water are naturally purified is to prove that no matter how polluted river water eventually becomes clean water because of material friction and material explosion.

3) 4. Definition of the principle that the pesticides sprayed on rice fields or fields are decomposed naturally

Pesticides sprayed on crops are naturally purged at the same time as they enter the water or fall to the ground due to mass friction and mass explosion.

That is, among the hundreds of billions of substance molecules contained in 1m 3 of water, there is a clear substance that causes a material explosion when it meets pesticide components.

As these substances come into contact with the toxic substances with pesticides and at the same time material explosive action and material friction action occur, the molecular structure of the toxic pesticide substance is split into ultra-fine particles and the toxic substance itself disappears completely and is transformed into water molecules. Will be.

If pesticides are not decomposed, neutralized or removed by the explosive action and material friction, which occur naturally when a substance molecule containing pesticides and a molecule of water contained in water meet, the pesticides must remain in the paddy field or the field at all times. The logic of the poisoning of pesticides is that farmers who are farmed must be addicted to death.

In other words, the pesticide ingredient sprayed once remains forever, so contradicting the logic that spraying once does not require spraying the pesticide again.

In addition, no matter how strongly toxic pesticides are applied to crops, material explosions and substances that occur between molecules of another substance contained in the crop and molecules of another substance contained in the air Because they are naturally removed or neutralized by friction, after a certain time, the pesticides on the crops are removed or neutralized.

4) Explanation of the logic of definition that water molecules are subject to gravity

 Newton's theory of gravity states that all matter is subject to gravity.

In other words, there is a difference in gravity depending on the mass and specific gravity of the material, but it is clearly governed by gravity.

If water molecules and contaminants are not subject to gravity, contaminants enter the water. High water  No logic is established.

Because of the action of gravity, pollutants with light or heavy specific gravity enter the water.

For example, since water in a water bottle is also subject to gravity, we must first admit that the weight of the upper and lower waters in the water bottle must be different, but once we understand the effect of gravity, the weight of the upper and lower waters in the water bottle It will be understood that the over-mass is wrong, and it is understood that this action occurs due to the action of gravity to automatically separate the upper and lower waters by specific gravity and mass.

The upper part of the stream is contaminated with lightly contaminated river water, and the heavier specific gravity of the clean water molecules may be due to the separation of substances due to the action of gravity.

According to Newton's first law of gravity

The center of mass of all objects has the property to remain stationary or stationary, or to continue to move in the direction of progress by constant motion, unless force is applied or given to change its state.

? The action of water flowing into a river at a low place

? That is, the phenomenon that stays in place forever unless someone touches it

? In other words, the center of mass of the object has the property of being stationary or continuously moving at a constant speed v along the direction of travel unless an external force is applied .

In terms of calculus, this is

Figure pat00003
It can be expressed as

Together with Newton's Law of Universal Gravity and Calculus, Newton's Law of Motion first describes the motion of a rotating body, the movement in a fluid, the motion of a projectile, the motion of a bevel, the motion of a pendulum, the tides, and the orbit of the moon and celestial bodies. It allows for a broad explanation of physical phenomena. In addition, the law of conservation of momentum that Newton induced as theorem of the second and third laws was the first conservation law.

Newton's laws have been proven through experiments and observations for over 200 years. These laws describe the kinematics that occur on human scales (scales with speeds of 0-108 m / s at lengths of 10-6-104 m), more accurately than observations.

Empirically, Newton's law is accurate enough to ignore the error within speeds of about 1/3 of the speed of light.

Citation Reference: Physics Study Guide ① Quote from the following Yahoo homepage *

6. River water naturally Purifying  Definition of logic for the action of water

6.1 Description of the Natural Purification of Polluted River Water

All living things, creatures, and matters on Earth are eventually transformed into water molecules by the breakdown of tiny particles into tiny particles by naturally occurring actions.

The foundation of the universe is that man dies and breaks down into water molecules and all living things and matters break down into water molecules.

Hundreds of billions have been given so far, and the constituents of the body have finally been introduced into the water through various processes, becoming water molecules.

Contaminant molecules are decomposed into microparticles by decomposing all substances that make up the contaminant molecules.They are transformed into clean water molecules through the cycle of the material. Clean water exists because there is a theory of how molecules turn into contaminated water molecules.

That is to say, if there is a problem, clean water exists on Earth because there is a scientific principle of the process of turning polluted water into clean water, as the answer clearly exists.

Because of this scientific logic, all matter becomes water molecules through the process of decomposing and transforming all matter into ultra-microscopic particles of very small size.

6.2.1. In the sun  Natural cleansing effect

As soon as radioactive materials such as ultraviolet rays, alpha rays, and gamma rays from the sun come into the water molecules, they explode immediately, causing molecular explosions and molecular expansions in which the molecular structure of the water molecules are continuously split or exploded into smaller sizes. As the molecular structure of the river water is transformed into ultra-fine particles, the river water evaporates and changes into water vapor, and at the same time, the water quality of the contaminated river water is improved.

Example: When the skin is exposed to sunlight, the skin burns black and swells as the structure of the skin cells is destroyed by the material explosion that occurs at the same time as various substances emitted from sunlight react with the skin cells. The surface of the swelling will turn black.

Skin does not turn black due to photosynthesis, but skin cells explode due to mass binding and explosive action, causing skin cells to swell and become damaged and turn black.

Evidence 1: skin cells burn and swell after prolonged exposure to sunlight

Evidence 2: When water is boiled using solar light, the explosive action of far-infrared irritates and explodes water molecules, causing the specific gravity and mass of water molecules to become even more light vapors of ultra-fine particles, and the action of gravity and convection. Phenomenon in which water vapor rises to the atmosphere by the action

Evidence3: Ultrafine particles generated as a haze occurs due to a mass explosion caused by the surface water of a river or lake, the material in the air, and the material generated by the sun in the winter morning.

6.2.3 Aquifer 大水 層 ) Purification by friction

The action is to purify the contaminated river water naturally by the material friction action and the material explosion action caused by the friction of the material in the surface layer of water contacting the air and the material molecules contained in the air layer in the atmosphere.

Evidence: In the spring, fall or winter, a substance that turns into ultra-fine particles with very small water molecules due to the explosive action of the surface water in the upper part of the stream and the material in the air in the atmosphere meets fog and mist, It's a haze.

A phenomenon in which mist is generated by the action of water molecules that have been transformed into ultra-fine particles produced by a continuous mass explosion that occurs when materials in the aquifer meet water and air.

6.2.4 Purification by capillary action

Substances that inflate and expand contaminant molecules that combine with water molecules by capillary phenomenon in which water molecules naturally penetrate into the microparticle gaps of contaminant molecules that are polymeric due to the difference in density between condensate molecules and water molecules. Explosion occurs naturally and decomposes the structure of pollutant molecules into ultra-fine particles

Example: water penetrates into the paper, causing the paper to break down easily

Evidence: If water is always trapped inside the underwater beams, the capillary phenomenon increases the moisture content of the surrounding mountains and underground base layers, making the trees grow well and not easily catch fire.

6.2.5 Water Purification by Microorganisms

By ingesting and decomposing contaminant molecules combined with water molecules, the microorganisms decompose and purify by selecting a large number of contaminant molecules, leaving only water molecules.

6.2.6 Purification by dissolved oxygen

When oxygen molecules contained in water meet contaminant molecules, an explosive action occurs and the contaminant's molecular structure is split into smaller and smaller sizes, thereby transforming the contaminated river water naturally. It is a function of purifying contaminated river water naturally by the action of helping to support the life extension necessary when the microorganisms that live while breathing the oxygen contained in the water take in pollutants combined with water molecules.

6.2.7 Purification by Osmotic Pressure

The density of pollutant molecules is based on the density of water molecules as the material explodes inside the pollutant molecules due to the penetration of water molecules into the pollutant molecules bound to the water molecules by the action of atmospheric pressure and gravity. Naturally purified polluted river water by transforming into ultra-fine particles as a unit

Example: When a person enters the water of a bathroom, skin and dirt swell

Example: When paper is put in water, the paper gets wet

Evidence: If you lose a lot of artificial sweat at the same time, minerals, which are the basic substances of life, are also very dangerous, so don't sweat out artificially and you can do long-term exercise.

After a little sweating during exercise, you should stop exercising to prevent the body's organs from growing old.

6.2.8 Purification by material friction

The pointed parts of the water molecules and the pointed parts of the pollutant molecules are caused by the friction of each material, which is separated from each other by the movement of Brown and the action of gravity caused by the Earth's rotation and rotation. To decompose contaminant molecules combined with water molecules into ultra-fine particles

Example: Chewing food with teeth to digest

Example: Brushing Teeth Cleans Teeth

Example: Brownian motion is a kind of material friction.

Evidence: If you rub your hands while submerging water, disinfect them by the action of the friction between the skin and water molecules, which kills the bacteria in your hand by stabbing, tearing, or crushing them. Action

6.2.9 Purification by material action, in which polluted substances with light gravity are pushed to clean water molecules with heavy gravity

All material molecules subject to the action of gravity and the forces of buoyancy and mass are automatically separated into layers due to the difference in mass and specific gravity from the moment they enter the water.

It is like the reason why oil with light specific gravity floats in water.

However, it is difficult to understand the logic of material jungle action proposed in this paper because ultra-fine particles with low specific gravity cannot be directly identified because they are invisible.

However, if you directly visit the site where the water drainage multifunctional movable gate is installed

The phenomenon of material jungle action can be observed directly.

After confining water, the inlet is discharged by opening the lower part of the sluice and polluted material molecules with low specific gravity are pushed up by the heavy gravity clean water molecules due to the action of gravity, which naturally occurs in the upper part of the water. The contaminated river water is naturally purged by various actions, while the clean water with heavy gravity is discharged first through the lower part of the hydrologic gate.

Evidence: When heavy stones are placed in a cup of water, the water is pushed up by the volume of the stone, and when water and oil are put together in a plastic bottle, the oil is released by the action of gravity and buoyancy. It can be observed to float naturally to the upper part of this water.

6.2.10 Acceleration of substances that increase pollution of river water

The material acceleration action means that when water is confined using a rubber dam or conducting water of the upper discharge method, the specific gravity is increased by the material binding action generated by contaminated material molecules that are light in specific gravity. Aside from heavy storage water, it is first discharged downstream through the upper end of a rubber dam or conducting water gate.

False claim:

It is argued that the formation of some inlet water outlets at the bottom of conductive hydrographs or rubber dams induces the inflow of water and that the stored water does not rot, but this claim is equivalent to claiming that the palm can cover the sky.

Rebuttal of the theory:

The conventional theory is that the water flowing in the stream is flowing in the shape of the water by the atmospheric pressure applied to the surface layer and the friction of the surface, and the flow of water is confirmed at the site where 200 rivers were constructed. The shape of ∠ in this way, that is, the flow rate of the upper portion is judged to flow as the cross-section of the flow rate is formed while maintaining a faster state by the action of the material acceleration.

In other words, the organic material contaminants in the upper part layer were frequently flowed preferentially by the acceleration of the material caused by the buoyancy due to the low surface pressure caused by gravity because of the light weight and specific gravity. .

In other words, it was found that the surface water with light specific gravity in the surface layer was flowing preferentially while maintaining a high speed aside from the stagnant water, which had a high specific gravity due to the material binding action.

Such material acceleration action is considered to be partly due to the effect of material jungle action, which is inevitably slowed down due to the backwater phenomenon generated by the water storage facilities composed of sections in rivers.

Method of Proof: The truth of this theory can be confirmed by visually confirming the flow of oil in rivers and flowing down.

Basis of theory:

Since organic matter, the basic substance of pollutants, does not bind easily with water molecules, when the pollutants first enter the river, they flow while maintaining the surface layer of the stream, so that the surface layer flow velocity of the stream water is maintained. .

This theory is applied only to rivers with high pollution loads. The flow rate of clean river water with very low pollution loads is the same as before.

Example: brakes on the ice causing the car to slide under acceleration

6.2.11 contaminated river water Purifying  Substance cut action

When water is trapped using the multifunctional movable gate to drain the water, the influent is discharged through the bottom of the water storage system. To purify the contaminated river water by the first discharge through the bottom of the reservoir

evidence:

If water and oil are put together in a plastic bottle and a hole is made in the bottom of the bottle, the oil aside and water drains out first.

6.2.12 Contaminated River Water Purifying Substance release

Pollutant molecules that combine with water molecules are removed from water molecules by external impacts, which cleans contaminated river water.

Example: white foam occurs in a shoal and white foam occurs when a wave hits

Example: When detergent and cloth are put together in a washing machine, the contaminants that penetrate the cloth are taken out of the cloth and the cloth is cleaned.

6.2.13 Mass-binding action to increase pollution

The action of the magnetic and viscous forces of the water molecules and the viscous forces of the pollutant molecules combine the pollutant and water molecules in the water to exacerbate the contaminated river water, or to evaporate water or seawater from rivers or lakes into the atmosphere. When rising, the specific gravity becomes heavier and combines with other substances, and it falls and enters the ground or water.

Example: An egg and a sperm meet to fertilize and become pregnant and deposits on the riverbed

Evidence: the effect of soiling clothes with dirt

Proof: Dripping on Ceiling of Bathroom

6.2.14 Aggregation of substances that add to contamination

Material molecules and material molecules with similar mass and specific gravity are grouped together in water or atmosphere by magnetic and viscous forces

Example: Sedimentation sludge generated by condensation in water and clouds condensing in the atmosphere

6.2.15 Nature of water contaminated by the actions and laws of substance conservation instincts Being purified  Action

All substances never change the underlying DNA of the substance molecules they contain.

All material molecules are believed to have been able to carry down billions of years of crystal structure of the pure material molecules of their species.

The crystal structure of the material does not change Lasting  Even though pure water molecules combine with contaminated material molecules by the action and law of the material preservation instinct, the crystal structure of pure water molecules never changes, so no matter how polluted river water is eventually reduced to clean water molecules, It is believed that water molecules persist.

Example of Evidence: Seeds of Animals and Plants Continued During the Billions of Years While Always Maintaining the DNA of Substances in the Species

evidence:

The genes of humans, the seeds of plants, and the genes of plants, which are divided into white, black, and yellow races, never change, but when combined properly, they can produce cloned animals and genetically modified plants.

6.2.16 Natural purification by material explosion

All material molecules contained in water are naturally exploded when another kind of material comes into contact with the molecular structure of the material, causing the molecular structure of the material to be split into smaller and smaller sizes, deformed or expanded to explode. Decomposition of matter into water molecules

Evidence: When soap is rubbed with water, foaming occurs when the molecular structure explodes between glycerin and water molecules.

Evidence: The explosion of cesium into water and the explosives of gunpowder.

Evidence: When uranium comes into contact with a control rod, heat is generated by a material explosion.

Example: When the seawater waves, when the seawater hits a wall or stone, bubbles are generated because white water is generated because the water molecules that make up the seawater and the material molecules contained in the seawater collide with each other. .

Due to the difference in the speed of repulsive force that bounces reflexively after colliding with or colliding with water molecules and material molecules constituting the seawater, collisions between water molecules and material molecules occur and at the same time relativity Because of the mass friction and mass explosion between the water molecules and the molecular molecules, white bubbles are generated.

The reactivity reactions that occur when water molecules and material molecules collide or bounce off stones or walls are absolutely different because the reactivity reaction speeds vary depending on the specific gravity and mass of water and material molecules. That is because of the action of gravity.

In other words, due to the difference in the rate of reflex reaction when water molecules and material molecules that make up seawater components collide with stones or walls, the bubbles explode because they collide with each other. It happens.

Evidence: Dropping paper and metal on the roof due to the action of gravitational acceleration causes different drops.

In sea water, the same difference causes a material explosion and bubbles.

Evidence: White foaming in the river's shoals also reflects the reaction rate of water molecules when they hit a stone-like material, depending on their specific gravity and mass, such as seawater, and the molecular size of water due to the material explosion that occurs when water molecules collide with each other. Changes to tiny microparticles, making the water look white.

Evidence: When the waterfall falls, the foaming and white color of the water is caused by material friction and mass explosions as the water molecules collide with each other because the falling velocity varies depending on the specific gravity and mass of the water molecules. Because.

At this time, the color of water is white because the size of water molecules is changed to ultra-fine microparticles due to the material friction and material explosion.

The reason why the drop rate is absolutely different among the water molecules forming the waterfall is due to the action of gravity acting on the intrinsic mass and specific gravity of the water molecules and the material molecules.

Argument: It should be noted that the color of water in a wave or waterfall or shoal is not white due to the refraction of light.

The reason is that it is white in the evening or at night when the sun is gone.

Evidence: When washing clothes contaminated with contaminants, if detergent is added and the washing machine is rotated, the molecular structure of the contaminants that penetrate into the cloth is caused by the contact of water and detergent and the explosion of material. A phenomenon in which a cloth is cleaned by material release and material explosive action in which pollutants combined with the cloth are released from the cloth as it is transformed into a cloth.

The phenomenon that the cloth is damaged after washing the cloth several times is also nutrition of the material explosion and material friction action.

Evidence: Toothpaste in the mouth and brushed, the foam generated by the explosive action of the toothpaste and the water molecules meet, the bacteria formed by the punctures or tears on the edges of the bubble at the same time was sterilized Food debris leaks out of the teeth by the explosive force of toothpaste

Evidence: Rubbing your hands in water while the water is in contact with the skin explodes as a result of a material explosive action that disinfects the germs that inhabit your hands by being stabbed, torn or spun in the water's molecules. Action

Argument: It is absolutely wrong to claim that washing your hands with water does not puncture or die to the point of the water molecule, but rather that it is disinfected because the bacteria are washed away by the water.

Evidence: Boils and sterilizes surgical instruments in hospitals because germs don't fall out of palms because of the strong adhesion between bacteria and crevices in palms.

Argument: If you put the tools that cling to bacteria and microorganisms in the water and shake them, they remain almost the same.

 This deterrent argument is an argument, such as the claim that there must never be a theory of a hydraulic cutter that cuts steel plates by shooting water.

In other words, it is an argument that does not recognize the machine itself as a hydraulic cutting machine that cuts steel plates with water.

In addition, this assertion holds the logic that bacteria never live in a bowl or water cup, but the conclusion is that bacteria are also detected in a bowl or cup soaked in water.

Not acknowledging the existence of material friction and explosive action itself is a deterrent argument, such as a claim that denies the logic that water droplets dig stones.

In other words, to kill germs that live in the hands, water is applied to the hands and then rubbed in the hand, which is caused by torn, stabbed, or crushed by the sharp parts of the water molecules. The logic of explosion and mass friction is proof.

6.2.16.1 Integral experiments with mass explosion, friction and mass binding

If you shake the Piti bottle containing the commercially sold corn tea vigorously, a large amount of bubbles are generated in the Piti bottle.

After a while, if you put the PTI bottle up, the bubble moves to the upper layer and the corn tea sinks downward, and you can see directly that the material separation action occurs.

This substance separation action occurs because the substance is separated from the water molecules and corn molecules by the action of the substance preservation instinct to maintain the nature of the substance.

About three to five minutes after these experiments, you can see firsthand that the bubbles in the Piti bottle are completely alive as the material binds into the corn tea.

 If you shake PTI again, you can see that the same phenomena occur again as the material friction action and material explosion action occur.

This phenomenon proves that material friction action and material explosion action.

Fake liquor produces a lot of bubbles, but shaking the old sake bottle shows less bubbles because bubbles and water explosives are almost finished between the water and alcohol molecules. It is less likely to occur.

6.2.17 Purification by the rejection of substance binding

When contaminants with different specific gravity and water molecules enter the water, the water molecules unconditionally refuse to bind with the pollutants, and the pollutant molecules introduced into the water are pushed up to the upper part of the water. Occurrence of pollutants entering the stream is the specific gravity of the pollutant molecules due to various actions that naturally clean up the pollutants while remaining floating in the upper part of the water due to the rejection of mass binding. From then on, the material binding action of the pollutant molecules and water molecules is gradually changed, and the specific gravity is changed into heavy sedimentary sludge, which is transformed into contaminated water quality.

Example: When oil is poured into water, the oil floats on the water and floats.

6.2.18 Purification by automatic separation of materials

All material molecules in water are decomposed 1 mm / 1,000,000,000 mm  Because it is composed of micro particles of very small size, the intrinsic mass of a material molecule Tiered by specific gravity  It is a function of forming a water reservoir by separating material molecules by forming a separated state.

That is, water molecules combined with a large amount of contaminant molecules and materials combined with the same mass and specific gravity by the mass, specific gravity, magnetic force, and viscous force of water molecules are deposited as the weight of water molecules becomes heavy. Clean material molecules that are transformed into sludge and hermetic in the lower layer, and do not have a lot of material binding action, are separated into the upper layer of the sedimentary sludge. It is stored while maintaining a very separated state

The separation position of the reservoir is separated because it is separated by material or by mass of material, and it is judged that it is possible to separate the material contained in the water storage layer by the thickness unit of 1mm / 1,000,000,000mm or more.

Since all water molecules and pollutant molecules are subject to gravity and specific gravity, the position of the layers in the reservoir layer is different depending on whether they have less or more material binding action. The floor is absolutely wrong.

By using this separation of materials by material separation, we can separate tens of millions of substances in water by specific gravity and mass and extract necessary materials and resources from the water. We can easily reorganize the basic order of the material basis of modern life.

Example: the shape of Shiru-teok

Example: The mixing of the upper and lower layers of water stored in the reservoir in the spring and autumn is caused by the inversion of the difference between the temperature and specific gravity of the upper and lower layers, which are divided into layers and separated by the water molecules. Phenomenon that occurs while

6.2.19 Purification by automatic decomposition of substances

All substances on Earth are finally water molecules through the process of being completely decomposed by the physical structure and external action of other substances.

6.2.20 Water Pollution Weighted  Acid rain Generated  Action

After the rubber beam or conductive floodgate is installed, the polluted water is contaminated by the evaporation process, the explosion process, and the friction process. To rise to the atmosphere.

As the moisture of the ultrafine particles rises into the atmosphere, the mass of the substance molecules in the form of haze becomes slowly heavy through mass-bonding action, which combines with other material molecules contained in the air, and falls to the ground by the action of gravity.

Also, depending on the temperature difference in the atmosphere, it may be snow, rain, or hail.

The acid rain is generated as the amount of contaminants encountered during the material bonding process is large and small.

6.2.21 Definition of material decomposition, material separation and material binding actions that add to water pollution

 All contaminants such as nitrogen and phosphorus are bound to water molecules by the viscous force of matter, and go to the bottom layer of the river by the action of mass and gravity, which is heavier than water molecules. I sit down.

The contaminants generated by contaminating the contaminated substances and the clean water molecules again and again are deposited on the bottom of the river and are decomposed again by the 16 naturally occurring actions. Water contamination is aggravated by a continuous process of material bonding again.

In other words, the particles of pollutants generated by the natural decomposition action move to the upper layer of the water layer by the action of gravity and buoyancy, and the material binding action with other pollutants flowing upstream with existing water molecules. As the repetitive action takes place again, the pollution of the water is further increased. These actions are "material decomposition" and "material binding".

However, when the influent is discharged through the lower part of the water discharge system, the lower part of the water drainage system, the pollutant molecules combined with the contaminated material molecules are separated from the clean water molecules by the action of gravity and buoyancy. Due to the material separation, the polluted water molecules move to the upper layer of the reservoir because the polluted water molecules are light in specific gravity, and the clean water molecules, which are heavy in gravity, move to the lower layer and naturally form each layer. Because no binding action occurs again due to the action and buoyancy, contaminated water quality is spontaneous through the process of moving only heavy water molecules from the polluted water layer to the downstream part of the stream through the downstream part of the hydrology. To be purified.

6.2.22 The action of substance preservation instincts that maintain the basic properties of matter Law of  Justice

In this paper, the foundation of all living things, plants and matter on the earth is defined as "water".

The reason for this is that all matter on earth contains water, and all matter on earth or all matter entering the earth from space is supernatural due to the sixteen actions that occur naturally when the basic properties of matter never change. It is converted into water molecules through a continuous process of transformation into particulates.

Through this process, the deformed ultrafine particles gather to form water.

If you take a picture of the water molecule, you can see that the structure of the water molecule is all wrong.

It is not easy to find pictures of the same water molecules because the molecular structure of water was modified by material binding and friction during the process of disintegrating hundreds of billions of molecular molecules on Earth into microparticles. Because

I believe that all materials have properties that try to preserve their basic properties forever.

Just as gold is not transformed into silver, a substance is kept unchanged in its basic structure by the action of unconditional rejection when another foreign substance penetrates and combines into the substance structure possessed by the substance.

In this study, I would like to define this property and material property as "the action and the law of substance preservation instinct".

The polluted waters eventually become clean because the water molecules, which are kept clean by the action of the material preservation instincts and the law, try to shake off the contaminants trapped in the water molecules. This action is the "action and law of the material preservation instinct".

6.2.23 Definition of the material binding action generated by the smoke generated by burning a substance

The smoke produced by the burning of the material falls to the ground through the process of material binding with the substances in the air and into other ultrafine particles.

The components of the ultrafine particles, which are inherent to the combusted material as it burns, fall into the ground through mass-binding and mass-aggregating action and then merge with the rainwater and enter the reservoir where the water is stored. Of the tens of millions of substances, it retains the unique composition of one substance. This action is "the action and the law of substance preservation instinct"

The smell of cigarettes or food is in the clothes because the smoke produced by the burning of the material smells from the clothes due to the binding of the material to the fabric.

There are about 4,000 kinds of substances in cigarette smoke.

The smoke is transformed into the water we drink by a mass-binding action that binds to other substances in the atmosphere.

6.2.24 Pollution Weighted  Definition of mass aggregation

 All pollutants are transformed into polar particulates through various processes of natural decomposition and evaporate into the atmosphere of the earth by convection and evaporation of water, becoming clouds and changing to rain or snow.

Other contaminants, which are often generated through this circulation process, are transformed into materials that are heavier than the specific gravity of water in the air by "agglomeration", which is aggregated in the atmosphere. It combines with the contained water and falls to the ground.

As it enters the stream by mixing with rainwater, it sinks to the bottom of the stream by "agglomeration" and "matter binding", which aggregate or combine with other pollutants contained in the stream.

For example, the project to secure water for maintenance by discharging the effluent from the sewage treatment plant contaminated with secondary water or higher to the upper stream and re-discharge it to the stream will further increase the "agglomeration" and "material combination" to increase the pollution of the river water. At the same time, the air quality is further deteriorated by the evaporation of the river water, which is a very dangerous business that threatens the health of residents and should be stopped immediately.

The fact that all of the rivers that run these projects have bad smells such as fishy smells and seriously threaten the health of residents by deteriorating air quality is proving these actions. It is judged that the project to secure water for maintenance should be implemented at a different angle or stopped immediately.

6.2.25 Water Pollution Weighted  Definition of material binding action

 Particles of incompletely decomposed substances are formed by the viscous and magnetic forces exerted by the microparticles, and the specific gravity of the water molecules through the process of combining the microparticles of the water molecules and the contaminant microparticles by the viscous and magnetic forces exerted by the microparticles. It is transformed into heavier particulates and settles at the bottom of the stream.

This action produces materials such as sedimentary sludge and terrestrial animals (photo 2). This action is "material binding".

Picture 2

Figure pat00004

Pollutant molecules and water molecules

Created by material binding Sedimentation  Pictures of terrestrial animals

Snow falling from the sky, and rain and hail are produced by material binding.

Lightning also occurs during the process of pouring electricity generated by the material binding action generated by the negative and positive charges of water molecules to one side.

All materials are lighter than water or heavier than the specific gravity of water, but the sharp edges of the fine particles and other clean particles formed by the pressure of gravity generated by the rotation and rotation of the earth as it enters the water as it enters the water. Active friction occurs with the sharp parts of the particulates in the water molecules.

At this time, the particles of contaminants that are interposed between the water molecules gradually wear out while the pointed parts of the water molecules naturally strike the particles of the contaminants that bind to the water molecules and are sandwiched between the water molecules. As a result, the presence of contaminant particles is transformed into ultra-fine particles and converted into clean water molecules.

 Even though it is polluted water, it is eventually purified naturally because of the material friction itself, which is transformed into ultra-fine particles and transformed into water molecules by "mass friction" and "explosion". .

When water is confined, this material friction action is continuously performed, and when the polluted water is naturally purified, the polluted substances are decomposed naturally without the help of oxygen. It will change.

However, if water is confined using top discharged reservoirs such as conducting hydrologic and rubber dams, the particles of incompletely decomposed materials during the material friction process are decomposed from the viscous forces contained in the particles, namely magnetic and other materials. Due to the viscous and magnetic forces contained in the fine particles, the material bonds between the pollutant molecules and the clean water molecules are increased, and the water pollution of the river water is further increased. This is due to the continuous generation of "material binding activities", which make the weight of the river water heavier than that of the water molecules, increasing the pollution.

Particles, which are generated by matters decomposed naturally by friction, have a viscous and magnetic force naturally because water molecules are active in the Brownian motion generated by the action of gravity caused by the Earth's rotation and rotation. Naturally, the surface friction of water molecules naturally occurs as the "material frictional movement" of the material and the material wears out while always moving innumerable numbers of movements. It is believed that the viscous force to be combined with the magnetic force that attracts other materials occurs naturally.

The new materials produced by the material binding action generated through this process become heavier than the specific gravity of the water molecules by the material binding action that binds with other substances contained in the stream water flowing in from the upper stream. As it is settled in the lower part, it turns into sedimentary sludge.

 At this time, the contaminants of sedimentation sludge are generated again by mass process and other decomposition action, and then generate large amount of fine particles again. It is changing.

The sedimentation sludge produced by the mass-binding action again generates a large amount of fine particles through a continuous process in which it is decomposed again by mass friction and other decomposition actions.

In other words, the material decomposes again and again by the material binding action that combines the particles decomposed by the action of gravity and the action of gravity generated by the force of rotation and rotation of the particles. In addition, the contaminated water quality is further contaminated as the material binding action is continuously performed with another fine particles generated by the frictional action.

If these material binding activities occur continuously in excess, green algae on land and red tide on sea will exacerbate water pollution.

As such, all materials are completely decomposed and transformed into water molecules by the material friction action and other material decomposition actions exerted by the particles forming the water molecules at the moment of entering the water.

For example, the greenish green matters produced by the decomposition of iron are diluted with water and have a greenish color, which means that the particles of iron molecules transformed into particles that are lighter than the specific gravity of water as iron is decomposed by material friction and other decomposition actions. The color of the water is reddish because the water is interposed between the molecules of water and has a material binding effect.

Over time, iron's constituents are completely decomposed by material friction and transformed into water molecules, so the shape of the iron molecules disappears without a trace.

6.2.26 Definition of the action of naturally purifying stream water contaminated by material scrapping

When other foreign matter penetrates into the structure of clean water molecules and tries to combine with water molecules, they are not easily diluted by the principle of substance rejection and substance preservation instinct, which rejects them (such as water and oil not easily diluted). ).

In order to keep this action at all times, the stream water flowing in from the upstream of the stream is discharged through the lower part of the water storage device. The polluted water, which is light in gravity due to the action of gravity, is forced to move to the upper part of the water storage device. In the case of clean water with a high specific gravity, the clean gravity water is always discharged preferentially through the gravity action, the material grabbing action, and the law and the law of material preservation, which are first discharged through the lower part of the reservoir. As the action occurs naturally, polluted river water comes to life.

When the water is stored using the combined discharge device at the bottom, the clean water flow is always clean because the polluted water is naturally purified while the action of discharging a lot of clean rivers with a heavy gravity through the lower part of the reservoir naturally occurs. It will be able to create a natural stream that flows through.

Because all water molecules are governed by gravity and buoyancy, depending on the mass of the material, the effects of "material rejection" and "material preservation instincts" are intended to permanently preserve pure water molecular structures without binding to pollutants. Because the law naturally occurs, it is possible to naturally create a stream in which river water flows clean.

6.2.27 By material acceleration action Generated  Definition of Water Purification

 Because all river waters are governed by gravity and specific gravity based on the intrinsic mass of water molecules, the location of herpes is in a different state by material, that is, it is stored or flows in different layers depending on the mass and specific gravity of water molecules. do.

Due to this action, clean water with heavy gravity is stored in the lower layer of the river water or is flowing through the river.

Contaminated water with a light specific gravity flows in a state of herpes at the top of the stream, which is caused by "mass acceleration" caused by the action of gravity.

When water is confined using concrete beams, conductive hydro gates, rubber dams, and S & R conductive movable beams discharged through the upper part, the contaminated water quality accumulated in the upper part of the water is accelerated by the action of gravity. Water pollution is more aggravated because it is discharged preferentially, but when water is confined using the lower drainage type movable walkway gate, the phenomenon of contaminated water quality naturally occurs due to the action of gravity. This is due to the phenomenon of material acceleration through which clean water molecules are released preferentially.

6.2.28 The inherent nature of the substances possessed by water molecules DNA And substances in water DNA Definition of the growth process of people or animals and plants growing by absorbing them

Matter and matter are things that like each other and things that are not like each other.

All matter on earth never changes its basic DNA. Since the DNA of a substance that is basically retained is not modified in any case, the basic human form is continuously maintained, and plants and minerals are also maintained without changing their composition.

Likewise, in order for all substances to maintain their inherited basic properties, they must always ingest the essential DNA contained in the water so that the components and substances are retained, so that humans, animals and plants always have the unique ingredients in the water. I'm going to eat.

If you do not always eat or absorb the necessary ingredients in the water, you will not be able to replenish the necessary ingredients, so that not only humans but also animals and plants will die.

Continuous cultivation of plants in the field absorbs all of the material DNA components needed by the plants in the soil, causing subsequent damage to plants that do not grow in the next year. . Too much of the fertilizer of a certain ingredient to the plant is the death of the plant and the human diet is the principle of the disease caused by malnutrition. Also, if you don't eat salt, you'll get another disease because you get a disease that causes you to lose minerals.

Eventually, the inability to consume native DNA in water will kill both animals and plants.

As such, all animals and plants must absorb the special DNA and special nutrients contained in the water through the water so that they do not get much sick.

So, after tilling, the rice paddies are deeply ground and the water is kept in the soil for a long time, so that the necessary ingredients contained in the water are reintroduced into the soil. The same year, even if the same rice farming is not damaged without a series of farming is going well.

Using this principle, if you replenish the field with enough water after farming in the field, you may not suffer serial damage. For example, if you cabbage farming and bark cabbage farming again the following year, you will be serially harmed. However, if you make enough cabbage farming after you make cabbage farming, you will not be harmed. By absorbing enough water into the soil of the field, the DNA of the material necessary for cabbage is sufficiently replenished in the soil so that it does not suffer serial damage. In this way, if all crops absorb water to rice fields or fields after farming, it is suggested that this method be used because it does not suffer serial damage because the unique DNA of the material that needs crops is sufficiently replenished.

6.2.29 Definition of the principle that pollution is aggravated by mass binding and mass decomposition

The strong viscous forces of contaminated materials inevitably bind to other water molecules, and clean water molecules combine with other materials and at the same time transform into heavy materials and go to the bottom layer of the stream. I will sit down.

Subsequently decomposed by the various decomposition actions that occur naturally in the bottom layer of the river, the particles are decomposed again and again, generating fine fine particles, and at the same time, the material bonding effect is that the decomposed material combines with other materials. As it occurs again, another contaminant molecule and some other contaminant substances coming from the upstream occur again and again, resulting in a repetitive binding action, which further exacerbates the contaminated water quality. "Material binding action and material decomposition action" is.

6.2.30 Definition of material binding processes during the cooking of food

When food is cooked, it is necessary to add natural seasonings or artificial seasonings such as salt, garlic, green onions, or ginger to the ingredients of the food so that the unique taste of the food is obtained when the food is combined with the substance.

 In other words, it is important evidence of scientific fact that proves that only a substance-binding action produces another substance.

When salt is added to the food, the food becomes salty as a whole. It is a phenomenon that the material binding action spreads widely throughout the food by the magnetic and viscous force of the water molecules.

If you put coffee in water, the color of water turns coffee color.

6.2.31 Mass binding and explosion Substance removal  Definition of the process by which polluted or seawater is converted into fresh water

The amount of water evaporated in one day is about 1 trillion tons.

Salty fresh water flows into the sea and turns into salty water because saltwater and freshwater water molecules that make up inorganic and organic substances in seawater change into contaminants as they combine to make pollutants. Will be turned into.

Pure water combined with contaminated water or seawater evaporates from the structure of the material molecules that make up the heavy polluted or seawater, and only pure water molecules that have escaped are converted into water vapor and rise into the atmosphere.

At this time, the pure water molecules that have escaped become heavy with the weight of the water molecules and become rainwater or snow through the aggregation of substances that are once again aggregated with other material molecules in the atmosphere. Falling back to the fresh water will be.

Through this continuous process, the seawater is transformed into fresh water that is not salty.

In addition, the fresh water enters the sea and changes into a salty water that cannot be eaten through a natural binding process.

In other words, the change of polluted water or seawater combined with other substances into fresh water through the substance binding action is caused by the substance desorption action of the substance bound with the water molecular structure and the release of water molecules from the water molecules and the contaminant molecules. This is due to the material explosive action.

6.2.33 Substance release and  Definition of the principle that the stream water contaminated by material scraping will be naturally purified.

When contaminated river waters try to pass through the lower part of the lower drainage operation door, the clean water with heavy gravity pushes the lighter contaminated water to the upper part of the sluice and then moves to the lower part of the lighter contaminated water. Through the lower part of the lower part of the drainage type movable floodgate, the material is first cut out, and this action is caused by the clean gravity of heavy water generated by the action of gravity. This is due to the "material cutout" that comes out and exits first.

If water is discharged through the lower part of the water gate by using the lower part drainage movable gate, the polluted water turns into clean water even though the polluted water is generated.

In other words, the polluted water is naturally purged because the polluted water with a light gravity is generated naturally, and the scrapping action is first generated.

In this way, contaminants that penetrate or bind in the water molecule structure must be removed from pure water molecules by using the scavenging action to become clean water. In other words, in order to make polluted water become clean water, pollutants contained in the pure molecular structure of water flowing from the upstream of the stream must be immediately released from the water molecules so that the polluted river water is reduced to clean water.

In order to purify the contaminated river water with clean water, it is always discharged as much as it comes in from the upstream through the lower part of the lower part drainage operation gate. Even the polluted river water can naturally cleanse the polluted water by the action of purifying it with clean water.

If only the amount of river water flowing from the upstream of the stream is discharged through the lower part of the sluice, the material decontamination and material scavenger occur, and the polluted water is naturally purified by rotating and rotating the earth. Gravity causes contaminated lightly contaminated molecular molecules in the water to be pushed up to the heavier clean water molecules, moving to the upper part of the stream, and the heavier clean water molecules are moved downstream through the lower part of the sluice. It is because it is reborn as more and more clean water.

In other words, clean water molecules combined with contaminated material molecules naturally generate material release from the pollutant molecules due to gravity and the action of specific gravity. Through the process of crushing the contaminated water into clean water molecules by repetitive material cutting action that naturally separates the contaminant molecular structures through the process of placing them on the upper layer and transforms them into fine particles of smaller and smaller size. Polluted water is naturally purified.

6.2.34 Mass catalysis and explosive action occur in water, causing bacteria contained in the water to be sterilized and contaminated water quality. Naturally purified  Biological Definition of Principles

In the water, about tens of millions of substances are decomposed and contained.

Like the principle that magnets do not stick together, materials contained in water do not bond with other materials, but have similar polarities and masses. When combined with the material binding effect.

At this time, when a substance contained in water comes into contact with another substance, a material chemical reaction occurs due to the inherent property of the substance, causing a substance explosion.

Evidence shows that when cesium is added to water, an explosion occurs. What causes an explosion can be understood by considering what causes the explosion.

In other words, when a substance comes into contact with a substance, a substance explosion occurs: "A substance always tries to preserve its properties, so when another substance approaches a substance, it tries to reject it or destroy the physical properties of that substance." It is defined as the "explosion of substance" occurs while the action and laws of the substance preservation instinct occur naturally.

When a substance explodes, the molecular structure of the substance decomposes into smaller and smaller sizes. In other words, a substance explodes spontaneously when another component comes into contact with a unique component that tries to maintain its properties. It is transformed into a small molecule of matter. There are many different types of material explosions. The principle of nuclear power generation and the explosives of gunpowder are also areas of material explosion.

When a substance is brought into contact with another substance contained in water, the substance explodes continuously, and the fine particles of all substances are transformed into clean water molecules by transforming them into smaller and smaller sizes.

When soap is rubbed into the water, bubbles are generated, which is a material explosion.

When soap meets water, a small explosion Generated  At the same time, bubbles are generated continuously.

Bacteria are jjiteoseo killed or impaled on a sharp portion such as bars that are naturally formed outside the bubble dies slashed die, because give a bath with soap and water or wipe your hands with soap and germs in the number of one billion that live in our bodies are naturally Because it is sterilized, people live without being killed even if they are infected with bacteria .

Of course, even if you take a bath or wash your hands with water only, the soapy parts of the water molecules work to wash away dead skin that occurs naturally in your body, or to stab or kill bacteria that stick to your body. It is not necessary to write.

Matter and Matter While touching  Material explosion To occur  When Not disassembled  The contaminants and structures of organic substances are broken down into smaller and smaller particles and continuously transform into finer particles. Occurs  The polluted water becomes even more clean by the material explosion.

One way to confirm the evidence of a material explosion is to consider the principle of the action of continuous bubbles such as air bubbles in beer bottles.

In other words, because the yeast, the main component of beer, alcohol and water constituting beer meet and continuously explode, the bubbles such as air bubbles are continuously generated.

This phenomenon is the ripening effect of alcohol.

In addition, the continuous generation of air droplets in the stored water is due to the explosion of substances caused by the contact of intrinsic components of water molecules with another substance.

If the milk carton is placed in the open air for more than 24 hours, it can be observed that the milk carton expands. This phenomenon is caused by the material explosion that collides with the milk components and the substances introduced into the milk during milk production. The milk carton is expanded by the generated gas.

6.2.35 underwater Generated  Material explosion and in the human body Generated  Hypothesis about the relationship between substance explosion and cancer

Humans develop cancer because of the explosive effect of gastric acid, hydrochloric acid, or hormones produced by human organs by the microparticles that make up the air that they breathe and the food or alcohol they eat. Cells in the inner wall and flesh of the body are destroyed to a very small size.

The wounds in the flesh of the blood vessels or in the flesh of the human body heal the natural strains of natural beetles, but they do not fall out and get nutrients in the flesh. It is thought to be transformed into cancer cells by combining with other heterologous proteins formed in the human body as a heterologous protein and continuous growth through a ring like a blood string.

Therefore, humans should always take clean air in order to prevent wounds caused by material explosions that occur inside humans.

Also, to prevent cancer, metal utensils and utensils, including silver cutlery, which cause mass explosion and mass catalysis, produce toxicity while further increasing mass explosion and mass catalysis. I think I should use old tools or pottery.

6.2.36 The substance is decomposed or Burned out  The material definition of the process of change to ultrafine particles

The material is decomposed or burned through various processes, and the shape and traits of the material are transformed into ultrafine particles or into invisible forms. It is transformed into size.

When burning a substance, the smell remains, but since the existence of the substance itself disappears from the eye's sight, the substance itself seems to have disappeared, but in reality the substance that has changed into far-infrared and tiny ultra-fine particles generated by the combustion of the substance exists as an odor. The ultra-fine particles that turn into odors become heavy due to the material binding action that binds matter to the water in the air, that is, other particles of water. will be.

In other words, the contaminants bound to the water molecules are transformed into the components of the ultrafine particles, which are invisible to the components of the material itself through the process of material friction, and the pure water molecules and the material bonds forming the water molecules in the atmosphere The specific gravity becomes heavy by the action, and it is turned to water by the circulation process of the material which is separated from the ground and then flows into the river by the rainwater and becomes the component of the water.

The physical phenomena that make a substance disappear when it is burned prove it.

6.2.37 Definition of the principle that naturally contaminated water quality stored for long periods of time in deep underground or deep ocean waters

The contaminated water molecules that have gathered into the underground through deep oceans or streams, through the veins of the ground, or through groundwater mining pipes, naturally change to clean water without the aid of oxygen. Due to the rotational force generated while rotating, friction occurs between the water molecules constituting the material molecules and the sharp parts of the water molecules.

Due to the material friction action, the components of the pollutant molecules bound to the water molecules are turned into ultrafine particles, so no matter how contaminated water quality, they eventually turn into clean water.

This logic If wrong  Because of the deep ocean water and the pollutants that flow through the numerous underground veins, there is a logic that once deep sea water and ground water contaminated cannot survive.

Eventually, deep seawater and groundwater will be exposed to land through evaporation and leakage, and then converted into clean water that can be converted into clean water for all living things, animals and humans.

Naturally, the contaminated water that enters deep ocean water or underground water is naturally purged over time because of the effects of gravity caused by the rotation and rotation of the Earth's rotation around the sun. To prove that it is because of friction. "

6.2.38 Definition of logic for the fact that microorganisms do not save polluted water quality

Microorganisms we know are living things. It is true that some specific substances decompose, but it is a common misconception to save the entire contaminated water quality.

When a human eats pesticides, it is natural that a living body dies when one ingests a certain ingredient, such as a cell being destroyed by a substance explosion that occurs when a human hormone and pesticide meet.

Therefore, it is a common misconception that microbes ingest and remove contaminants that are bound to water molecules to save contaminated water quality.

Of the tens of millions of substances associated with contaminated water molecules, there is a clear mix of substances that are harmful to microorganisms. Nevertheless, some scholars say that microorganisms survive all of the contaminated water because of the surviving microbes. I insist.

It is clearly problematic to claim that microorganisms can survive by ingesting contaminated substances, which are composed of substances that are harmful to any animal on earth.

There may be some microorganisms that will survive toxic contaminated water quality, but no microorganisms that can save large quantities of contaminated water exist on Earth.

It seems that the contaminated water survives because the microorganisms that use some of the contaminated water and the material that combine the substance as a food eat it away, but the microorganisms are absolutely contaminated with the contaminated water that is the substance combined with the organic materials. It cannot be saved.

6.2.39 The truth about how to plant polluted water to save polluted river water

It is a mistake to use a method of purifying the contaminated water by using floats on the dam and planting plants.

During the months when the plant grows, the plant grows and consumes the necessary organic matters, so it removes some of the organic matters. After the growth stops, the plants become useless. I think this method should not be used because it plays a role.

6.2.40 Inherent in all substances in water DNA Definition and hypothesis of the fact that it holds absolutely unmodified

Contaminated water molecules, which are bound by contaminant molecules with a physical binding action, are eventually purified and transformed into tiny microparticles that are contaminated with water molecules and transformed into clean water. The water molecules are clean.

In other words, the contaminant's unique DNA is transformed into a very small molecule through the process of changing to a very small microparticle, and the contaminant's own material DNA is absolutely lost from the water's molecule. no.

For example, if you apply petroleum or lubricating oil to your hands, and then wipe your hands with detergent and water, it seems that the petroleum component disappears because the constituents of petroleum or lubricating oil are decomposed by the cleaning power of water molecules and detergent. The ultrafine DNA of matter is transformed into water molecules, but the DNA of petroleum is absolutely unchanged.

The evidence is that if you put the detergent and water used to clean the oil together in the bucket, you can observe that after some time, the oil will float to the top of the bucket.

Based on these theories, it is true that petroleum components are decomposed by the detergent's detergency, but the physical basis of the petroleum component produced by the combination or change of various substances is the biomass created by the change of plants. As a result, the basic properties of petroleum are reduced back to vegetable components and decompose.

Based on this principle, this study argues that the ultrafine DNA of a material that maintains the basic properties of petroleum is never changed.

Therefore, petroleum organic molecules, which form the basis of all pollutants, are completely intact by molecular action caused by the friction between the pointed parts of all the molecules in the water. It only changes into the components of, and it does not mean that the existence of the pollutant itself disappears.

 The evidence is that the taste and composition of water on the earth are not the same, they are all different, and even when comparing billions of tastes of water, they are all wrong. Since it starts to decompose by friction and after some time all decomposes into water molecules, there is absolutely no water with the same taste.

In the oil spill on the west coast, some of the oil introduced into the sea was removed artificially, but a large part of the oil was introduced into the sea by the mass-binding action of seawater.

However, it is natural reality that oil will eventually turn into water by material friction and other actions.

Since only one of these facts reveals the existence of water, this paper argues that all things and all life are water.

6.2.41 The ultrasonics of the humidifier Raising  Proof of logic that evaporation of water is explosive

In the ultrasonic generator placed inside the humidifier, the ultrasonic waves are launched into the water, and the water molecules are split into smaller and smaller microparticles, making the water molecules lighter than water and the earth revolving and rotating around the sun. As a result of the action of gravity caused by the action, it rises into the atmosphere and once again combines with the substances in the atmosphere, transforming them into moisture substances in the air.

The same phenomenon is caused by the fact that the amount of water on the ground evaporates into the atmosphere by the action of a material explosion.

In addition, when water is cut off using heat, a material explosion occurs, and the water molecules are split into smaller and smaller particles, while the lighter water molecules combine with the substances in the atmosphere by the action of gravity in the atmosphere. It is transformed into air.

6.2.42 By the action of the magnetic force of water molecules Generated  Definition and hypothesis of the action to naturally purify the water contaminated by material friction

Water molecules come in many forms, but usually consist of five or six peaks, the ends of which form pointed triangles. It is configured to facilitate the combination of.

The reason why the water molecules have a negative electrode and a positive electrode, which is the property of magnetic force, is because they are tempered into a more rigid molecular structure by the frictional action of the friction between the sharp parts of the water molecules in the form of triangles. It is believed that the magnetic field is generated naturally at the end of water molecules.

The fact that the tip of the compass naturally faces toward the south pole and the north pole also occurs in accordance with the polarity of moisture in the air, that is, the magnetic force of the water molecules. It is considered to be.

The natural magnetic field at the tip of the water molecule adds the natural action of the positive and negative charges of the water molecules toward their favorite direction, and the sharp part of the water and water molecules. As friction between materials always occurs, all contaminated material molecules associated with water molecules are decomposed naturally. The angle and shape of the sharp part vary depending on the water temperature

Example: The compass always points in the north and south directions due to the action of positive and negative charges formed at the ends of the water molecules.

Example: A shark's smell and chase of a person's blood at a distance of more than 100 km is thought to be driven by the components of the substance by the transfer of the negative and positive charges of the water molecules.

6.2.43 Evidence that all matter eventually becomes water, and that all matter that rises due to convection caused by the action of gravity becomes water through a material binding action

When burning wood or smoking cigarettes, the 4,000 kinds of substances contained in the smoke generated by burning cigarettes rise into the atmosphere by gravity and convection, and then change into water molecules through the action of combining with other substances.

The phenomenon that substances contained in smoke generated by combustion of automobile fuel or all energies rise to the atmosphere by gravity and convection, and change into water molecules through the action of combining with other substances.

6.2.44 Definition of the action by which material contaminated river water is naturally purified

When a substance meets another substance, there is an explosive substance that grows as its molecular structure grows.

When urine is left on the toilet, water is continuously exploded by the action of water molecules coming into contact with urine components made in the body and exploding.

In addition, when water is added to a pot and boiled with fire, air molecules are generated by the action of water molecules exploding by the far-infrared rays generated from the fire, and at the same time, water molecules of ultra-fine particles that are lighter than the mass of water molecules are converted into water vapor. It can be observed that they rise to the atmosphere by the action of gravity.

In addition, the substance contained in the water in the pot to taste the food material exploded by the far-infrared rays generated from the fire, and the substances in the material are discharged into the water, the taste of the water in the pot It is also because of the substance explosion that changes the taste of the ingredients into the taste of the ingredients they contain.

In other words, ramen, soup, and water together to boil using fire because the taste of the ramen is due to the material explosive action.

Also, if water and rice are put together and heated for a long time, the killing is the change of rice into rice porridge as the molecular structure of water breaks down the molecular structure of rice by the explosive action that the far infrared and water meet.

When hot water is put into a paper cup and the coffee is put into it, it is possible to observe the phenomenon of water vapor, or white mist, in the paper cup.

This phenomenon is a material explosion.

Since these material explosions occur continuously in the flowing river water, the pollutants contained in the river water are divided into ultra-fine particles through the process of being split and decomposed into clean river water.

In addition, the pollutant molecules maintain a light weight through the present invention because all pollutant molecules are combined in the water molecules as shown in FIG. Suggest the doctrine.

In other words, because the pollutant molecules in the form of voids (0) form empty spaces in the clean water molecules, the heavy water clean water molecules and the pollutant molecules are separated into upper and lower layers.

In other words, clean water molecules that are heavy have herpes at the bottom of the stream because contaminant molecules in the zero-gap state with empty spaces do not stick together.

However, pollutant molecules in the upper part of the stream are pollutant molecules, which are composed of zero-shaped spaces with empty spaces, and bind to water molecules.

In other words, the buoyancy of the gas contained in the empty space of the pollutants composed of the zero-shaped form herpes on the upper part of the river water.

However, if this condition is maintained for a long time, all the contaminants are filled in the empty space, which is bound in the form of zero in the clean water molecules, becoming heavier than the clean water molecules with heavy gravity, and at the same time as the lower part of the river water. As it is stacked in succession, it turns into a sludge.

Also, since the seawater is heavier than the clean water molecules, the clean water molecules are filled with other contaminant molecules in the space of the contaminant molecules attached to the clean water molecules in the form of zeros. The ratio is maintaining 1.024 ~ 1.040 more than these.

However, even though seawater maintains a specific gravity of 1.024 ~ 1.040, its specific gravity changes to 1 as the pollutants associated with seawater are naturally separated by various actions.

That is to say, it is a fact that all matter eventually consists of water molecules.

As much as a trillion tons of water evaporate from the Earth every day, the water content of the evaporated water is always clean, so all living things on Earth remain intact and connected to life.

However, if the evaporated components of water evaporate in a contaminated state, all life on Earth is lost.

The present invention has been made by the present applicants patent applications 10-2007-0102802, 10-2007-0004015, 10-2007-0006759, 10-2007-0049534, 10-2007-0075735, 10-2007- Conventional inventions enumerated above are inventions that improve the shortcomings of 0088277 10-2007-0139678, 10-2007-0096604, 10-2008-0054793 and 10-2008-0063369 10-2008-0075440. Traces of organic and inorganic materials could not be separated by type.

In addition, the present invention by applying the principle of purifying water as described above to let the contaminants contained in the water in the process of passing the water through the compression tank to escape only the clean water and at the same time the contaminants released from the water Purifying contaminated water by decomposing it into smaller and smaller particles and gradually extinguishing it, or purifying contaminated water naturally by using a compression tank, a barrel, and a filter compartment to remove and remove salt impurities. It is to provide a method.

In addition, the conventional liquor processing method has matured liquor by simply casting and then placing it in an oak barrel for a long time. There are many drawbacks.

In addition, liquid foods such as soy sauce, soybean paste, or red pepper paste are also expensive because they are aged by using a jar for a long time.

In addition, in the case of milk sterilization by applying heat there is a defect that nutrients are destroyed.

We want to solve these problems

In order to solve this problem, the present invention intends to solve the drawback of the prior art by providing a separation compartment provided to be automatically separated according to gravity.

In addition, the present invention is provided with one or more compression tanks in a constant storage space, such as artificial compression tanks, fish tanks, lakes, reservoirs of rivers, ponds, fish farms, baths, forming a strainer in the lower portion of the compression tank, purify or By allowing the water to be purified to pass through the outlets located in the compression and filter bins, pollutants are separated from the water molecules by the influence of gravity and specific gravity, so that they can be deposited in the upper layer of water and only clean water is discharged to the bottom. To purify or purify contaminated water or seawater naturally.

The present invention solves the object of the present invention by using a compression principle, a barrel and a barrel to purify or purify contaminated seawater or freshwater naturally or to obtain energy contained in the freshwater or seawater using the principle of natural gravity. I would like to.

In addition, in the present invention, the material friction action, the material explosion action and the heavy specific gravity molecules, which forcibly generate harmful substances such as hissley, acetaldehyde and all-gad, including methyl alcohol contained in alcohol, have a specific gravity. It is collected in the liquor by the method of collecting the harmful substances by collecting them in the upper part of the sieve 1, the 1st, 2nd, 3rd sieve compartment, the 1st, 2nd, 3rd sieve and the 4th sieve. Makes liquor easy to drink by removing lightly harmful substances.

Alcohol applied to the present invention can be processed for all alcoholic beverages on earth.

In addition, liquid foods such as milk, vinegar, ketchup, butter, red pepper paste, soybean paste or soy sauce can be easily removed by using the above-mentioned methods.

Liquid food refers to food that is eaten by all people living on the planet.

The present invention continuously supplies the seawater or contaminated water to the compression container, the filter barrel and the filter compartment, and further discharges the seawater or the fresh water passing through the compression container and the filter barrel to the bottom of the compression container. The cask can be evacuated in turn, thereby purifying the contaminated fresh water by mass acceleration, mass shredding, material releasing, material flotation and gravity, as well as the final discharge of the purified water. Clean river water can create a flowing stream.

Along with this, organic material pollutants contained in fresh water or sea water collected in the galley and collection bins can be used as separate energy.

It is possible to produce clean ballast water that fills the vessel by filtering contaminants through the filter bins and collecting bins.

In addition, there is an effect that it is possible to easily prepare food additives or saline that can be prepared or eaten with salt water for salt water purification.

Or there is an effect that can be produced as a salt substitute food to be added when the sea water is purified to make food.

In addition, by using the water purifier according to the present invention it is possible to make a large-scale component of the condensed seawater containing the seawater components at a low price.

Diluting the condensed seawater components made through this process into freshwater has the effect of producing freshwater into seawater.

When the seawater produced through such a process is used in an aquarium or a sea bath, the transport cost of transporting the seawater to the land is greatly reduced.

In addition, it is possible to extract very small amounts of energy mixed with fresh water very simply, so that the polluted river water can be purified while filtering organic pollutants contained in the polluted river water.

In addition, since a small amount of energy mixed in seawater can be separated very simply by the action of material friction, material explosion and gravity, it is possible to continuously remove infinite amounts of energy contained in seawater through a continuous seawater pumping process. There is an effect that can produce.

In addition, in the prior art, it was not possible to simply remove harmful substances such as acetaldehyde and light methyl alcohol, which are light in specific gravity. Can be removed and manufactured by a simple process

In other words, whiskey, wine, cognac, vodka, tequila, and sake and low-priced alcoholic beverages such as makgeolli can be produced in a short time.

In other words, the substance explosive action and the material friction action applied continuously by the blow of the brush, and the various harmful substances contained in the liquor overflowed the upper part of the trough and the first, second, third and third filter compartments. Removed through the collection bin is effective to make a good drink.

The type of alcohol is not presented separately because the type and name of alcohol can be produced because all the alcohol existing on the planet.

In addition, all liquid foods such as miso, red pepper paste, soy sauce, vinegar and ketchup, including all milk, yogurt and beverages present on the planet, are processed using the water purifier provided in the present invention, and the specific gravity contained in the liquid food is light and harmful. After the materials overflow the upper part of the trough, the first and second troughs and the four troughs can be collected to simplify the preparation of liquid foods with pure ingredients free of lightly contaminants.

Since the type of liquid foods collectively refers to all foods for drinking on the earth, it is natural that they do not fall within the scope of the present invention even if the names and types of foods are not specified separately.

In addition, when the food waste is processed using the present invention, since the salt components contained in the food waste can be easily removed, there is an advantage in that the problems that have not been dealt with in the past can be handled simply.

In addition, it has the advantage of very simple treatment of waste, sewage sludge and tap water sludge produced after pulverization, serving and slaughter.

1 is a cross-sectional perspective view of a water purifier constructed in accordance with a first embodiment of the present invention
Figure 2 is a perspective view of the filter barrel configured in the first embodiment of the present invention
Figure 3 is a cross-sectional perspective view showing a configuration state of the brush configured according to the first and second embodiments of the present invention
Figure 4 is a perspective view showing the shaft shape of the through hole and the brush configured in the axis of the brush according to the first and second embodiments of the present invention
5 is a perspective view of a water purifier constructed in accordance with a second embodiment of the present invention;
6 is a cross-sectional perspective view of the water purifying apparatus configured according to the second embodiment of the present invention.
7 is a sectional perspective view of a crimping frame constructed in accordance with a third embodiment of the present invention;
8 is a sectional perspective view of a dilution apparatus applied to a third embodiment of the present invention.
9 is a perspective view of a water purifier constructed in accordance with a second embodiment of the present invention;
10 is a perspective view of a water purifier constructed in accordance with a second embodiment of the present invention;
11 is a cross-sectional perspective view of contaminated water molecules found by the inventors while studying water
12 is a cross-sectional perspective view of seawater molecules found by the inventors while studying water
13 is a perspective view of a water purifier constructed in accordance with a fourth embodiment of the present invention;
14 is a perspective view of a water purifier constructed in accordance with a fifth embodiment of the present invention;
15 is a perspective view of a water purifying apparatus constructed according to a sixth embodiment of the present invention;
16 is a perspective view of a water purifier constructed in accordance with a seventh embodiment of the present invention;
17 is a perspective view of a water purifier constructed in accordance with an eighth embodiment of the present invention;
19 is a perspective view of a water purifier constructed in accordance with a ninth embodiment of the present invention;
20 is a vertical sectional perspective view of the water purifying apparatus applied to the tenth embodiment of the present invention.
21 is a horizontal sectional perspective view of the water purifying apparatus applied to the twelfth embodiment of the present invention.
22 is a vertical sectional perspective view of the water purifying apparatus applied to the thirteenth embodiment of the present invention.
Figure 23 is a perspective view of a material separation compartment applied to the thirteenth embodiment of the present invention.
24 is a sectional perspective view of a first material separation compartment applied to a thirteenth embodiment of the present invention. FIG. 25 is a cross-sectional front view of a first material separation compartment applied to a thirteenth embodiment of the present invention.
26 is a perspective view of the water purifying apparatus applied to the sixteenth embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the embodiments presented and the accompanying drawings.

1 is a cross-sectional perspective view of a water purifying apparatus configured according to a first embodiment of the present invention,

Figure 2 is a perspective view of the filter barrel configured in the first embodiment of the present invention,

       3 is a cross-sectional perspective view showing a configuration state of a brush configured according to the first and second embodiments of the present invention;

Figure 4 is a perspective view showing the shaft shape of the brush and the through hole formed in the axis of the brush according to the first and second embodiments of the present invention, Figure 11 is a cross-sectional view of contaminated water molecules found by the inventors while studying water Perspective view,

12 is a cross-sectional perspective view of seawater molecules found by the inventors while studying water.

The present invention relates to a method of purifying fresh water or seawater by using a brush to stir or strike fresh water or obtaining energy from fresh water or sea water.

Comprising a circular or angular configuration is provided with a filter barrel (1) for exerting a water purification function and the filter barrel outlet 8 is provided at one side of the lower end of the filter barrel (1);

The filter bin discharge port (8) is provided with a filter bin discharge control valve (7) to control the discharge of sea water or fresh water flowing into the filter bin (1);

The lower and middle portions of the strainer (1) are inserted into the through hole (97) formed in the shaft (98) across one side and the other side of the strainer (1);

One side and the other side of the shaft 98 of the brush 99 are installed across the trough 1 by white paper 95 and one shaft 98 of the brush 99 is coupled to the motor 11. With agitation by stirring the sea water or fresh water flowing into the strainer (1);

Around the upper end of the barrel (1) is provided with a primary filter compartment (5), secondary filter compartment (4) and tertiary filter compartment (3);

A sponge or a non-woven fabric or a cloth or membrane filtration cloth 34 is installed on the upper portion of the primary filtration compartment 5, the secondary filtration compartment 4 and the tertiary filtration compartment 3 to filter impurities;

A collecting port 51 is provided at one side of the first filtering compartment 5, the second filtering compartment 4, and the third filtering compartment 3, and at one end of the collecting compartment 51, the first filtering compartment ( 5) and the primary filter compartment (4), the secondary filter compartment (4) and the secondary filter compartment (4) and the third filter compartment (3) through the collecting compartment (51) Collector control valve (53) to control the inflow of inorganic materials and inflowing substances into the primary collector (54), secondary collector (59) and tertiary collector (52) that are configured at the lower end of the collector (54) With being provided;

At the lower end of the primary filter compartment (5) is provided with a primary collector (54) to collect inorganic or organic material introduced primarily through the primary filter compartment (5);

At the lower end of the secondary filter compartment (4) is provided with a secondary collector (59) to collect the inorganic or organic material introduced secondly through the secondary filter compartment (4);

A tertiary collection bin 52 is provided at the lower end of the tertiary trap compartment 3 to collect inorganic or organic substances introduced in the tertiary through the tertiary trap compartment 3;

On the left and right sides of the 1,2,3, car compartments 3,4,5, inorganic or organic substances are introduced into the quaternary after passing through the 1,2,3, car compartments 3,4,5 A fourth collector (2) is provided for collecting the substance and a fourth collector canister (33) is configured at the bottom of the fourth collector;

The bottom of the fourth collecting bin outlet 33 is configured with a final collecting barrel 55 collecting the by-products of the finally collected seawater or fresh water or by-products collected from alcohol, beverages or liquid foods;

At the upper end of the compartments 3, 4 and 5, a heat plate 56 for converting electricity collected from general power or the solar collector plate 58 into heat is electrically coupled to the solar collector plate 58. With being installed;

The hot plate 56 is an inorganic or organic or contaminant component and seawater that has been separated from fresh water or seawater passing through the first and second order compartments 3, 4 and 5, alcohol, beverage or liquid food. Raising the temperature of the ingredients to produce fresh water or seawater, by-products of alcohol, beverages or liquid foods, or to produce gases;

The gas collection plate of the sealed structure to collect the gas generated by the heating of the hot plate 56 around the upper periphery of the 1,2,3 collection compartments (3,4,5) and the fourth collection tank (2) (73) is installed and the gas collecting plate 75 is configured at the upper portion of the gas collecting plate (73);

The upper part of the filter barrel (1) is provided with a compression cylinder (76) having a through hole, and the outer and inner peripheral surfaces of the compression cylinder (76) are provided with a filter compartment (22) having a through hole and the filter compartment ( 22, the filter member 88, such as sand gravel, hollow fiber membranes, sponge or nonwoven fabric is accommodated to complete the compression cylinder 76;

Inside the compression cylinder 76 is provided with an inflow pipe 9 for introducing fresh water or sea water or liquor or beverage or flowable food, and the top of the inflow pipe 9 is sea water or fresh water or liquor or beverage or fluid food. With an inlet control valve 77 of the;

A pressurized pump 78 is provided in the middle of the inflow pipe 9 to forcibly introduce fresh water, sea water, liquor, beverage, or liquid food into the compression container 76. with;

A gas collecting plate 74 having a sealed structure is formed at the upper portion of the strainer 1 and the compression cylinder 76, and a gas collecting cylinder 75 is formed at the upper portion of the gas collecting plate 74. Pressure generated in the 76 and the heating action of the hot plate 56 constituted in the 1,2,3 secondary filter compartments 3,4,5 and the brush configured in the interior of the trap 1 Collecting gas generated by the stirring action of 11);

Fresh water, sea water or alcohol or beverage or fluid food passing through the compression container 76 is a small amount of fresh water or sea water or alcohol or beverage or fluidity to the upper part of the 1,2,3 primary filter compartment (3,4,5). Fresh water or seawater discharged through the trough outlet 8 by adjusting the inlet control valve 77 and the trough discharge control valve 7 of the seawater or fresh water or liquor or beverage or flowable food to overflow the food; Alternatively, by controlling the discharge of alcohol, beverages, or liquid foods, the brush 11 is operated to cause pollutant molecules bound to fresh water by the action of gravity to be released from fresh water, or seawater and salt components combined with seawater. Substances that are released from the seawater or that are lightly contained in alcoholic beverages, beverages or liquid foods Out to the friction material and acting together with the blast material Sikkim 10 minutes for 240 hours caused action;

Pollutant molecules combined with fresh water and seawater and salt components combined with fresh water by the material friction and material explosion action generated by the action of the brush 11 or contained in alcoholic beverages, beverages or liquid foods 100% inflow of fresh water or seawater flowing through the inflow pipe 9 or liquor, beverages or liquid foods is introduced into the compression container so that harmful substances having a low specific gravity are automatically floated to the upper portion of the trough 1 by gravity. 76) and at the same time filled with fresh water or sea water, alcohol, beverages or liquid foods to the upper end of the water reservoir (1)

70% of the discharge of fresh water or sea water or alcohol, beverages or liquid food discharged by adjusting the filter barrel discharge control valve (7) coupled to the filter barrel discharge port (8) configured in the lower portion of the filter barrel (1) When discharging only 99.9%, after the remaining 0.1% to 30% of fresh water or sea water, alcohol, beverage or liquid food overflows the upper end of the low water level of the trough 1, the first and second tidal bins (3,4). And (5) and quaternary collection vessels (2) to collect and remove inorganic or organic suspended solids that have been removed from fresh water, sea water, alcohol, beverages or liquid foods. Clean fresh water or clean sea water, or extract pollutants contained in fresh water to use as energy, clean contaminated fresh water clean, or clean sea water from the sea water molecules Use the water as a drinking water or water ballast to fill the vessel, or use the seawater and salt from seawater molecules to collect salt water and use it as salt water for salt production, or to purify seawater to make salt substitute food. Alternatively, it is possible to prepare food additives that can be purified by treating seawater, or to prepare freshwater by mixing saltwater components collected by stirring the saltwater into freshwater, or by using inorganic and organic materials collected from the seawater. It is used to make liquor by removing harmful substances that have a low specific gravity contained in liquor or liquid food such as soy sauce, soybean paste or red pepper paste, and to make beverages and liquid food by removing harmful substances contained in milk, vinegar and beverage. It is purified water salt characterized by The method of manufacturing ballast water for ships, the method of preparing seawater for salt production by purifying contaminated seawater, the method of producing salt substitute food by purifying seawater, and the condensed seawater components collected using this method Method for preparing fresh water into seawater, method for obtaining energy by processing fresh water or seawater, method for preparing alcohol by removing light substance with a low specific gravity, and liquid food such as soy sauce, red pepper paste or miso, and in milk, vinegar and beverage We propose a method for manufacturing food by removing the harmful substances and the water purifier applied to it.

The first and second collection bins to prevent foreign substances from flowing into the first and second collection bins 3, 4 and 5 provided at one side and the other side of the trough 1 provided by the present invention. The reason for installing a filtering member such as a nonwoven fabric or a sponge at the upper end of (3, 4, 5) is because fresh water or sea water or fresh water or sea water or alcohol, beverage or liquid food containing purified water in fresh water or sea water or alcohol or beverage or liquid food. It does not allow it to flow back into the stomach.

In addition to the 1,2, 3rd collection compartments (3, 4, 5), it is natural that it is possible to configure a collection compartment that is additionally configured separately, or any person skilled in the art, such a design change is also within the scope of the present invention.

Next, a second embodiment of the present invention will be described.

5 is a perspective view of the water purifying apparatus configured according to the second and third embodiments of the present invention,

FIG. 6 is a sectional perspective view of the water purifier according to the second and third embodiments of the present invention. FIG. 9 is a perspective view of the water purifier according to the second and third embodiments of the present invention. A perspective view of a water purifying apparatus constructed according to the second and third embodiments of the invention,

11 is a cross-sectional perspective view of contaminated water molecules found by the inventors while studying water, and FIG. 12 is a cross-sectional perspective view of seawater molecules found by the inventors while studying water.

One side into which the fluid is introduced into the rectangular shape is high, and the other side from which the fluid is discharged is configured to be low, and the material separation container 100 having a water purification function is provided. It is provided with a plurality of water diffusion plate 988 so that the other end and the lower end of the material separation tube 100 is open and the lower end is inclined (경) to form a water flow diffusion passage (999). Constructing a compartment 902;

The water flow diffusion plate 988 of the material separation compartment 902 constitutes a microwave vibrator 995 to generate continuous wavelengths;

Between the water flow diffusion plate 988 and the material separation compartment 902

A plurality of brush shafts 98 are configured across one side and the other side of the material separation vessel 100 together;

The brush shaft 98 is configured with a brush 99;

One side and the other side of the shaft 98 of the brush is combined with the mechanical seal 807 which acts to waterproof and watertight;

One side of the shaft (98) of the brush (99) is combined with the mechanical seal (807) is formed through the material separation cylinder 100 is configured to be white paper;

The other side of the shaft 98 of the brush is coupled with the mechanical seal 807 configured with the prefabricated brush shaft case 888;

The prefabricated brush shaft case 888 is coupled to the other side of the material separation container 100 by a prefabricated brush shaft case assembly 881 composed of a bolt and a nut;

The brush shaft poly 806 is configured at the other side of the brush shaft 98;

A drive motor 800 is provided on the outside of the material separation container 100 to exert an effect of constituting the brush shaft poly 806;

The drive motor 800 is coupled to be operated by a separate control system (not shown) configured separately;

A driving pulley 802 is configured at one side of the driving motor 800, and a driven pulley 803 is formed at the upper side of the driving pulley 802 by a support provided to adjust tension and spacing of the double-sided belt 805. with;

The driven poly 803 is provided with a double-sided belt 805 is coupled to cross the upper and lower portions of each of the brush shaft pulleys 806 of the material separation compartment 902;

The driving motor 800 continuously operates the brush 99 and the lower layer brush 96 which are continuously coupled to the double-sided belt 805 and the driving pulley 802 and the material separation container 100. Agitating seawater, fresh water, or wastewater, sewage, tap water, liquor, beverages, or flowable food flowing into the material separation compartment 902 to continuously generate material explosion and material friction action;

A lower layer brush 96 is formed in the lower space of the water flow diffusion compartment 988 so as to strike and separate the fluid material molecules passing through the water flow diffusion passage 999 again;

The lower layer brush 96 is configured with a white paper on one side and the other side of the material separation container 100 using a lower layer brush shaft (not shown) coupled with a mechanicasil exerts a watertight action;

One side of the lower layer brush 96 is configured with a driven poly (not shown)

By using a double-sided belt (not shown) configured on both sides between the driven pulley (not shown) configured on one side of the shaft of the lower layer brush 96 and the drive pulley 802 configured on the drive motor 800. Coupled with the transmission of power;

The outlet 900 is coupled to the discharge valve 901 on one side of the lower end of the material separation container 100 to adjust the discharge of seawater or fresh water or alcohol or beverage or liquid food discharged to the material separation container 100. with;

The upper end of the material separation container 100 is sealed with a closed plate (903);

After forming a through hole 747 in the middle of the sealed plate 903, a coupling pipe 745 is installed on an upper portion of the through hole 747, and then a first gravity generating pipe 746 in the coupling pipe 745. And a plurality of gravity pipes 744 are installed;

The first gravity pipe 746 and the upper portion of the gravity pipe 744 constitutes a collecting chamber 733 for collecting the suspended substances overflowing the first gravity pipe 746 and the gravity pipe 744. After installing the collecting pipe 711 at the lower end of the collecting compartment 733, the lower end of the collecting pipe 711 constitutes the collecting port 700 to collect the suspended solids overflowing into the collecting unit 733 With collecting;

An upper portion of the first gravity pipe 746 is provided with an inflow pipe 9 for introducing fresh water, sea water, sewage, or drinking water, waste water, liquor, beverage, or flowable food, and the upper portion of the inflow pipe 9 is seawater. Or an inlet control valve 77 for fresh water or alcohol or beverage or flowable food;

One end of the inflow pipe (9) is provided with a pressure pump (78) so that the first gravity force to force the material explosion action and material friction action of the sea water or fresh water or sewage water or waste water or liquor or beverage or flowable food Fresh water, seawater, liquor, beverages, or flowable foods are introduced into the material separation unit 902 through a pipe 746 to allow the material purification barrel 100, the first gravity pipe 746, and a gravity pipe 744 to flow. At the same time

The brush 11 and the lower layer brush 96 are operated to generate a material explosion action and material friction to separate pollutant molecules mixed with sewage and clean water molecules by the action of gravity, or contaminant molecules bonded to fresh water. Reminding them to emanate from fresh water, to seawater and salt components combined with seawater, to emanate from seawater, or to allow light weight substances in alcoholic beverages, beverages, or liquid foods to escape from alcoholic beverages, beverages, or liquid foods. Generating mass friction and explosive action generated by the brush 99 and the bottom brush 96 for 10 minutes to 480 hours;

The contaminant molecules combined with fresh water and the contaminant molecules mixed with fresh water by the action of the brush 99 and the lower layer brush 96 and the seawater component and salt combined with seawater Inflow pipe (9) such that the components or the harmful substances having a low specific gravity contained in alcohol, beverages or liquid foods are automatically floated to the upper portion of the first gravity pipe 746 and the gravity pipe 100 by the action of gravity. Continuous inflow of fresh water or sewage or wastewater or seawater or 100% of alcohol, beverages, or liquid foods introduced into the material separation compartment 902 and

 70% to 99.999% of the discharge amount of fresh water or sea water or alcohol or beverage or liquid food discharged by adjusting the discharge control valve 901 which is coupled to the discharge port 900 configured at the lower part of the material separation compartment 100. When the bay is discharged, the collection compartment 733 is opened after the remaining 0.001% to 30% of fresh water, sea water, alcohol, beverage, or liquid food overflows the upper end of the low water level of the first gravity pipe 746 and the gravity pipe 744. To purify polluted fresh water or to clean up seawater by collecting and removing inorganic or organic suspended solids that are lightly separated from fresh water, sea water, alcohol, beverages, or liquid food. Extract pollutant molecules in fresh water or pollutants in fresh water and use them as energy or clean the fresh water contaminated May be used as drinking water for clean seawater molecules released from seawater molecules, or as ballast water filled in vessels by purifying seawater, or used as seawater for salt production by collecting seawater and salt components released from seawater molecules; or Purify salt water to make salt substitute food, or sewage or waste water or fresh water or salt water, or prepare food additives that can be eaten by purifying salt water, or mix salt water components collected by stirring salt water to salt water It can be used as energy by using mineral or organic materials collected from sea water or by using organic materials, or by removing harmful light substances in liquor, making alcohol or liquidity such as soy sauce, miso, ketchup or red pepper paste. Food and Wu And the method of manufacturing salt water for producing beverages and liquid foods by removing harmful substances contained in vinegar and beverages, the method of preparing ballast water for ships, and the method of preparing seawater as salt substitute foods; The method of manufacturing fresh water into sea water using the seawater ingredients, the method of purifying sewage or waste water or fresh water or sea water, the method of processing energy from fresh water or sea water, and the process of preparing alcohol by removing lightly harmful substances The present invention provides a method for preparing food by removing liquid foods such as soy sauce, red pepper paste or miso, and harmful substances contained in milk, vinegar and beverages, and a water purifying apparatus applied thereto.

When the water purifying apparatus according to each embodiment of the present invention configured as described above is operated by the material explosion and the action of the material friction and the action of gravity, the action of the automatic separation of the material molecules by fresh water or sea water or alcohol or beverage or It is possible to precisely isolate various harmful substances in light weight foods.

Condensation of the seawater components, which are automatically separated by gravity, makes it possible to make salt substitute food additives and salt substitute salts, which are essential in modern society, at a low price, thus eliminating the need for expensive salts.

At the same time, using the water purification device of the simple structure proposed in the present invention has an effect that can be quickly and cheaply produced the purified water ballast water required by the vessel.

In addition, it is possible to produce clean salt with pure ingredients because the seawater supplied when making salt can be purified and supplied.

In addition, it is possible to extract very small amounts of energy contained in seawater very simply, which has the effect of producing infinitely the energy needed in modern society.

In addition, by using the water purifying apparatus proposed in the present invention, it is possible to remove harmful substances such as hissley and acetaldehyde, which are lighter in weight than ethyl alcohol contained in alcohol, through a simple process.

Conventionally, it has been removed only by storing for a long time, but by using the water purifying apparatus of the present invention, alcohol can be prepared at a low price because it can be easily removed by removing harmful substances contained in alcohol.

.

In addition, by using the water purifying apparatus proposed in the present invention, it is possible to simply remove harmful substances having a low specific gravity contained in alcohol, beverages, or liquid foods, which were previously impossible to remove.

In other words, since it is possible to simply remove the harmful substances in light liquids such as milk and beverages or liquid foods such as soy sauce, soybean paste or red pepper paste, it is effective to help the public health of those foods that have removed harmful substances.

Next, a third embodiment of the present invention will be described.

7 is a sectional perspective view of a crimping frame constructed in accordance with a third embodiment of the present invention;

8 is a cross-sectional perspective view of a dilution apparatus applied to a third embodiment of the present invention;

FIG. 10 is a perspective view of a water purification device constructed in accordance with the second and third embodiments of the present invention, FIG. 11 is a sectional perspective view of contaminated water molecules found by the inventors while studying water, and FIG. A cross-sectional perspective view of seawater molecules found while studying water.

After the circular dilution vessel 200 is formed and the reducer seat 205 is configured on the upper side of the dilution vessel 200, the reducer 202 coupled with the motor is installed on the reducer seat 205 and the reducer ( After combining the rotating brush shaft 203 with the rotating brush shaft 203, the rotating brush 201 is configured;

Combining the discharge port 207 and the discharge valve 208 to one side of the lower end of the dilution vessel 200, and configured;

In addition to configuring the pressing frame 311 is formed through the hole 351 in the pressing frame frame 500;

With a non-woven fabric (322) such as cloth in the inside of the crimping frame (311);

The hydraulic cylinder 325 coupled with the hydraulic cylinder rod 326 is coupled to the upper portion of the pressing frame frame 500 using the white paper 327;

Coupled to the cylinder plate 326 to the pressing plate (323);

At the lower end of the pressing plate 311, the collecting plate 335 for collecting the fluid material generated when the pressing plate 311 is pressed together with the zoom;

One side of the collection container 335 읠 together with the discharge pipe 333 coupled to the discharge control valve 331;

After the food waste is put into the dilution vessel 200 configured as described above, water 5-30 wt% is additionally added, and then the rotary brush 201 is operated for 5 to 60 minutes to dilute food waste and water. With handful;

Diluting the diluted food waste mixture 385 into the pressing mold 311;

Operating the hydraulic cylinder 325 such that the food waste mixture 385 filled in the pressing frame 311 is compressed;

Collecting water, salt components and other fluid components generated by the pressing force of the hydraulic cylinder 325 using the collection container 335;

Drying the food wastes from which the salts and other contaminants removed from the food wastes are made into a feed or a fertilizer;

Separating the first gravity pipe 746 and the material by using the pressure pump 78 for the fluid material consisting of salt components and contaminant components released from the food waste contained in the collection container 335 using the pressure pump 78 An environmentally friendly food waste treatment method is characterized by purifying with clean water using the brush 99 and the lower layer brush 96 and the material separation container 100 provided with a compartment 902.


Next, a fourth embodiment of the present invention will be described.

Fig. 13 is a perspective view of a water purifying apparatus constructed according to the fourth embodiment of the present invention.

 One side into which the fluid is introduced into the rectangular shape is high, and the other side from which the fluid is discharged is configured to be low, and the material separation container 100 having a water purification function is provided. Block the other side to constitute the first material separation plate 777, but the lower portion

The primary material separation compartment 903 is provided with a water flow diffusion passage 999 in an open form so that the fluid substances flowing into the first material separation compartment 903 can be easily moved to the second material separation compartment 904. With);

At the end of the first material separation plate 777

A microwave vibrator 995 for generating an electromagnetic wave that continuously explodes the molecular structure of the material molecule to continuously generate a material explosion action and a material friction action;

After forming the first gravity generating pipe 812 in the shape of a quadrangle on the upper portion of the first material separation compartment 903, one end of the upper portion of the first gravity generating pipe 812 has a low specific gravity fluids With the overflow port 712 configured to naturally overflow;

With the configuration of the collecting port 700 for collecting the light-weight fluid materials on one end side of the first gravity pipe (812);

A fluid having a low specific gravity overflowing the overflow hole 712 formed in the first gravity pipe 812 by forming a collecting pipe 711 between the overflow hole 712 and the collecting hole 700. With transporting the sex material to the collection port 700;

The upper end of the first gravity pipe 812 is composed of a pressure pump 78 to the inlet pipe 9 and the inlet control valve 77 for introducing the fluid material to the material separation tube 100 continuously With introducing fluid materials;

Separating the second material by interposing the inner bottom portion and one side of the front portion and the other side of the material separation vessel 100 in the next space of the primary material separation compartment 903 provided in the material separation vessel 100 Installing a plate 909 to configure the secondary material separation compartment 904;

An upper portion of the secondary material separator plate 909 has a fluid movement passage at a constant height such that fluid materials moved from the secondary material separator compartment 904 can move to the third material separator compartment 905. 908 to comprise the secondary material separation compartment 904;

An inclined water flow guide plate 996 is formed on the upper portion of the second material separation compartment 904 to seal an upper portion of the second material separation compartment 904 and at the same time, the second material separation compartment 904. With fluid fluids moving in the second material separation compartment 904 to easily move to the third material separation compartment 905 without remaining in the second material separation compartment 904;

A microwave vibrator 995 is provided on the secondary material separation plate 909 to generate an electromagnetic wave that explodes the molecular structure of the material molecule to continuously generate a material explosion action;

In the next space of the second material separation compartment 904, a third material separation plate 778 is formed by intercepting one side of the front part and the other of the rear part of the inside of the material separation container 100, and separating the fourth material at the lower part. The third material separation compartment 905 is provided with a water flow diffusion passage 999 in the form of an open lower end so that the fluid substances flowing into the compartment 906 can be easily moved to the fourth material separation compartment 906. Together with;

At the lower end of the third material separation plate 778

A microwave oscillator 995 is provided to generate electromagnetic waves that continuously explode the molecular structure of the material molecules, thereby generating material explosion and material friction actions continuously;

After forming the second gravity generating pipe 813 in the form of a quadrangle on the upper portion of the third material separation compartment 905, one end of the upper portion of the second gravity generating pipe 813 has light weight specific gravity fluids. With the overflow port 712 configured to naturally overflow;

With the configuration of the collecting port 700 for collecting the light-weight fluid materials on one end side of the second gravity pipe (813);

A fluid having a low specific gravity overflowing the overflow hole 712 formed in the second gravity pipe 813 by forming a collecting pipe 711 between the overflow hole 712 and the collecting hole 700. With transporting the sex materials to the collection port 700;

The fourth material separation plate is formed in the next space of the third material separation compartment 905 provided in the material separation container 100 so as to intersect the inner bottom part and one side of the material separation part 100 and the other side of the rear part of the material separation container 100. 779 is installed to configure the fourth material separation compartment 906 and the fifth material separation compartment 907;

An upper portion of the fourth material separation plate 779 has a fluid movement passage at a constant height so that the fluid materials moved from the fourth material separation compartment 906 may move to the fifth material separation compartment 907. 908 with;

An inclined water flow guide plate 996 is formed on the fourth material separation compartment 906 to seal an upper portion of the fourth material separation compartment 906 and at the same time, the fourth material separation compartment ( With fluid fluids moved in 906 to easily move to the fifth material separator 907 without remaining stagnant in the fourth material separator 906;

A microwave vibrator 995 is provided on the fourth material separation plate 779 to generate electromagnetic waves that continuously explode the molecular structure of the material molecules, thereby generating material explosion and material friction effects continuously. ;

After forming the third gravity generating pipe 814 in the form of a square on the upper end of the fifth material separation compartment 906, one end of the upper portion of the third gravity generating pipe 814 is a light weight specific fluid With the overflow port 712 configured to naturally overflow;

With the configuration of the collecting port 700 for collecting the light-weight fluid materials on one end side of the third gravity pipe (814);

A fluid having a low specific gravity overflowing the overflow hole 712 formed in the third gravity pipe 814 by forming a collecting pipe 711 between the overflow hole 712 and the collecting hole 700. With transporting the sex material to the collection port 700;

The first, second, third, fourth, and fifth material separation compartments 903, 904, 905, 906, and 907 provide a plurality of brushes 99 using the brush shaft 98.

The shaft 98 of the brush is connected to the driving motor by a double-sided belt connected to the driven poly and the driving poly, and continuously rotates in seawater or fresh water or wastewater or sewage or tap water which flows into the material physical container 100. Or by stirring liquor, beverages or liquid foods to continuously generate mass explosion and mass friction;

The outlet 900 is coupled to the discharge valve 901 on one side of the lower end of the material separation container 100 to adjust the discharge of seawater or fresh water or alcohol or beverage or liquid food discharged to the material separation container 100. with;

The brush 99 is continuously operated to generate a material explosion and material friction to separate pollutant molecules mixed with sewage and clean water molecules by the action of gravity, or contaminant molecules bound to fresh water are separated from fresh water. Or the salt and salt components combined with sea water to be released from the sea water, or the light weight substances contained in alcohol, beverages or liquid foods to escape from alcohol, beverages or liquid foods. Generating mass friction and mass explosion action generated by the rotation and microwave oscillator 995 for 5 minutes to 4800 hours;

The contaminant molecules combined with fresh water and the contaminant molecules mixed with fresh water by the action of the brush 99 and the microwave vibrator 995 and the seawater components combined with the seawater The salts and / or lightly hazardous substances in alcohol, beverages or liquid foods may be

60% to 99.9999999% of the discharge of fresh water or sea water or alcohol or beverage or liquid food discharged by adjusting the discharge control valve 901 which is coupled to the discharge port 900 configured at the lower portion of the material separation container 100. When discharged from the bay, the remaining 0.000001% to 40% of fresh water or seawater, or light weight harmful substances released from fluids such as alcoholic beverages or beverages or liquid foods, may be used to overflow the overflow hole 712. By collecting and removing inorganic or organic suspended solids, which are light in weight, to purify polluted fresh water, to clean up seawater, or to pollutant molecules in fresh water or pollutants in fresh water. Clean seawater molecules that are extracted and used as energy, clean water contaminated fresh water, or come out of seawater molecules It is used as drinking water or as ballast water filled with water by purifying seawater, or by collecting seawater and salt from seawater molecules and using them as seawater for salt production, or by treating seawater to make salt substitute food, or Prepare food additives to clean sewage or waste water or fresh water or seawater, or to prepare saltwater, or to prepare freshwater by mixing saltwater components collected by stirring the saltwater into freshwater, or to collect the saltwater from inorganic materials Using alcohol and organic substances to make energy, or removing lightly harmful substances contained in alcohol, make alcohol, liquid foods such as soy sauce, soybean paste, ketchup or red pepper paste, and harmful substances in milk, vinegar and beverage Drinks by removing substances And a method for manufacturing salt water for producing a liquid food, a method for producing ballast water for ships, a method for preparing seawater as a salt substitute food, and a method for preparing fresh water using seawater components, and The method of purifying sewage or waste water or fresh water or sea water, the method of obtaining energy by processing fresh water or sea water, the method of preparing alcohol by removing light substance with a low specific gravity, and the liquid food such as soy sauce, red pepper paste or miso, milk and vinegar And a method for manufacturing food by removing harmful substances in drinks and water purifiers.

Next, a fifth embodiment of the present invention will be described.

14 is a perspective view of a water purifier constructed in accordance with a fifth embodiment of the present invention.

One side into which the fluid is introduced into the rectangular rectangle is configured to be high by using the supporter 101, and the other side to which the fluid is discharged to be configured by the lower side is provided with a material separation container 100 to perform the water purification function while the fluid materials flow down naturally. The first material separation plate and the fluid diffusion plate 501 may be formed by interposing one side of the front part and the other side of the rear part of the material separation container 100 to form a first material separation plate and the fluid diffusion plate 501. The front part is fixed to one side and the other side of the material separation tube 100 in a form inclined slightly backward to form a first material separation compartment 882,

On the back of the first material separation plate and the fluid diffusion plate 501, the harmful substances contained in the fluid materials flowing into the first material separation compartment 882 and the fluid materials having a low specific gravity are brushes 99. Due to the gravity action and the diffusion of air generated by the air generating device 102, the gravity-bearing fluids that are separated from the fluids by the material friction action and the material explosion action generated by the rotational force of The fluid diffusion plate 816 is configured again in the form of an isosceles triangle (<) so as to easily move to the upper portion of the first material separation compartment 882 configured in the material separation vessel 100. together;

The lower portion of the first material separation plate and the fluid diffusion plate 501 has a first lower-layer moving passage 810 to facilitate the movement of the fluid substances flowing into the material separation cylinder 100, the material separation cylinder 100 With the configuration across one and the other side of the;

The first material separation compartment 882 comprises a plurality of brushes 99 penetrating through one side and the other side of the material separation cylinder 100 using the shaft 98 of the brush;

The lower end of the first material separation compartment 882 constitutes an air injector 102 for injecting air, and the fluid is formed by the rotational force of the brush 99 formed in the first material separation compartment 882. Exerts a function of raising the harmful substances having a low specific gravity leaving the material substance to the upper portion of the first material separation compartment 882;

An overflow hole 712 is formed in the upper portion of the first material separation compartment 882 so that fluid materials having a light specific gravity overflow;

The middle portion of the first material separation compartment 882 is provided with a collecting tank 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting cylinder ( With the connection between the 700 using a collecting pipe 711;

The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

An inlet control valve constituting an inlet pipe 9 for introducing various kinds of fluid substances at the upper portion of the first material separation compartment 882 and controlling an inflow amount at one end of the inlet pipe 9. 77) with constitution;

The inlet pipe (9) is configured with a pressure pump (78) for introducing the inflowing fluid substances;

In the next space of the first material separation compartment 882

The second material separation plate and the fluid diffusion plate 502 constitute the second material separation plate and the fluid diffusion plate 502 by interposing one side of the front part and the other side of the rear part of the material separation container 100, and the front part of the first material separation plate and the fluid diffusion plate 502. It is fixed to one side and the other side of the material separation container 100 in a slightly inclined form to form a second material separation compartment (883),

On the back of the second material separation plate and the fluid diffusion plate 502, the harmful substances contained in the fluid materials flowing into the second material separation compartment 883 and the fluid materials having a low specific gravity are included in the brush 99. Due to the gravity action and the diffusion of air generated by the air generating device 102, the gravity-bearing fluids that are separated from the fluids by the material friction action and the material explosion action generated by the rotational force of The fluid diffusion plate 816 is configured again in the form of an isosceles triangle (<) so as to easily move to the upper portion of the second material separation compartment 883 configured in the material separation vessel 100. together;

The lower portion of the second material separation plate and the fluid diffusion plate 502 has a second bottom layer moving passage 811 to facilitate the movement of the fluid substances flowing into the material separation cylinder 100, the material separation cylinder 100 With the configuration across one and the other side of the;

The second material separation compartment 883 includes a plurality of brushes 99 penetrating through one side and the other side of the material separation tube 100 using the axis 98 of the brush;

The lower end of the second material separation compartment 883 constitutes an air injector 102 for injecting air, and the fluid is formed by the rotational force of the brush 99 formed in the second material separation compartment 883. Exerts a function of raising the harmful substances having a low specific gravity leaving the material substance to the upper portion of the second material separating compartment 883;

An overflow hole 712 is formed in the upper portion of the second material separation compartment 883 so that fluid materials having a low specific gravity overflow;

The middle portion of the second material separation compartment 883 is provided with a collecting tank 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting cylinder ( With the connection between the 700 using a collecting pipe 711;

The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space of the second material separation compartment (883)

The front side of the third material separation plate and the fluid diffusion plate 503 constitutes a third material separation plate and the fluid diffusion plate 503 by intercepting one of the front and one rear part of the inside of the material separation container 100. Fixed to one side and the other side of the material separation tube 100 in a slightly inclined form to form a third material separation compartment 884,

On the back of the third material separation plate and the fluid diffusion plate 503, the harmful substances contained in the fluid materials flowing into the third material separation compartment 884 and the fluid materials having a low specific gravity are brushes 99. Due to the gravity action and the diffusion of air generated by the air generating device 102, the gravity-bearing fluids that are separated from the fluids by the material friction action and the material explosion action generated by the rotational force of The fluid diffusion plate 816 is configured again in the form of an isosceles triangle (<) so as to easily move to the upper portion of the third material separation compartment 884 configured in the material separation container 100. together;

The lower portion of the third material separating plate and the fluid diffusion plate 503 has a third low-layer moving passage 812 to facilitate the movement of the fluid materials flowing into the material separating container 100. With the configuration across one and the other side of the;

The third material separation compartment 884 includes a plurality of brushes 99 penetrating through one side and the other side of the material separation tube 100 using the brush shaft 98;

The lower end of the third material separation compartment 884 constitutes an air injector 102 for injecting air, and the fluid is generated by the rotational force of the brush 99 formed in the third material separation compartment 884. Exerts a function of raising the harmful substances having a low specific gravity leaving the material substance to the upper portion of the third material separating compartment 884;

An overflow hole 712 is formed in the upper portion of the third material separation compartment 884 to overflow the fluid materials having a light specific gravity;

The middle portion of the third material separation compartment 884 is provided with a collecting tank 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting cylinder ( With the connection between the 700 using a collecting pipe 711;

The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space of the third material separation compartment 884

The first material separation plate and the fluid diffusion plate 504 constitute the fourth material separation plate and the fluid diffusion plate 504 by interposing one side of the front part and the other side of the rear part of the material separation container 100. It is fixed to one side and the other side of the material separation tube 100 in a slightly inclined form to form a fourth material separation compartment 885,

On the back of the fourth material separation plate and the fluid diffusion plate 504, the brushes 99 are formed of harmful substances contained in the fluid materials flowing into the fourth material separation compartment 885 and light materials having a low specific gravity. Due to the gravity action and the diffusion of air generated by the air generating device 102, the gravity-bearing fluids that are separated from the fluids by the material friction action and the material explosion action generated by the rotational force of The fluid diffusion plate 816 is configured again in the form of an isosceles triangle (<) so as to easily move to the upper portion of the fourth material separation compartment 885 configured in the material separation vessel 100. together;

A lower end portion of the fourth material separating plate and the fluid diffusion plate 504 has a fourth lower-layer moving passage 813 to facilitate the movement of the fluid substances flowing into the material separating tube 100. With the configuration across one and the other side of the;

The fourth material separation compartment 885 includes a plurality of brushes 99 penetrating through one side and the other side of the material separation tube 100 using the brush's shaft 98;

The lower end of the fourth material separation compartment (885) constitutes an air injector 102 for injecting air to the fluid by the rotational force of the brush 99 is configured in the fourth material separation compartment (885) Exerts a function of raising the harmful substances having a low specific gravity leaving the substance to the upper portion of the fourth material separation compartment 885;

An overflow hole 712 is formed in the upper portion of the fourth material separation compartment 885 so that fluid materials having a low specific gravity overflow;

A middle portion of the fourth material separation compartment 885 is provided with a collecting vessel 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, and the overflow opening 712 and the collecting vessel ( With the connection between the 700 using a collecting pipe 711;

The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space of the fourth material separation compartment (885)

A fifth material separation plate and a fluid diffusion plate 505 may be formed by intercepting one side of the front part and the other side of the rear part of the material separation container 100, and the front part of the fifth material separation plate and the fluid diffusion plate 505. The fifth material separation compartment 886 is fixed by fixing to one side and the other side of the material separation tube 100 in a slightly inclined form.

On the back of the fifth material separation plate and the fluid diffusion plate 505, the harmful substances contained in the fluid materials flowing into the fifth material separation compartment 886 and the fluid materials having a low specific gravity are brushes 99. Due to the gravity action and the diffusion of air generated by the air generating device 102, the gravity-bearing fluids that are separated from the fluids by the material friction action and the material explosion action generated by the rotational force of The fluid diffusion plate 816 is configured again in the form of an isosceles triangle (<) so as to easily move to the upper portion of the fifth material separation compartment 886 configured in the material separation vessel 100. together;

A fifth lower layer moving passage 814 is provided at a lower portion of the fifth material separating plate and the fluid diffusion plate 505 to facilitate the movement of the fluid substances introduced into the material separating container 100. With the configuration across one and the other side of the;

The fifth material separation compartment 886 includes a plurality of brushes 99 penetrating through one side and the other side of the material separation tube 100 using the shaft 98 of the brush;

The lower end of the fifth material separation compartment 886 constitutes an air injector 102 for injecting air, and the fluid is formed by the rotational force of the brush 99 formed in the fifth material separation compartment 886. Exerts a function of raising the harmful substances having a low specific gravity leaving the substance to the upper portion of the fifth material separating compartment 886;

The overflow layer 712 is formed in the upper portion of the fifth material separation compartment 886 so that the fluid materials having a light specific gravity overflow.

The middle portion of the fifth material separation compartment 886 is provided with a collecting tank 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting cylinder ( With the connection between the 700 using a collecting pipe 711;

The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space of the fifth material separation compartment 886

The front side of the sixth material separation plate and the fluid diffusion plate 506 constitutes a sixth material separation plate and the fluid diffusion plate 506 by intercepting one side of the front part and the other side of the rear part of the material separation container 100. A sixth material separation compartment 887 and a seventh material separation compartment 906 are fixed to one side and the other side of the material separation tube 100 in a slightly inclined form,

On the back of the sixth material separation plate and the fluid diffusion plate 506, the harmful substances contained in the fluid materials flowing into the sixth material separation compartment 887 and the fluid materials having a low specific gravity are brushes 99. Due to the gravity action and the diffusion of air generated by the air generating device 102, the gravity-bearing fluids that are separated from the fluids by the material friction action and the material explosion action generated by the rotational force of The fluid diffusion plate 816 is configured again in the form of an isosceles triangle (<) so as to easily move to the upper portion of the sixth material separation compartment 887 configured in the material separation vessel 100. together;

A sixth lower portion moving passage 815 is provided at a lower portion of the sixth material separation plate and the fluid diffusion plate 506 to facilitate the movement of the fluid substances introduced into the material separation tube 100. With the configuration across one and the other side of the;

In the sixth material separation compartment 887 and the seventh material separation compartment 906, a plurality of brushes 99 are penetrated through one side and the other side of the material separation tube 100 using the shaft 98 of the brush. With structuring;

The sixth material separation compartment 887 and the seventh material separation compartment 906 constitute an air injector 102 for injecting air at the lower ends of the sixth material separation compartment 887 and the seventh material separation compartment 887. Harmful substances having a low specific gravity coming out of the fluid material by the rotational force of the brush 99 constituted in the material separation compartment 906 are separated from the sixth material separation compartment 886 and the seventh material separation compartment 906. Exerts an action of raising to the upper layer of the;

An overflow hole 712 is formed in the upper portion of the sixth material separation compartment 886 and the seventh material separation compartment 906 to overflow the fluid materials having a light specific gravity;

A middle portion of the sixth material separation compartment 887 and the seventh material separation compartment 906 is provided with a collecting container 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712. It is connected between the overflow port 712 and the collection container 700 by using a collection pipe 711;

The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

One side of the seventh material separation compartment 906 is provided with a discharge pipe 900 for discharging the pure fluid material processed in the material separation container 100 and one end of the discharge pipe (100) With a zoom to configure the discharge control valve 901 for controlling the discharge discharged from the;

The shaft 98 of the brush configured in each of the material separation compartments is connected to a drive motor (not shown) configured outside of the material separation container 100 and a drive pulley (not shown) and belt or After connecting to the chain after the process of operating the brush (99) for about 5 minutes to 4800 hours hitting the fluid substances introduced into the material separation container of the material separation container 100 Discharge only 55% ~ 99.999999999% of the discharge of fluid or liquid foods such as fresh water or sea water or alcohol or beverage discharged by adjusting the discharge control valve 901 coupled to the discharge port 900 configured at the bottom The excess openings 712 are made up of the remaining harmful substances released from the remaining 0.00000001% to 45% of fresh water or seawater, or fluids such as alcohol, beverages or liquid foods. How to collect or remove the inorganic material or organic material suspended solids with a light specific gravity by using the method of collecting the fluid materials overflowing or overflowing the overflow port 712 using the collection port 9700 To clean up contaminated fresh water, to clean up seawater, to extract pollutant molecules in sewage or pollutants in fresh water, to use them as energy, to clean contaminated fresh water cleanly, or to escape from seawater molecules. Clean seawater molecules are used as drinking water or seawater is used as ballast water to fill the vessel, or seawater and salt components collected from the seawater molecules are collected and used as seawater for salt production, or seawater is purified to replace salt. To make or to sewage or wastewater or Preparing food additives to purify water or sea water, or to clean sea water, or to prepare fresh water by mixing salt water components collected by stirring the sea water in fresh water, or inorganic and organic substances collected from sea water. It can be used as energy for energy use or to remove harmful substances in light liquor, to make alcohol or to remove liquid substances such as soy sauce, soybean paste, ketchup or red pepper paste, and harmful substances in milk, vinegar and beverage A method of manufacturing salt water for producing beverages and liquid foods, a method of manufacturing ballast water for ships, a method of manufacturing seawater as a salt substitute, and a method of preparing fresh water using seawater components Purifying sewage or wastewater or fresh water or seawater Is a method of obtaining energy by processing fresh water or sea water, and a method of preparing alcohol by removing lightly harmful substances, and liquid foods such as soy sauce, red pepper paste or miso, and harmful substances contained in milk, vinegar and beverages. The process for preparing food and the water purifier applied to it are presented.

The configuration and structure of the drive motor and the drive pulley applied to the present invention may use a well-known technique, and thus the detailed structure drawings are omitted.

Next, a sixth embodiment of the present invention will be described.

15 is a perspective view of the water purifying apparatus constructed according to the sixth embodiment of the present invention.

One side into which the fluid is introduced into the lozenge is configured high by using the support 101 and the other side through which the fluid is discharged is low, so that the fluid materials naturally flow down to the low place to exert a water purification function (100). ),

The first material separation plate and the water flow diffusion plate 701 constitute the first material separation plate and the water flow diffusion plate 701 by intercepting one side of the front part and the other rear part of the inside of the material separation container 100. It is fixed to one side and the other side of the material separation tube 100 in the form of inclined back slightly (<) to constitute a first material separation compartment 301,

At the lower end of the first material separation plate and the water flow diffusion plate 701, the harmful substances contained in the fluid materials flowing into the first material separation compartment 301 and the fluid materials having a low specific gravity are brushes 99. Due to the gravity action and the diffusion of air generated by the air generating device 102, the gravity-bearing fluids that are separated from the fluids by the material friction action and the material explosion action generated by the rotational force Clean material molecules having a heavy effect and a high specific gravity that are easily moved to the upper layer of the first material separation compartment 301 of the material separation container 100 are discharge ports formed at one lower end of the material separation container 100. The water flow diffusion plate 817 is formed across the one side and the other side of the material separation tube 100 in a triangular form (<△) slightly lifted to move quickly to the 900 and the water at the same time The first material separation compartment 301 and the second material separation compartment 302 may be configured by configuring the first lower-layer moving passage 5011 to facilitate the movement of the fluid substances introduced into the separator 100. with;


The first material separation compartment 301 comprises a plurality of brushes 99 penetrating through one side and the other side of the material separation tube 100 using the shaft 98 of the brush;

The lower end of the first material separation compartment 301 constitutes an air injector 102 for injecting air, and the rotational force of the brush 99 configured in the first material separation compartment 301 is used. Exerts a function of raising the harmful substances having a light weight from the fluid material flowing into the material separating compartment 304 to the upper portion of the first material separating compartment 301;

The overflow layer 712 is formed in the upper portion of the first material separation compartment 301 so that fluid materials having a light specific gravity overflow.

In the middle portion of the first material separation compartment 301 is provided with a collecting tank 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting cylinder ( With the connection between the 700 using a collecting pipe 711;

The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space of the first material separation compartment 301

The second material separation plate and the water diffusion plate 702 are formed by interposing one side of the front part and the other side of the rear part of the material separation tube 100 to form a second material separation plate and the water flow diffusion plate 702. The second material separation compartment 302 is fixed by fixing to one side and the other side of the material separation tube 100 in a slightly inclined form (<),

At the lower end of the second material separation plate and the water flow diffusion plate 702, the harmful substances contained in the fluid materials flowing into the first material separation compartment 302 and the fluid materials having a low specific gravity are brushes 99. Due to the gravity action and the diffusion of air generated by the air generating device 102, the gravity-bearing fluids that are separated from the fluids by the material friction action and the material explosion action generated by the rotational force of Clean material molecules having a heavy effect and a high specific gravity that easily move to the upper layer of the second material separation compartment 302 formed in the material separation container 100 are discharge ports formed at one lower end of the material separation container 100. The water flow diffusion plate 817 is formed across the one side and the other side of the material separation tube 100 in a triangular form (<△) slightly lifted to move quickly to the 900 and the water at the same time In order to facilitate the movement of the fluid substances introduced into the separator 100, the second lower-layer moving passage 5022 is configured to configure the second material separator 302 and the third material separator 303. ;

The second material separation compartment 302 comprises a plurality of brushes 99 penetrating through one side and the other side of the material separation cylinder 100 using the shaft 98 of the brush;

The lower end of the second material separation compartment 302 constitutes an air injector 102 for injecting air, and the rotational force of the brush 99 is formed in the second material separation compartment 302. Exerts an action of raising the harmful substances having a light weight from the fluid material flowing into the material separation compartment 304 to the upper portion of the second material separation compartment 302;

The overflow layer 712 is formed in the upper portion of the second material separation compartment 302 to overflow the fluid materials having a light specific gravity;

The middle portion of the second material separation compartment 302 is provided with a collecting tank 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting cylinder ( With the connection between the 700 using a collecting pipe 711;

The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;


In the next space of the second material separation compartment 302

The third material separation plate and the water flow diffusion plate 703 are formed by intercepting one side of the front part and the other side of the rear part of the material separation container 100, and the rear part of the third material separation plate and the water flow diffusion plate 703. It is fixed to one side and the other side of the material separation tube 100 in the form inclined slightly (<) to constitute a third material separation compartment 303,

At the lower end of the third material separation plate and the water flow diffusion plate 703, the harmful substances contained in the fluid materials flowing into the second material separation compartment 302 and the fluid materials having a low specific gravity are brushes 99. Due to the gravity action and the diffusion of air generated by the air generator 102, Clean material molecules having a heavy effect and a high specific gravity that easily move to the upper layer of the third material separation compartment 303 formed in the material separation container 100 are discharge ports formed at one lower end of the material separation container 100. The water flow diffusion plate 817 is formed across the one side and the other side of the material separation tube 100 in a triangular form (<△) slightly lifted to move quickly to the 900 and the water at the same time The third material separation compartment 303 and the fourth material separation compartment 304 may be configured to configure the third lower-layer movement passage 5033 to facilitate the movement of the fluid substances introduced into the separation vessel 100. ;

The third material separation compartment 303 comprises a plurality of brushes 99 penetrating through one side and the other side of the material separation tube 100 using the shaft 98 of the brush;

The lower end of the third material separation compartment 303 constitutes an air injector 102 for injecting air, and the rotation force of the brush 99 formed in the third material separation compartment 303 causes the Entered into the material separation compartment 304

Exerts a function of raising the harmful substances having a low specific gravity leaving the fluid material to the upper portion of the third material separating compartment 303;

An overflow hole 712 is formed in the upper portion of the third material separation compartment 303 to overflow the fluid materials having a light specific gravity;

The middle portion of the third material separation compartment 303 is provided with a collecting tank 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting cylinder ( With the connection between the 700 using a collecting pipe 711;

The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space of the third material separation compartment 303

The fourth material separation plate and the water diffusion plate 704 and the fifth material separation plate 305 are formed by interposing one side of the front part and the other side of the rear part of the material separation container 100 to form the fourth material separation plate. The rear part of the cumulative water diffusion plate 704 is fixed to one side and the other side of the material separation tube 100 in a slightly inclined form (<) so that the fourth material separation compartment 304 and the fifth material separation compartment 305 are provided. Configure

At the lower end of the fourth material separation plate and the water flow diffusion plate 704, the harmful substances contained in the fluid materials flowing into the third material separation compartment 303 and the fluid materials having a low specific gravity are included in the brush 99. Due to the gravity action and the diffusion of air generated by the air generating device 102, the gravity-bearing fluids that are separated from the fluids by the material friction action and the material explosion action generated by the rotational force of Clean material molecules having a heavy weight and a function of easily moving to the upper layer portions of the fourth material separation compartment 304 and the fifth material separation compartment 305 formed in the material separation vessel 100 are the material separation vessel. A water flow diffusion plate across one side and the other side of the material separation tube 100 in a triangular form (<△) in which the rear portion is slightly lifted so as to quickly move to the outlet 900 configured at one lower end of the side (100) ( A fourth low-layer moving passage 5044 is configured to facilitate the movement of the fluid materials flowing into the material separation tube 100 at the same time as the zoom 817 and the fourth material separation compartment 304 and the fifth material. Configure the separator 305 with zoom;


In the fourth material separation compartment 304 and the fifth material separation compartment 305, a plurality of brushes 99 are penetrated through one side and the other side of the material separation tube 100 using the axis 98 of the brush. With structuring;

The fourth material separation compartment 304 and the fifth material separation compartment 305 constitute an air injector 102 for injecting air at the lower ends of the fourth material separation compartment 304 and the fifth material separation compartment 304. Specific gravity that is separated from the fluid material flowing into the fourth material separation compartment 304 and the fifth material separation compartment 305 by the rotational force of the brush 99 constituted in the material separation compartment 305 is Exerts a function of raising light hazardous substances to the upper portion of the fourth material separation compartment 304 and the fifth material separation compartment 305;

An overflow hole 712 is formed in the upper portion of the fourth material separation compartment 304 and the fifth material separation compartment 305 so that fluid materials having a low specific gravity overflow;

A middle portion of the fourth material separation compartment 304 and the fifth material separation compartment 305 is provided with a collecting container 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712. It is connected between the overflow port 712 and the collection container 700 by using a collection pipe 711;

The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space of the fourth material separation compartment 304

The fourth material separation plate and the water flow diffusion plate 704 constitute the fourth material separation plate and the water flow diffusion plate 704 by intercepting one side of the front part and the other rear part of the inside of the material separation container 100. The fourth material separation compartment 304 is configured by fixing to one side and the other side of the material separation cylinder 100 in a slightly inclined form (<),

At the lower end of the fourth material separation plate and the water flow diffusion plate 704, the harmful substances contained in the fluid materials flowing into the third material separation compartment 303 and the fluid materials having a low specific gravity are included in the brush 99. Due to the gravity action and the diffusion of air generated by the air generating device 102, the gravity-bearing fluids that are separated from the fluids by the material friction action and the material explosion action generated by the rotational force of Clean material molecules having a heavy effect and a high specific gravity that are easily moved to the upper layer of the fourth material separation compartment 304 formed in the material separation vessel 100 are discharge ports formed at one lower end of the material separation vessel 100. The water flow diffusion plate 817 is formed across the one side and the other side of the material separation tube 100 in a triangular form (<△) slightly lifted to move quickly to the 900 and the water at the same time The fourth material separation compartment 304 and the fifth material separation compartment 305 are configured to facilitate the movement of the fluid substances flowing into the separation vessel 100, and the fourth material separation compartment 304 is configured to be easily moved. ;

The fourth material separation compartment 304 comprises a plurality of brushes 99 penetrating through one side and the other side of the material separation cylinder 100 using the axis 98 of the brush;

The lower end of the fourth material separation compartment 304 constitutes an air injector 102 for injecting air, and the rotational force of the brush 99 is formed in the fourth material separation compartment 304. Exerts a function of raising the harmful substances having a low specific gravity coming out of the fluid material flowing into the material separating compartment 304 to the upper portion of the fourth material separating compartment 304;

An overflow hole 712 is formed in the upper portion of the fourth material separation compartment 304 so that fluid materials having a low specific gravity overflow;

The middle portion of the fourth material separation compartment 304 is provided with a collecting tank 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting cylinder ( With the connection between the 700 using a collecting pipe 711;

The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

The shaft 98 of the brush configured in each of the material separation compartments is connected to a drive motor (not shown) configured outside of the material separation container 100 and a drive pulley (not shown) and belt or The lower portion of the material separation container 100 during the process of continuously operating the brush 99 for 5 minutes to 48000 hours after hitting the chain and hitting the fluid substances introduced into the material separation container. By controlling the discharge control valve 901 is coupled to the discharge port 900 is configured to discharge the discharge of fluid food or liquid food, such as fresh water or sea water or alcohol or beverage only 55% ~ 99.999999999% When the remaining 0.00000001% to 45% of fresh water or seawater, or light weight substances released from fluids such as alcoholic beverages, beverages or liquid foods, 2) collecting or removing inorganic or organic suspended solids having a low specific gravity by using the method of collecting the fluid materials overflowing the overflow hole 712 or the overflow hole 712 using the collecting hole 700. To clean up contaminated fresh water or to clean up seawater, to extract pollutant molecules in sewage or pollutants in fresh water, to use them as energy, to clean contaminated fresh water cleanly, or Use clean seawater molecules that have escaped as drinking water, or use ballast water to fill the vessel by purifying seawater, or collect seawater and salt components that have escaped from seawater molecules, and use them as seawater for salt production, or by purifying seawater. Make salt substitutes or sewage or waste water or Prepare food additives to clean fresh water or sea water, or to clean sea water, or to prepare fresh water by mixing salt water components collected by stirring the sea water into fresh water, or to collect inorganic water and organic matter collected from sea water. It can be used as energy for energy use or to remove harmful substances in light liquor, to make alcohol or to remove liquid substances such as soy sauce, soybean paste, ketchup or red pepper paste, and harmful substances in milk, vinegar and beverage A method of manufacturing salt water for producing beverages and liquid foods, a method of manufacturing ballast water for ships, a method of manufacturing seawater as a salt substitute, and a method of preparing fresh water using seawater components Purify sewage or wastewater or fresh water or seawater Is a method of obtaining energy by processing fresh water or sea water, and a method of preparing alcohol by removing lightly harmful substances, and liquid foods such as soy sauce, red pepper paste or miso, and harmful substances contained in milk, vinegar and beverages. The process for preparing food and the water purifier applied to it are presented.

Next, a seventh embodiment of the present invention will be described.

11 is a cross-sectional perspective view of contaminated water molecules found by the inventors while studying water, FIG. 12 is a cross-sectional perspective view of seawater molecules found by the inventors while studying water, and FIG. 16 is a seventh embodiment of the present invention. It is a perspective view of the water purifier constructed according to.

 The shape of the material purification container 100 to purify the material is a rectangular rectangular shape so that the height of the upper end is configured to be horizontal on one side and the other side,

At the lower end of the first inlet and the first material purification compartment 3011 into which a fluid fluid, such as a liquid, flows, the material purification container 100 is configured to always maintain a horizontal state by using a support base 101;

The upper end of the sixth outlet and the sixth material purification compartment 3066 side through which the fluid, such as a material composed of a liquid, or a fluid, is discharged, is leveled with the height of the first inlet and the first material purification compartment 3011. With composition zoom;

The lower side is configured to have a lower outer wall of the material separation container 100 to exert a water purification function while the liquid and fluid materials flow down toward the outlet 900 naturally,

The water inlet diffusion plate 7017 is formed on the outer wall of the first inlet and the first material separation compartment 3011 formed in one side of the material separation container 100 in a U-shape;

A water flow guide diffusion plate 7018 is also formed in the other side of the outer wall of the sixth material separation compartment 3066 formed on the other side of the material separation cylinder 100 in a / shape;

The first material separation plate (7012) constitutes the first material separation plate (7012) by intercepting one side of the front part and the other side of the rear part of the material separation container (100) with the material separation container (100) 읠 The water diffusion plate 7011 is formed in the shape of a triangle (△) by blocking one side and the other side with the zoom;

However, the lower end of the water diffusion plate 7011 is kept open to facilitate the movement of liquid or fluid materials;

The first inlet and the first material purification compartment 3011 have a plurality of brushes 99 configured to penetrate one side and the other side of the material separation tube 100 using the shaft 98 of the brush;

The brush formed in the first inlet and the first material purification compartment 3011 constitutes an air injector 102 for injecting air at the lower end of the first inlet and the first material purification compartment 3011. Harmful substances having a low specific gravity coming out of the fluid material flowing into the first inlet and the first material purification compartment 3011 by the rotational force of 99 may be disposed in the first inlet and the first material purification compartment 3011. Exerts an action of raising to the upper layer;

The overflow port 712 is configured to overflow the first inlet and the first material purification compartment 3011 so that fluid materials having a light specific gravity overflow.

The middle portion of the first inlet and the first material purification compartment 3011 includes a collecting container 700 for collecting the light-weight fluid materials overflowing from the overflow hole 712, and the overflow hole 712 and Between the collection tank 700 and connected to each other using a collection pipe 711;

The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space of the first inlet and the first material purification compartment 3011

The second material separation plate 7013 is formed by installing a second material separation plate 7013 by interposing one side of the front part and the other rear part of the inside of the material separation container 100 to form the second material separation plate 7013. At the lower end of the material separation tube 100 to block one side and the other side to form a water diffusion plate (7022) in the form of a triangle (△) with a zoom;

However, the lower portion of the water diffusion plate 7022 is kept open to facilitate the movement of liquid or fluid materials;

The second material purification compartment 3022 comprises a plurality of brushes 99 penetrating through one side and the other side of the material separation container 100 using the axis 98 of the brush;

The lower end of the second material purification compartment 3022 constitutes an air injector 102 for injecting air, so that the rotational force of the brush 99 is formed in the second material purification compartment 3022. Exerts an action of raising the harmful substances having a low specific gravity leaving the fluid material flowing into the second material purification compartment 3022 to the upper portion of the second material purification compartment 3022;

An overflow hole 712 is formed in the upper portion of the second material purification compartment 3022 so that fluid materials having a light specific gravity overflow;

In the middle portion of the second material purification compartment 3022 is provided with a collecting tank 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting container ( With the connection between the 700 using a collecting pipe 711;

The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space of the second material purification compartment 3022

A third material separation plate 3014 is formed by interposing one side of the front part and the other side of the rear part of the material separation tube 100 to form a third material separation plate 7014, wherein the third material separation plate 7014 is provided. At the lower end of the material separation tube 100 to block one side and the other side to form a water diffusion plate 7033 in the form of a triangle (△) with a zoom;

However, the lower portion of the water diffusion plate 7703 is kept open to facilitate the movement of liquid or fluid materials;

The third material purification compartment 3033 includes a plurality of brushes 99 penetrating through one side and the other side of the material separation container 100 using the shaft 98 of the brush;

The lower end of the third material purification compartment 3033 constitutes an air injector 102 for injecting air, and the rotation force of the brush 99 formed in the third material purification compartment 3033 causes the Exerts an action of raising the harmful substances having a low specific gravity coming out of the fluid material flowing into the third material purification compartment 3033 to the upper portion of the third material purification compartment 3033;

An overflow hole 712 is formed in the upper portion of the third material purification compartment 3033 so that fluid materials having a light specific gravity overflow;

The middle portion of the third material purification compartment 3033 is provided with a collecting container 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting container ( With the connection between the 700 using a collecting pipe 711;

The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space of the third material purification compartment 3033

The fourth material separation plate 3015 is formed by interposing one front side and the other rear side of the inside of the material separation tube 100 to install a fourth material separation plate 7015, wherein the fourth material separation plate 7015 is provided. At the lower end of the material separation cylinder 100 to block one side and the other side to form a water diffusion plate (7044) in the form of a triangle (△) with a zoom;

However, the lower portion of the water diffusion plate 7044 is kept open to facilitate the movement of liquid or fluid materials;

The fourth material purification compartment 3044 includes a plurality of brushes 99 penetrating through one side and the other side of the material separation tube 100 using the brush shaft 98;

The lower end portion of the fourth material purification compartment 3044 constitutes an air injector 102 for injecting air, and the rotation force of the brush 99 formed in the fourth material purification compartment 3044 causes the In addition to the effect of raising the harmful substances having a low specific gravity released from the material consisting of the liquid flowing into the fourth material purification compartment 3044 or the fluid material to the upper portion of the fourth material purification compartment 3044 ;

The overflow layer 712 is formed in the upper portion of the fourth material purification compartment 3044 so that fluid materials having a light specific gravity overflow.

The middle portion of the fourth material purification compartment 3044 is provided with a collecting vessel 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting vessel ( With the connection between the 700 using a collecting pipe 711;

The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space after the fourth material purification compartment 3044

The fifth material separation plate 3044 and the sixth material separation compartment 3066 may be installed by interposing a front side and one rear side of the inside of the material separation vessel 100 to install a fifth material separation plate 7016. At the lower end of the fifth material separation plate 7016, the water diffusion plate 7055 is formed in the form of a triangle by blocking one side and the other side of the material separation tube 100.

However, the lower end of the water diffusion plate 7075 maintains an open state to facilitate the movement of liquid or fluid materials;

The fifth material purification compartment 3055 and the sixth material purification compartment 3066 pass through one side and the other side of the material separation tube 100 using a plurality of brushes 99 using the shaft 98 of the brush. With structuring;

At the lower ends of the fifth material purification compartment 3055 and the sixth material purification compartment 3066, an air injector 102 for injecting air is configured to form the fifth material purification compartment 3055 and the sixth material purification compartment 3055. A substance or a fluid substance composed of a liquid flowing into the fifth substance purification compartment 3055 and the sixth substance purification compartment 3066 by the rotational force of the brush 99 formed in the substance purification compartment 3066. Exerts an action of raising the harmful substances having a low specific gravity from the upper portion of the fifth material purification compartment 3055 and the sixth material purification compartment 3066;

An overflow hole 712 is formed in the upper portion of the fifth material purification compartment 3044 and the sixth material purification compartment 3066 so that fluid materials having a light specific gravity overflow;

In the middle portion of the fifth material purification compartment (3055) and the sixth material purification compartment (3066) is provided with a collecting container (700) for collecting the light-weight fluid materials overflowing from the overflow opening (712), It is connected between the overflow port 712 and the collection container 700 by using a collection pipe 711;

The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

An outer lower end of the sixth material purification compartment 3066 constituting the material separation container 100 is configured with a discharge port 900 and a discharge control valve 901;

Continuous hitting by the continuous rotational force of the brush 99 is configured in each of the material separation compartment 3011,3022,3033,3044,3055,3066 configured in the material separation container 100 as described above The material is separated into these materials by the material friction action and the material explosive action that occurs naturally between the material consisting of the liquid or the material consisting of the fluid that is introduced into the material separation container 100 by Fluid materials having a light specific gravity are separated by the clean material molecules having a heavy specific gravity by the action of gravity and material molecular separation generated in the water diffusion plates 7011,7022,7033,7044,7055. While being pushed to the upper portion of the material is collected by continuously collecting the light-weight fluid materials that are naturally collected in the overflow port 712 and the collection container 700 configured in the material separation container 100 To take advantage of or to remove the harmful substances collected in the collection container 700 lightly continuously

When the inflow rate of the material consisting of the liquid and the fluid material introduced through the inlet pipe (9) is 100Wt% and discharges and collects only 45wt% ~ 99.99999999wt% discharged through the outlet (900) And the remaining 55 ~ 0.0000001wt% of the material overflowing the overflow port 712 is collected by using the collecting container 700 or by using a method of removing the harmful substances collected in the collecting container 700 Methods of making materials consisting of liquids and materials consisting of fluids

The shaft 98 of the brush configured in each of the material separation compartments is connected to a drive motor (not shown) configured outside of the material separation container 100 and a drive pulley (not shown) and belt or The material is separated during the process of continuously operating the brush 99 for 5 to 48,00 hours for hitting the fluid substances introduced into the material separation container 100 after being connected to the chain. Liquid or fluid food such as fresh water or sea water or alcohol or beverage discharged to the discharge port 900 by adjusting the discharge control valve 901 is coupled to the discharge port 900 configured in the lower portion of the barrel 100 Collect and use only 55% to 99.999999999% of liquid foods, with the remainder being 0.00000001wt% to 45wt% of fresh or sea water or fluids such as alcoholic beverages, beverages, liquids or liquid foods. Light weighted inorganic substances or organic matter suspended solids are collected or removed by using the method of collecting the light weighted harmful substances released from the overflow hole 712 and the collecting container 700. Clean the polluted fresh water, clean the sea water, extract the pollutant molecules contained in the sewage or the pollutants contained in the fresh water, and use them as energy or clean the polluted fresh water. Use clean seawater molecules from purified or seawater molecules as drinking water, or use ballast water to fill the vessel by purifying seawater, or collect seawater and salt components from seawater molecules and use them as salt water for salt production. Or salt water purification to replace salt Prepare food additives that can be made or purified from sewage or wastewater or freshwater or seawater, or from seawater, or by mixing saltwater ingredients collected by stirring the saltwater into freshwater to make freshwater or collected from Inorganic and organic materials can be used as energy or to remove liquor that has a low specific gravity in alcohol. Process to obtain energy by processing seawater, which is characterized by manufacturing the beverages and liquid food by removing the harmful substances contained in the process, and the process to prepare freshwater into seawater using the seawater components, fresh water or tap water and sewage or waste water or fresh water or Method of water purification and salt production The process of manufacturing seawater, the process of manufacturing ballast water for ships, the process of extracting salt substitute food from seawater, the process of making alcohol, the liquid food such as soy sauce, red pepper paste or miso, and the production of food such as milk, vinegar and beverage We present the construction method, eco-friendly food waste disposal method, eco-friendly waste disposal method, and the water purification device applied to it.

Next, an eighth embodiment of the present invention will be described.

11 is a cross-sectional perspective view of contaminated water molecules found by the inventors while studying water, FIG. 12 is a cross-sectional perspective view of seawater molecules found by the inventors while studying water, and FIG. 17 is a cross-sectional perspective view of the eighth embodiment of the present invention. It is a perspective view of the water purifier constructed according to.

The upper part is a rectangular shape in a horizontal form, the lower end portion of the rectangle constitutes the lower end portion of the material separation container 100 in a form inclined at one side is a high side in which the fluid is introduced and the other side is low discharged fluid;

On the left side and the right side of the material separation container 100, the wall surfaces 101 and 102 are formed by using a plate;

A first material explosion compartment 815 is formed by intercepting one side of the front portion and the other side of the rear portion of the material separation container 100 using a plate member 821 in a one-shaped shape;

A gravity generating plate 771 is formed in the inclined (/) form at the lower end of the plate member 821 formed in the one-letter form, and the primary is formed in the inclined form at the lower end of the gravity generating plate 771. And a primary material explosive compartment 815 having a primary water flow compression plate 591 so that the water flow compression port 581 is configured;

The shaft 98 of the brush coupled with the brush 99 inserted into the primary material explosion compartment 815 is coupled to the brush shaft case 988 by white paper and one side of the front part of the material separation container 100. With the white paper coupled to the other side of the rear using bolts and nuts;

A second material explosion compartment 816 is formed in the next space of the primary material explosion compartment 815 by blocking one side of the front side and the other side of the rear side with a single-shaped plate 822 in the interior of the material separation vessel 100. With handful;

After forming the gravity generating plate 771 (/) in the inclined form on the lower end of the one-shaped plate 822, the secondary in the form of inclined inversely to the lower end of the gravity generating plate 771 And a secondary material explosive compartment 816 having a secondary water flow compression plate 592 to constitute a water flow compression port 582;

The shaft 98 of the brush coupled with the brush 99 inserted into the secondary material explosion compartment 816 is coupled to the brush shaft case 988 by white paper, and the one side of the front part of the material separation container 100. With the white paper coupled to the other side of the rear using bolts and nuts;

In the next space of the secondary material explosion compartment 816, a third material explosion compartment 817 is formed by intercepting one side of the front part and the other of the rear part of the inside of the material separation container 100 with a plate-shaped member 823. With handful;

After forming the gravity generating plate 771 (/) in the inclined form at the lower end of the one-shaped plate 823, the third in the form of inclined reverse to the lower end of the gravity generating plate 771 With a tertiary water condensation plate 593 to constitute a water flow compression port 583 with a tertiary material explosion compartment 817;

The shaft 98 of the brush coupled with the brush 99 inserted into the third material explosion compartment 817 is coupled to the brush shaft case 988 by white paper, and the front side of the material separation container 100 is connected with the brush shaft 98. With the white paper coupled to the other side of the rear using bolts and nuts;

In the next space of the third material explosion compartment 817, the one side of the front part and the other rear part of the inside of the material separation container 100 is blocked by the plate-shaped member 824 of the fourth material explosion compartment 818 and 5 With the construction of the primary substance explosion compartment 819;

A gravity generating plate 771 is formed in an inclined (/) shape at the lower end of the one-shaped plate 824 to form a lower end of the fourth material explosion compartment 818 and the fifth material explosion compartment 819. With composition zoom;

The shaft 98 of the brush coupled with the brush 99 inserted into the quaternary material explosion compartment 818 is coupled to the brush shaft case 988 by white paper, and the front side of the material separation container 100 is connected with the brush shaft 98. With the white paper coupled to the other side of the rear using bolts and nuts;

At the lower end of the fifth material exploding compartment 818, an induction of water flow to induce an action of inducing fluid materials introduced into the fifth material exploding compartment 818 to the upper part of the fifth material exploding compartment 818. With the construction of the plate 585;

The shaft 98 of the brush coupled with the brush 99 inserted into the fifth material explosion compartment 819 is white with the brush shaft case 988 so that the front side of the material separation container 100 With the white paper coupled to the other side of the rear using bolts and nuts;

The upper portion of each material explosion compartment (815, 816, 817, 818, 819) consisting of compartments in the material separation vessel 100 is sealed using a rectangular sealing plate 903, but the space where the gravity generating pipe 744 is installed ( ㅇ) to construct a circular through hole and to install a gravity pipe 744 on top of the circular through hole with a zoom;

With an overflow port 712 configured to overflow fluid materials on top of the gravity pipe 744;

At the lower end of the sealing plate 903, the liquid flow rising guide plate 586 is formed in an inclined form so that the fluid materials which are raised by the material friction action and the material explosion action are easily raised.

A collecting port 733 for collecting fluid materials using a plate 904 having a predetermined height on an upper portion of the sealing plate 903;

A partition plate 906 is configured to separate the respective explosive compartments 815, 816, 817, 818, and 819 to subdivide the collection port 733;

With the configuration of the discharge valve 335 on one side of the collecting port 733;

A microwave vibrator 995 is formed on the gravity generating plate 771, the bottom of the material separating vessel 100, and the water flow riser guide plate 585 formed in each of the material explosion compartments 815, 816, 817, 818, and 819. With generating;

The brush shaft poly 806 is configured at the other side of the brush shaft 98;

A drive motor (not shown) is provided on the outside of the material separation container 100 to exert an effect of constituting the brush shaft poly 806;

The drive motor (not shown) is coupled to be operated by a separate control system (not shown) configured separately;

The driving motor continuously operates the brush 99 coupled to the double-sided belt and the driving pulley continuously, and the seawater or fresh water flowing into the material separation container 100 and the respective material explosion compartments 815, 816, 817, 818 and 819. Or agitating wastewater or sewage or tap water or milk soy sauce or soybean paste or liquor, beverages or liquid foods to continuously generate mass explosion and mass friction;

The outlet 900 is coupled to the discharge valve 901 on one side of the lower end of the material separation container 100 to adjust the discharge of seawater or fresh water or alcohol or beverage or liquid food discharged to the material separation container 100. with;

An inlet pipe 91 is provided at an upper portion of the first material explosion compartment 815 formed at one side of the material separation tube 100, and the upper portion of the inlet pipe 91 is sea water, fresh water, alcohol, beverage, or liquid food. With an inlet control valve 77 of the;

One end of the inflow pipe (91) is provided with a pressure pump (78) to force the first material explosion compartment (815) with forcible water or fresh water or sewage or drinking water or waste water or liquor, beverage or flowable food ;

Fresh material, sea water, or fluids such as alcohol, beverages, milk, soy sauce, and miso are introduced into the first material explosion compartment 815 through the inflow pipe 91 to purify the material purification tank 100 and the gravity pipe 744. Fills the inside of the

Actuate the brushes 99 to generate material explosion and material friction to separate pollutant molecules mixed with sewage and clean water molecules by the action of gravity, or to release pollutant molecules bound to fresh water from fresh water or Either seawater and salt components combined with seawater are released from the seawater, or lighter substances contained in milk, soy sauce, soybean paste, red pepper paste, alcoholic beverages, beverages, or liquid foods are released into alcoholic beverages, beverages, or liquid foods. Generating material friction action and material explosion action generated by the rotational force of the brush 99 continuously for 5 minutes to 640 hours;

The contaminant molecules combined with fresh water and the contaminant molecules mixed with fresh water and the seawater components combined with seawater by the material friction and explosion caused by the rotation and friction and explosion of the brush 99 Inlet pipe 91 so that salts and / or harmful substances having a low specific gravity contained in milk, soy sauce, soybean paste, red pepper paste, liquor, beverage or liquid food are automatically floated to the top of the gravity pipe 744 by the action of gravity. 100 wt% of fresh water or sewage or wastewater or seawater or liquor, beverages, milk, soy sauce, soy sauce, red pepper paste, or liquid food flowing through the first material explosion compartment 815 and

Fresh water or sea water or milk or soy sauce or miso or red pepper paste or waste water or liquor discharged by adjusting the discharge control valve 901 which is coupled to the outlet port 900 configured at the lower portion of the fifth material cap balkan 819 When only 70wt% to 99.999wt% of the discharge of the beverage or the liquid food is discharged, the remaining 0.001wt% to 30wt% of the fresh water or the sea water or the liquor or the beverage or the liquid food is the gravity pipe 744 and the gravity pipe 744. After overflowing the overflow opening 712 configured as the upper end of the low water level, using the collecting compartment 733 configured at the upper end of the material separation container 100, fresh water or sea water or alcohol or beverage or liquid food or oil sand (sand To clean up the polluted fresh water by collecting and removing inorganic or organic suspended solids with a low specific gravity. Or to clean up seawater, extract pollutant molecules in sewage or fresh water, and use them as energy, to clean contaminated fresh water cleanly, or to use clean seawater molecules released from seawater molecules as drinking water, Alternatively, the seawater can be used as ballast water to fill the vessel, or the seawater and salt components extracted from seawater molecules can be collected and used as seawater for salt production, or the seawater can be purified to produce salt substitute food, or sewage or wastewater or Prepare food additives to clean fresh water or sea water, or to clean sea water, or to prepare fresh water by mixing salt water components collected by stirring the sea water into fresh water, or to collect inorganic water and organic matter collected from sea water. Castle water By using quality, it can be used as energy or by eliminating the harmful substances in the liquor that are light in weight. A process for producing salt water and a process for producing ballast water for ships, characterized in that the preparation of liquid foods and the collection of oil by allowing oil to escape from oil sands (oil contained in sand); The method of manufacturing seawater as a salt substitute food, the method of manufacturing freshwater using seawater components, the method of purifying sewage or wastewater or freshwater or seawater, the method of processing freshwater or saltwater to obtain energy, and the light harmful The process of making alcohol by removing substances and soy sauce or red pepper paste Liquid foods such as liquids, milk, vinegar and beverages to remove harmful substances in the process of manufacturing food and oil sand (oil contained in the sand) to remove the oil components in the process of collecting oil and here We present water purifier that is applied to.

Next, a ninth embodiment of the present invention will be described.

11 is a cross-sectional perspective view of contaminated water molecules found by the inventors while studying water, FIG. 12 is a cross-sectional perspective view of seawater molecules found by the inventors while studying water, and FIG. 18 is a ninth embodiment of the present invention. It is a perspective view of the water purifier constructed according to.

The upper part of the material separation container 100 is configured in a horizontal form and the outside constitutes the material separation container 100 in a rectangular shape in a rectangular shape;

The primary material explosion compartment 301 by intercepting the front and rear portions of the material separation container 100 by using a plate member 171 of the one side of the front part and the rear part of the inside of the material separation container 100. With the zoom;

The primary fluid movement passage 191 such that fluid materials are easily moved from the primary material explosion compartment 301 to the secondary material explosion compartment 302 in the middle portion of the lower end of the plate 171 having the first shape. With the zoom;

In the primary material explosion compartment 301, the shaft 98 of the brush coupled with the brush 99 inserted into the primary material explosion compartment 301 is coupled to the brush shaft case 988 by white paper. With white paper using the bolt and nut on the other side of the front and one side of the separator 100;

In the next space of the primary material explosion compartment 301, a second material explosion compartment 302 is formed by blocking one side of the front part and the other rear part of the inside of the material separation container 100 with a plate member 172 having a single shape. With handful;

The secondary fluid movement passage 192 to easily move the fluid substances from the secondary material explosion compartment 302 to the tertiary material explosion compartment 303 in the middle portion of the lower end of the plate 172 configured in the form of one With the zoom;

In the secondary material explosion compartment 302, the shaft 98 of the brush coupled with the brush 99 inserted into the primary material explosion compartment 302 is coupled to the brush shaft case 988 by white paper. With white paper using the bolt and nut on the other side of the front and one side of the separator 100;

In the next space of the secondary material explosion compartment 302, a third material explosion compartment 303 is formed by intercepting one side of the front part and the other side of the rear part of the inside of the material separation container 100 with a plate 173 having a single shape. With handful;

The tertiary fluid movement passage 193 allows fluid materials to easily move from the tertiary material explosion compartment 303 to the fourth material explosion compartment 304 in the middle portion of the lower end of the plate 173 having the first shape. With the zoom;

In the third material explosion compartment 303, the shaft 98 of the brush coupled to the brush 99 inserted into the primary material explosion compartment 303 is coupled to the brush shaft case 988 by white paper. With white paper using the bolt and nut on the other side of the front and one side of the separator 100;

In the next space of the third material explosion compartment 303, one side of the front part and the other rear part of the inside of the material separation container 100 is blocked by a plate 173 having a three-dimensional material explosion compartment 303 and 4 With the construction of the primary substance explosion compartment 304;

The third material explosion compartment 303 and the fourth material explosion compartment 304 are combined with a brush 99 inserted into the third material explosion compartment 302 and the fourth material explosion compartment 304. The shaft 98 of the brush is coupled to the brush shaft case 988 and the white paper is coupled by using a bolt and a nut on the other side of the front and one side of the material separation container 100;

The inlet pipe 711 is configured at the lower end of the overflow hole 712 formed in the material separation container 100 and the collecting hole 700 is configured at the lower end of the inlet pipe 711 to give the overflow hole 712. With the collection of lighter fluid materials with specific gravity over

The brush shaft poly 806 is configured at the other side of the brush shaft 98;

A drive motor (not shown) is provided on the outside of the material separation container 100 to exert an effect of constituting the brush shaft poly 806;

The drive motor (not shown) is coupled to be operated by a separate control system (not shown) configured separately;

The drive motor continuously operates the brush 99 coupled to the double-sided belt and the drive pulley continuously, and the seawater or fresh water flowing into the material separation container 100 and the respective material explosion compartments 301, 302, 303 and 304. Or agitating wastewater or sewage or tap water or milk soy sauce or soybean paste or liquor, beverages or liquid foods to continuously generate mass explosion and mass friction;

The outlet 900 is coupled to the discharge valve 901 on one side of the lower end of the material separation container 100 to adjust the discharge of seawater or fresh water or alcohol or beverage or liquid food discharged to the material separation container 100. with;

An inlet pipe 991 is provided at an upper portion of the first material explosion compartment 301 formed at one side of the material separation container 100, and sea water or fresh water or alcohol or beverage or a liquid food on the upper portion of the inlet pipe 991. With an inlet control valve 77 of the;

One end of the inlet pipe (991) is provided with a pressure pump (78) to force the first material explosion compartment 301 to introduce seawater or fresh water or sewage or drinking water or waste water or alcohol, beverages or liquid foods ;

Fills all the inside of the material purification container 100 by introducing a flowable food such as fresh water, sea water, liquor, beverages, milk, soy sauce, and soybean paste into the first material explosion compartment 301 through the inflow pipe 91. At the same time

By operating the brush 99 and the bottom brush 96 to generate a material explosion action and material friction to separate the pollutant molecules and clean water molecules mixed in the sewage by the action of gravity or contaminant molecules bonded to fresh water May cause the release of fresh water from the fresh water or the salt and salt components combined with sea water to leave the sea, or the lighter substances contained in milk, soy sauce, miso, red pepper paste, liquor, beverages, or liquid foods. Generating mass friction and mass explosive action for 10 minutes to 1640 hours caused by the rotational force of the brush 99 to escape from the flowable food;

The contaminant molecules combined with fresh water and the contaminant molecules mixed with fresh water and the seawater components combined with seawater by the material friction and explosion caused by the rotation and friction and explosion of the brush 99 Inlet pipe (991) such that salts and / or harmful substances having a low specific gravity contained in milk, soy sauce, soybean paste, red pepper paste, liquor, beverage, or liquid food are automatically floated to the upper portion of the material separation container 100 by the action of gravity. ) 100wt% of freshwater or sewage or wastewater or seawater or liquor or beverage or milk or soy sauce or soybean or red pepper paste or flowable food flowing into the first material explosion compartment 301

Fresh water or sea water or milk or soy sauce or miso or red pepper paste or waste water or liquor discharged by adjusting the discharge control valve 901 which is coupled to the outlet port 900 configured at the lower portion of the fourth material cap balkan 304 When only 70wt% to 99.999wt% of the discharge of the beverage or the liquid food discharges the remaining 0.00001wt% to 30wt% of fresh water or sea water or the alcohol or beverage or the liquid food is configured at the upper end of the material separation container 100 After overflowing the overflow opening 712, using the collecting container 700 configured at the upper end of the material separation container 100 in fresh water or sea water or alcohol or beverage or liquid food or oil sand (oil contained in the sand) Purify polluted fresh water or seawater using a method to collect and remove inorganic or organic suspended Or extract pollutant molecules contained in sewage or pollutants contained in fresh water and use it as energy, clean the fresh water contaminated, or use clean sea water molecules released from sea water molecules as drinking water, or clean the sea water. It is used as ballast water filled in ships, or seawater and salt components extracted from seawater molecules are collected and used as seawater for salt production, or seawater is purified to make salt substitute food, or sewage or wastewater or fresh water or seawater is purified. To prepare food additives that can be eaten by purifying the seawater, or by mixing the seawater components collected by stirring the seawater into fresh water to prepare fresh water, or by using the inorganic and organic materials collected from the seawater. Buy as energy To make liquor by removing harmful or light specific substances contained in alcohol, or to make liquids and liquid foods by removing liquid foods such as soy sauce, soybean paste, ketchup or red pepper paste, and harmful substances contained in milk, vinegar and beverages, Alternatively, the method of producing salt water for producing salt water and the method of producing marine ballast water and sea water as salt substitute foods, characterized in that the oil is separated from the oil sand (oil contained in the sand) to collect the oil. The method of manufacturing fresh water by using the manufacturing method and sea water components, the method of purifying sewage or waste water or fresh water or sea water, the method of processing fresh water or sea water to obtain energy, and the removal of harmful substances with low specific gravity. Manufacturing method and liquid foods such as soy sauce, red pepper paste or miso A method of manufacturing food by removing harmful substances in oil, vinegar and beverages, and a method of collecting oil by removing oil components from oil sands (oil contained in sand) and a water purifier To present.

Extraction of oil from oil sand is performed by mixing water 5wt% ~ 30wt% and oil sand70wt% ~ 95wt% in diluent and mixing for 5 minutes to 5 hours, then separating water and oil from oil sand. ;

The separated water and oil is characterized by a method of extracting an oil component contained in an oil sand using a method of separating water and oil using the material separation container 100.

Next, a tenth embodiment of the present invention will be described.

11 is a cross-sectional perspective view of contaminated water molecules found by the inventors while studying water, FIG. 12 is a cross-sectional perspective view of seawater molecules found by the inventors while studying water, and FIG. 19 is a tenth embodiment of the present invention. It is a perspective view of the water purifier constructed according to.

When the upper portion of the material separation cylinder 100 in the form of a box in a rectangular shape in a horizontal shape of the lower side of the material separation cylinder 100, one side plate 1102 is made of a short height and the other side plate 1011 is After a long configuration and the bottom plate 1106 is padded between the one side plate (1102) and the other side plate (1011) and configured to be inclined to the lower end of the material separation cylinder (100);

An upper portion of the material separation cylinder 100 is configured with a zoom plate 903 at a position slightly lower than the height of the one side plate 1102 and the other side plate 1011;

Sealing between the one side plate member 1102 and the other side plate member 1011 by using a plate portion of the front and rear portions of the material separation tube 100 to complete the foundation of the material separation tube 100 system;

Gravity generating pipe is provided on the top of the closed plate 903 is provided with a gravity generating induction unit 5811 for inducing the action of gravity acting according to the mass and specific gravity of the material for each of the material separation compartment (301, 302, 303, 304) 744 are each provided;

In the middle portion of each of the gravity generating pipe 744, the gravity generating pipe which locks to prevent the inflow of fluid substances into the upper portion of the gravity generating pipe 744 when the material separation tube 100 is operated for the first time. Combined with a control valve (5822);

An upper portion of the sealing plate 903 is provided with a collecting compartment partition 925 between each of the material separation compartments 301, 302, 303, and 304 between the upper front side and the rear portion of the sealing plate 903, respectively. With a fluid material to collect;

In the front plate of the sealing plate (903) and comprises a discharge valve (3355) for discharging the fluid substances flowing into the collection box (9111);

The upper portion of the lower plate 1106 of the material separation cylinder 100, the air jet plate 1200 is configured with a through hole to inject air by jumping about 1 ~ 5cm with a zoom;

A first material explosion compartment is formed by intercepting an upper side and a lower side of the material separation tube 100 by using a first partition plate 791 having a first shape on one side of the front side and the other side of the inside of the material separation vessel 100. With the upper portion of the 301;

The primary gravity guide plate 7711 is attached to the lower end of the first partition plate 791 so that the first low-level passage passage 7811 is formed at regular intervals of about 1 to 50 cm with the air jet plate 1200. The lower portion of the material explosion compartment 301 together with the zoom;

The primary material explosion compartment 301 is coupled to the brush shaft case 988 of the brush 98 coupled with the brush 99 is inserted into the interior of the primary material explosion compartment 301 after the white paper Combining the brush shaft case 988 on the other side of the front and one rear portion of the material separation container 100 using a bolt and a nut;

In the next space of the primary material explosion compartment 301, one side of the front part and the other rear part of the inside of the material separation container 100 is blocked by the second partition plate 792 so that the upper part of the secondary material explosion compartment 302 is closed. With structuring;

The second gravity guide plate 7822 is attached to the lower end of the second partition plate 792 so that the second bottom layer passage 7822 is formed at regular intervals of about 1 to 50 cm with the air jet plate 1200. With the lower portion of the material explosion compartment 302 configured to zoom in;

In the secondary material explosion compartment 302, the shaft 98 of the brush coupled with the brush 99 inserted into the secondary material explosion compartment 302 is coupled to the brush shaft case 988 by white paper. With the brush shaft case 988 on the other side of the front and one side of the separation container 100 by using a bolt and nut coupled with the white paper;

In the next space of the secondary material explosion compartment 302, the third material explosion compartment 303 and the fourth side by intercepting one side of the front part and the other side of the rear part of the inside of the material separation container 100 with the third partition plate 793. With the construction of a top of the car material explosion compartment 304;

The third gravity guide plate 7333 is attached to the lower end of the third partition plate 793 so as to form a third low-floor passage 7833 at regular intervals of about 1 to 50 cm with the air jet plate 1200. The lower portion of the material explosion compartment 303 and the fourth material explosion compartment 304 together with the zoom;

In the third material explosion compartment 303 and the fourth material explosion compartment 304, a brush coupled with the brush 99 inserted into the third material explosion compartment 303 and the fourth material explosion compartment 304. The shaft 98 of the brush shaft case 988 is coupled to the white paper and the brush shaft case 988 on the other side of the front and one side of the material separation container 100 by using a bolt and nut coupled with the white paper ;

In the upper portion of the lower plate 1106 formed at the lower end of the quaternary material explosion compartment 304, the fluid substances introduced into the quaternary material explosion compartment 304 are formed of the quaternary material explosion compartment 304. A water flow raising guide plate 585 is configured to zoom upward and flow therethrough;

The brush shaft poly 806 is configured at the other side of the brush shaft 98;

A drive motor (not shown) is provided on the outside of the material separation container 100 to exert an effect of constituting the brush shaft poly 806;

The drive motor (not shown) is coupled to be operated by a separate control system (not shown) configured separately;

The drive motor continuously operates the brush 99 coupled to the double-sided belt and the drive pulley continuously, and the seawater or fresh water flowing into the material separation container 100 and the respective material explosion compartments 301, 302, 303 and 304. Or agitating wastewater or sewage or tap water or milk soy sauce or soybean paste or liquor, beverages or liquid foods to continuously generate mass explosion and mass friction;

The outlet 900 is coupled to the discharge valve 901 on one side of the lower end of the material separation container 100 to adjust the discharge of seawater or fresh water or alcohol or beverage or liquid food discharged to the material separation container 100. with;

An inlet pipe 291 is provided at an upper portion of the first material explosion compartment 301 formed at one side of the material separation container 100, and the upper portion of the inlet pipe 291 is sea water, fresh water, alcohol, beverage, or liquid food. With an inlet control valve 77 of the;

One end of the inlet pipe 291 is provided with a pressure pump 78 to force the introduction of sea water or fresh water or sewage or drinking water or waste water or alcohol, beverages or flowable food into the first material explosion compartment (301) ;

Through the inlet pipe 291 to the first material explosion compartment 301 to flow the liquid food, such as fresh water, sea water, alcohol, beverages, milk, soy sauce and miso to fill all the interior of the material purification barrel (100) At the same time

The brush 99 is operated to generate a material explosion and material friction to separate pollutant molecules mixed with sewage and clean water molecules by the action of gravity, or to release contaminant molecules bound to fresh water from the fresh water, or Either seawater and salt components combined with seawater are released from the seawater, or lighter substances contained in milk, soy sauce, soybean paste, red pepper paste, alcoholic beverages, beverages, or liquid foods are released into alcoholic beverages, beverages, or liquid foods. Generating material friction action and material explosion action generated by the rotational force of the brush 99 for 5 minutes to 2640 hours;

The contaminant molecules combined with fresh water and the contaminant molecules mixed with fresh water and the seawater components combined with seawater by the material friction and explosion caused by the rotation and friction and explosion of the brush 99 The gravity pipe 744, which is composed of the salt components and the light-weight harmful substances contained in milk, soy sauce, soybean paste, red pepper paste, liquor, beverage, or liquid food, by the action of gravity. 100 wt% of fresh water or sewage or wastewater or sea water or liquor or beverage or milk or soy sauce or soybean or red pepper paste or liquid food through the inlet pipe 291 to continuously generate the floating function to the upper portion of the first material Continuous inflow into the explosion compartment (301)

Fresh water or sea water or milk or soy sauce or miso or red pepper paste or waste water or liquor discharged by adjusting the discharge control valve 901 which is coupled to the outlet port 900 configured at the lower portion of the fourth material cap balkan 304 When the discharge of the beverage or the liquid food only 70wt% ~ 99.999999wt% discharge of the remaining 0.000001wt% ~ 30wt% fresh water or sea water or alcohol or beverage or liquid food is composed of the upper end of the material separation container (100) After overflowing the gravity pipe 744, it is collected in the collecting compartment 9111 formed at the bottom of the gravity pipe 744, using fresh water or sea water, alcohol or beverage, liquid food or oil sand (contained in the sand). Purify the contaminated fresh water by collecting and removing inorganic or organic suspended solids with a low specific gravity. B) to clean up the seawater or to extract the pollutant molecules contained in the sewage or fresh water for energy use, to clean the polluted fresh water cleanly, or to use clean seawater molecules released from the seawater molecule as drinking water. Water is used as ballast water to fill the vessel by sea water purification, or seawater and salt components extracted from seawater molecules are collected and used as seawater for salt production, or seawater is purified to make salt substitute food, or sewage or wastewater Alternatively, to prepare food additives to clean freshwater or seawater, or to clean the seawater, or to prepare freshwater by mixing saltwater components collected by stirring the saltwater in freshwater, or to prepare the freshwater as saltwater or organic matter and organic matter collected from seawater. Materiality It can be used as energy or by removing harmful light substances contained in alcohol to make alcohol, liquid food such as soy sauce, soybean paste, ketchup or red pepper paste, and harmful substances contained in milk, vinegar and beverage. A process for producing salt water and a process for producing ballast water for ships, characterized in that the preparation of liquid foods and the collection of oil by allowing oil to escape from oil sands (oil contained in sand); The method of manufacturing seawater as a salt substitute food, the method of manufacturing freshwater using seawater components, the method of purifying sewage or wastewater or freshwater or seawater, the method of processing freshwater or saltwater to obtain energy, and the light harmful The process of making alcohol by removing substances, and soy sauce or red pepper paste Liquid foods such as intestines and foods by removing harmful substances in milk, vinegar and beverages, and oil extraction from oil sands (sand in the sand) The water purifier is applied here.

Next, an eleventh embodiment of the present invention will be described.

11 is a cross-sectional perspective view of contaminated water molecules found by the inventors while studying water, and FIG. 12 is a cross-sectional perspective view of seawater molecules found by the inventors while studying water.

Each of the drawings shown in the present invention can be applied to the eleventh embodiment of the present invention.

By using the techniques described in 1 to 2, 7 and 12 and 14, the temperature of the fluid materials flowing into the material separation container 100 is heated to about 50 to 500 degrees and then the material separation A method of producing salt water for producing salt water, a method of preparing ballast water for ships, and a method of manufacturing sea water as a salt substitute food, characterized in that the upper part of the barrel or the fluid material rising to the upper part of the gravity pipe is collected and used. The method of manufacturing fresh water into sea water using the seawater ingredients, the method of purifying sewage or waste water or fresh water or sea water, the method of processing energy from fresh water or sea water, and the process of preparing alcohol by removing lightly harmful substances Prepares foods by removing liquid foods such as soy sauce, red pepper paste or miso, and harmful substances contained in milk, vinegar and beverages. Presents a process for collecting oil by allowing oil components to escape from the process and oil sands (oil in the sand) and a water purifier.

Next, a twelfth embodiment of the present invention will be described.

11 is a cross-sectional perspective view of contaminated water molecules found by the inventors while studying water, and FIG. 12 is a cross-sectional perspective view of seawater molecules found by the inventors while studying water,

20 is a vertical sectional perspective view of the water purifying apparatus applied to the twelfth embodiment of the present invention, and FIG. 21 is a horizontal sectional perspective view of the water purifying apparatus applied to the twelfth embodiment of the present invention.

One side wall surface 1102 is made smaller and the other side wall surface 1011 is long so that the lower end of the material separation container 100 is inclined to block the front and rear portions of the material separation container 100 and partition plate 301 therebetween. After the padded by forming a material separation bar (1200) in the form of a triangle in the lower end of the partition plate (301) to configure each material separation compartment (902);

After inserting the brush 99 and the shaft 98 of the brush into the material separation compartment 902, the shaft separating case 100 after combining the shaft case 888 of the brush on one side and the other side of the shaft 98 of the brush; With white paper penetrates through the front and rear portions of the;

At the upper end of the material separation container 100 for the gravity generation by the material rolling action and the material cutting action and material explosion action and material friction action generated by the rotation of the brush 99 in the material separation container 100 In the form of a funnel in the Sangsang River Strait, the liquid gravity materials that are pushed to the upper end of the pipe 744 are not introduced into the material separation container 100 again by the material rolling action pushed by the heavy materials. Constructing a dual container 1000 with zooming;

One side of the double container (1000) configured in the funnel form to form a discharge pipe 711 and then coupled to the collecting pipe (700) for collecting the fluid material with a light specific gravity to the discharge pipe 711 and together;

Each brush-side pulley 806 is coupled to the shaft 98 of each brush, and then a double-sided belt 805 is coupled to the shaft pulley of the brush and the shaft pulley 806 of the brush;

With a driven poly 803 on the shaft 98 of the brush;

A drive pulley 802 is configured at one side of the drive motor 800 on the outside of the material separation container 100, and the tension and spacing of the double-sided belt 805 is provided at the top of the drive pulley 802. The driven pulley 803 is constituted by the support;

The driven poly 803 is provided with a double-sided belt 805 is coupled to cross the upper and lower portions of each of the brush shaft pulleys 806 of the material separation compartment 902;

The driving motor 800 continuously operates the brush 99 which is continuously coupled to the double-sided belt 805 and the driving pulley 802, so that the material separating vessel 100 and the material separating compartment 902 are continually operated. A) continuously exploding mass explosives and mass friction by stirring the seawater or fresh water or wastewater or sewage or tap water or drinking water or liquid food flowing into;

The outlet 900 is coupled to the discharge valve 901 on one side of the lower end of the material separation container 100 to adjust the discharge of seawater or fresh water or alcohol or beverage or liquid food discharged to the material separation container 100. with;

The brush 99 is operated to generate a material explosion and material friction to separate pollutant molecules mixed with sewage and clean water molecules by the action of gravity, or to release contaminant molecules bound to fresh water from the fresh water, or Generated by the brush 99 to cause seawater and salt components combined with seawater to escape from the seawater or to allow light weight substances contained in alcoholic beverages, beverages, or liquid foods to escape into alcoholic beverages, beverages, or liquid foods. Resulting in mass friction and mass explosion for 10 minutes to 4800 hours;

The contaminant molecules combined with fresh water, the contaminant molecules mixed with fresh water and the seawater and salt components combined with seawater by the material friction and explosive action generated by the electrochemical action of the brush 99 or alcohol However, the light gravity substances contained in the beverages or the liquid foods are caused by the action of gravity and the gravity pipe 744 and the

Continuous inflow of fresh water or sewage or wastewater or seawater, liquor, beverages, or flowable foods into the material separation compartment 902 to automatically float to the upper portion of the double vessel 1000. Sikkim and

70% to 99.999999% of the discharge amount of fresh water or sea water or alcohol or beverage or liquid food discharged by adjusting the discharge control valve 901 coupled to the discharge port 900 configured at the lower portion of the material separation container 100. The collection vessel 700 coupled with the collection pipe 711 after the remaining 0.000001% to 30% of fresh water or sea water, alcohol or beverage or a liquid food overflows the low water level upper portion of the double container 1000 when discharging the bay. Purify the contaminated fresh water or clean the sea water by using the method of collecting and removing inorganic or organic suspended solids that are lightly separated from fresh water or sea water or alcohol, beverage or liquid food. Alternatively, it is possible to extract pollutant molecules in sewage or pollutants in fresh water and use it as energy or clean polluted fresh water. Use clean seawater molecules from purified or seawater molecules as drinking water, or use ballast water to fill the vessel by purifying seawater, or collect seawater and salt components from seawater molecules and use them as salt water for salt production. Or salt water to purify salt water, or to prepare sewage or waste water or fresh water or salt water, to prepare food additives to eat salt water, or to mix salt water components collected by stirring salt water in fresh water. It is used as energy or by using inorganic and organic materials collected from sea water as energy or by removing harmful light substances in liquor. Like u Salt manufacturing method for seawater and salt water production, and seawater as a salt substitute food, characterized in that the production of beverages and liquid foods by removing harmful substances in sex foods, milk, vinegar and beverages. The method of manufacturing fresh water by using the manufacturing method and sea water components, the method of purifying sewage or waste water or fresh water or sea water, the method of processing fresh water or sea water to obtain energy, and the removal of harmful substances with low specific gravity. The process for manufacturing and the process for preparing food by removing liquid substances such as soy sauce, red pepper paste or miso, and the harmful substances contained in milk, vinegar and beverages, and the water purifying apparatus applied thereto are presented.

Next, a thirteenth embodiment of the present invention will be described.

11 is a cross-sectional perspective view of contaminated water molecules found by the inventors while studying water, and FIG. 12 is a cross-sectional perspective view of seawater molecules found by the inventors while studying water,

22 is a vertical sectional perspective view of the water purifying apparatus applied to the thirteenth embodiment of the present invention, and FIG. 23 is a perspective view of a material separation compartment applied to the thirteenth embodiment of the present invention, and FIG. 24 is a thirteenth embodiment of the present invention. A cross-sectional perspective view of a first material separation compartment to be applied, and FIG. 25 is a front sectional view of a first material separation compartment to be applied to the thirteenth embodiment of the present invention.

Cutting the upper portion of the circular pipe in a horizontal form to form an upper end of the first material separation compartment 301;

The shape of the lower end of one side portion is shorter and the other side is configured to be longer relative to the upper end portion of the pipe in the form shown in FIG. 24 so that the lower end of the first material separation compartment 301 is inclined. 301 together with the lower end;

After cutting the other end of the lower end of the first material separation compartment 301 in the form of (∩) shown in Figures 23, 24 and 25, the first gravity generating plate in the form of a triangle (△) to the cut portion ( Further combining 7011 to form a first bottom passage 7811;

Cutting the upper portion of the circular pipe in a horizontal form to form an upper end of the second material separation compartment 302;

One end of the lower end of the second material separation compartment 302 is cut in the shape of (∩) in the form shown in FIG. 25 to form an upper end of the first lower end passage 7811 and then of the first material separation compartment 301. The upper portion and the lower portion of the second material separation compartment 302 are inclined and coupled so that the upper portion is horizontal;

After cutting the other end of the lower end of the second material separation compartment 303 in the shape of (∩) shown in Figs. 23, 24 and 25, the second gravity generating plate in the form of a triangle (△) Further combining 7022 to form a second bottom passage 7822;

Cutting the upper portion of the circular pipe in a horizontal form to form an upper end of the third material separation compartment 303;

One end of the lower end of the third material separation compartment 303 is cut in the shape of (∩) in the form shown in FIG. 25 to form an upper end of the second lower end passage 7822. The upper portion and the lower portion of the third material separation compartment 303 are inclined and coupled so that the upper portion is in a horizontal state;

After cutting the other end of the lower end of the third material separation compartment 303 in the form of (∩) shown in Figures 23, 24 and 25, the third gravity generating plate in the form of a triangle (△) to the cut portion ( And further combine 7033 to form a third lower end passage 7835;

Cutting the upper portion of the circular pipe in a horizontal form to form an upper end of the fourth material separation compartment 304;

One end of the lower end portion of the fourth material separation compartment 304 is cut in the shape of (∩) in the form shown in FIG. 25 to form an upper end portion of the fourth lower end passage 7844, and then An upper end portion and a lower end portion of the fourth material separation compartment 304 are inclined and coupled so that the upper portion is in a horizontal state;

After cutting the other end of the lower end of the fourth material separation compartment 304 in the form of (∩) shown in Figs. 23, 24 and 25, the fourth gravity generating plate in the form of (△) triangle in the cut portion ( Further combining 7044 to form a fourth lower passageway 7844;

Cutting the upper portion of the circular pipe in a horizontal form to form an upper end of the fifth material separation compartment 305;

One end of the lower end portion of the fifth material separation compartment 305 is cut in the shape of (∩) in the form shown in FIG. 25 to form an upper end portion of the fourth lower end passage 7844, and then An upper end portion and a lower end portion of the fifth material separation compartment 305 are coupled to each other so that the upper portion is inclined and the upper portion is in a horizontal state;

Sealing the lower end of each of the material separation compartments (301, 302, 303, 304, 305) to be watertight using a sealant such as a plate;

After cutting one side of the lower end of the fifth material separation compartment 305, the outlet 900 is coupled to the discharge control valve 901 to form fluids discharged through the fifth material separation compartment 305. With discharge;

Inside the respective material separation compartment (301, 302, 303, 304, 305) is composed of a plurality of layers are provided with a multi-layer brush 990 is provided so as to strike each layer layer brush shaft support (9991) and white paper coupled to the brush shaft support (9991) and Combined with the brush shaft case (9990) and the white paper is combined;

 The lower portion of the shaft 998 of the brush is combined with the rotating poly 9988 and the index member and the brush shaft case 9989 with white paper;

The rotatable pulley (9988) is coupled with a separately configured power unit;

Each of the material separation compartment (301, 302, 303, 304, 305) is configured with an air injector 120 is configured separately;

The upper portion of each material separation compartment (301, 302, 303, 304, 305) is sealed by a circular finishing material (9992) is formed with a hole (◎);

The through hole formed in the circular finishing material (9992) is provided with a gravity generating pipe (744) coupled with the gravity generating guide portion (5811) and the gravity generating pipe control valve (5822) is provided to generate gravity;

The overflow port 712 is configured at the upper end of the gravity generating pipe 744 and the collection port 700 coupled to the collection pipe 711 is configured to overflow the gravity pipe 744. Along with acting to collect lightly hazardous substances;

The upper side of the first material separation compartment 301 is provided with a fluid inlet pipe (9) coupled with the fluid inlet pipe control valve 77 and one end of the fluid inlet pipe (9) is coupled to the pressure pump (78) Exerts an action of continuously pumping fluid materials into the first material separation compartment 301;

Configured outside of the material separation system 3000 is configured as described above

Drive motor (not shown) is coupled to be automatically operated by a comprehensive control system (not shown) configured separately;

A separate level checker is configured in the material separation compartment 301, 302, 303, 304 and 305 to check the inflow and discharge of the fluid material flowing into the material separation compartment 301, 302, 303, 304 and 305;

While the rotary poly 9988 is continuously rotated by the rotational force of a driving motor (not shown), the multilayer brushes 990 continuously stir and simultaneously hit the fluid materials flowing into the material separation compartments 301, 302, 303, 304, and 305 while simultaneously stirring. The material explosive action and the material friction action are continuously performed by striking the salt water or fresh water or the waste water or the sewage or the tap water, the milk soy sauce, the miso, the liquor, the drink, or the liquid food flowing into each of the material separation compartments 301, 302, 303, 304 and 305. With development;

Filling the inside of the material separation compartment 301 by introducing a flowable food, such as fresh water, sea water, liquor, beverage, milk, soy sauce and miso, to the first material separation compartment 301 through the inflow pipe 9. At the same time

By separating the pollutant molecules mixed in the sewage and clean water molecules using the material explosive action and the material friction action generated when the multi-layer brush 990 is continuously operated, the pollutant molecules bound to the fresh water are separated from the fresh water. Either seawater and salt components combined with seawater are released from the seawater, or lighter substances contained in milk, soy sauce, miso, red pepper paste, liquor, beverages, or liquid foods are released into alcoholic beverages, beverages, or liquid foods. Generating a material friction action and a material explosion action generated by the rotational force of the multilayer brush 990 for 5 minutes to 2640 hours;

Contaminant molecules combined with fresh water and contaminant molecules mixed with fresh water and seawater components combined with seawater by the material friction action and material explosion action generated by the rotational action, friction action and explosion action of the multilayer brush 990. Gravity pipes formed on top of the material separation compartment (301, 302, 303, 304, 305) by the action of gravity and salt components and light or harmful substances contained in milk, soy sauce, soybean paste, red pepper paste, liquor, beverage or liquid food. 100wt% inflow of fresh water or sewage or wastewater or seawater or alcohol, beverages, milk, soy sauce, miso, red pepper paste, or liquid food through inflow pipe 9 so that the action of gravity that automatically floats to the upper portion of 744 is continuously generated. Continuously flowing into the first material explosion compartment 301 and

Fresh water or sea water or milk or soy sauce or miso or red pepper paste or waste water or liquor discharged by adjusting the discharge control valve 901 coupled to the outlet 900 configured at the lower portion of the fifth material cap balkan 305 or When only 70wt% to 99.999999wt% of the discharge of the beverage or the liquid food is discharged, the remaining 0.000001wt% to 30wt% of the fresh water or the sea water or the liquor or the beverage or the liquid food is formed at the upper end of the material separation compartment 301,302,303,304,305. Fresh water or sea water or alcohol or beverage or by using a method that collects the overflow hole 712 formed in the gravity pipe 744 and is collected in the collecting container 700 formed at the bottom of the gravity pipe 744. Collects and removes inorganic or organic suspended solids that are lightly separated from liquid foods or oil sands (oil in sand) The method can be used to purify polluted fresh water or to clean up seawater, to extract pollutant molecules in sewage or pollutants in fresh water, to use them as energy, to clean contaminated fresh water cleanly, or Use clean seawater molecules that have escaped as drinking water, or use ballast water to fill the vessel by purifying seawater, or collect seawater and salt components that have escaped from seawater molecules, and use them as seawater for salt production, or clean up seawater. Make freshwater saltwater by making salt substitute foods, or purifying sewage or wastewater or freshwater or seawater, or preparing food additives to purify seawater, or by mixing the saltwater components collected by stirring the saltwater into freshwater, or Sea Inorganic and organic materials collected from the country can be used as energy or to remove alcohol with a low specific gravity in alcohol, making alcohol, or liquid foods such as soy sauce, miso, ketchup or red pepper paste, and milk and vinegar. Manufacture of seawater for salt production, characterized in that the preparation of beverages and liquid foods by removing the harmful substances contained in the beverages and beverages, or collecting the oil by allowing the oil to escape from the oil sand (oil in the sand) Process for producing ballast water for ships, method for preparing seawater as a salt substitute food, method for preparing fresh water using seawater components, and method for purifying sewage or wastewater or fresh water or seawater, and fresh or seawater Process to obtain energy and to remove harmful substances The process of manufacturing alcohol, liquid foods such as soy sauce, red pepper paste, and miso, and the process of manufacturing food by removing harmful substances in milk, vinegar, and beverages, and the removal of oil components from oil sands (oil in the sand) The process for collecting oil and the water purifier applied to it are presented.

Each of the drawings presented in the first embodiment of the present invention shows a simplified configuration state, and since any sphere of the configuration state constituted by sealing the lower end of the pipe is a component that is naturally made, the detailed drawings are presented. Will be omitted.

Naturally, the water purifying device configured as described above can be modified in various forms, so that any person who has changed the shape or shape of the material separation box that is changed by using a circular pipe or an elliptical pipe may have different rights. It is natural to belong to the scope

Next, a fourteenth embodiment of the present invention will be described.

Each claim can be used.

Salt production, characterized in that each fluid material is processed in a balanced manner through the manufacturing process of additionally introducing each fluid material after filling all the fresh water in the material separation container or the material separation compartment first. The method of manufacturing dissolved seawater, the method of manufacturing ballast water for ships, the method of preparing seawater as a salt substitute food, the method of preparing fresh water using seawater components, and the method of purifying sewage or wastewater or fresh water or seawater, The process of obtaining energy by processing fresh water or sea water, and the process of manufacturing alcohol by removing light substance with low specific gravity, and the liquid food such as soy sauce, red pepper paste or miso, and the harmful substance contained in milk, vinegar and beverage Manufacturing Process and Oil Sands (Oil in Sand) And it proposes a method for collecting the oil to come out the exit oil component from.

The reason for presenting the fourteenth embodiment of the present invention is that the fluid materials introduced into each material separation bin, each material separation compartment, or the material explosion compartment are unprocessed because of the unique characteristics of the components they contain. When fluids are introduced into the material separator or each material separation or explosive compartment, the fluid materials are processed with all the fluid materials remaining unprocessed up to the top of the gravity generating pipe. This is to prevent the defect of extracting organic substances in incomplete state.

When clean fresh water is filled in each material separation bin, each material separation bin or a material explosion bin, the fluids are processed into each material separation bin, each material separation bin, or a material explosion bin and gravity is processed. This method is to be used because it can cause precise separation of substances because the action of is more desirable.

A fifteenth embodiment of the present invention will be described.

A method of producing salt water for producing salt and a method of preparing ballast water for ships, which is characterized by a process of diluting a fluid material 90 wt% to 99.9 wt% and 0.1 wt% to 10 wt% of soil, stirring and striking with a brush. The method of manufacturing seawater as a salt substitute food, the method of manufacturing freshwater using seawater ingredients, the method of purifying sewage or wastewater or freshwater or seawater, the method of processing freshwater or seawater and obtaining energy and the light harmful In the process of manufacturing alcohol by removing substances, in liquid foods such as soy sauce, red pepper paste or miso, in the process of preparing food by removing harmful substances in milk, vinegar and beverages, and in oil sands (oil in sand) It suggests a method of collecting oil by allowing the oil component to escape.

After diluting a small amount of soil and wastewater that enters the sewage treatment plant and hitting it with a brush, the material explodes between the intrinsic components of the soil and the organic substances contained in the wastewater. It suggests a method of producing liquid fertilizers by causing the molecular structure of the organic substances that are not broken down to smaller and smaller sizes.

Evidence of such action is that the river water contaminated by the muddy water generated during the rainy season in summer is naturally purified, and when the muddy water is used to cultivate the crop, the growth of the crop is increased.

Next, a sixteenth embodiment of the present invention will be described.

26 is a perspective view of the water purifying apparatus applied to the sixteenth embodiment of the present invention.

 Heavy-weight material molecules sink to the lower layer by the action of gravity, and lighter organic materials are pushed to the cleaner heavy-weight material molecules, causing the gravity to rise upward. And a lower portion of the first material overflow hole (8881) in the form of a narrow funnel, and a collecting pipe (711) and the collecting container (700) in the lower portion of the first material overflow hole (8881);

An outer circumferential surface of the first material overflow hole (8881) forms upper and lower portions of the first material separation container (301) in the form of a circular funnel higher than the height of the first material overflow hole (8881);

On the other side of the first material separation tube (8881) to form a first gravity generating plate (7001) in the form of a triangle to increase the action of gravity, the first low-layer passage (8001) and the first material separation cylinder (301) ) With the zoom configured on the other side;

In the next space of the first material separation container 301

The upper part is formed of a wide circular funnel, and the lower part is formed of a second funnel (8882) in the form of a narrow funnel, and the collection pipe 711 and the collecting container (700) in the lower part of the second material overflow (8882) With construction;

The upper and lower portions of the second material separation container 302 are formed on the outer circumferential surface of the second material overflow hole 8872 in a circular funnel shape higher than the height of the second material overflow hole 8872;

On the other side of the second material separator (8882), a second gravity generating plate (7002) in the form of a triangle to increase the action of gravity to form a second bottom layer passage (8002) and the second material separator (302) ) With the zoom configured on the other side;

In the next space of the second material separation container 302

The upper part forms a wide circular funnel and the lower part forms a third material overflow hole 8883 in the form of a narrow funnel. Together with;

The outer peripheral surface of the third material overflow hole (8883) to form the upper and lower portions of the third material separation cylinder 303 in the form of a circular funnel higher than the height of the third material overflow hole (8883);

On the other side of the third material separator 8883, a third gravity generating plate 7003 is formed in a triangular form to increase the action of gravity, thereby forming a third bottom layer passage 8003 and the third material separator 303. ) With the zoom configured on the other side;

In the next space of the third material separation container 303

The upper portion forms a wide circular funnel and the lower portion forms a fourth material overflow hole 8884 in the form of a narrow funnel, and the collection pipe 711 and the collecting container 700 are formed at the lower portion of the fourth material overflow hole 8884. Together with;

The upper and lower portions of the fourth material separation barrel 304 are formed on the outer circumferential surface of the fourth material overflow hole 8884 in the form of a circular funnel higher than the height of the fourth material overflow hole 8884;

The other side of the fourth material separation cylinder (8884) to the other side to configure the outer surface of the fourth material separation cylinder (8884) in the inclined form to increase the action of gravity;

The upper portion of each of the material separation vessels 301, 302, 303, 304 is configured so that the entirety of the material separation vessels 301, 302, 303, 304 is horizontal, and the front, side, and bottom portions of each of the material separation vessels 301, 302, 303, 304 are formed. The lower portion of the material separators 301, 302, 303, 304 is configured to be short by using a finishing plate (not shown) so that the lower portion is inclined with respect to the upper side, and the other side of each of the material separators 301, 302, 303, 304 is elongated so that the lower portion is inclined. Complete the shape;

At the end of the lower end portion of the fourth material separation container 304, the lifting guide plate 585 is configured to act to elevate the fluid materials to the upper end portion;

Inside the respective material separation cylinders (301, 302, 303, 304) by combining a brush 99 that strikes the fluid materials with the shaft case (not shown) and driven poly (not shown) of the brush coupled to the shaft of the brush With zoom;

On one side of the first material separation container 301 is provided with an inlet pipe 9 for introducing fluid materials in combination with a control valve 77;

A pressure pump 78 is installed at one end of the inflow pipe 9 to zoom;

Configured outside the material separation system configured as described above

Drive motor (not shown) is coupled to be automatically operated by a comprehensive control system (not shown) configured separately;

A separate level checker is configured in the material separation container (301, 302, 303, 304) to check the inflow and discharge of the fluid material flowing into the material separation container (301, 302, 303, 304);

As the driven poly (not shown) is continuously rotated by the rotational force of the driving motor (not shown), the brush 99 continuously stirs and simultaneously strikes the fluid materials flowing into the material separation cylinders 301, 302, 303, and 304. Stirs and blows seawater, fresh water, wastewater, sewage, tap water, milk, soy sauce, miso, liquor, beverages, or liquid foods into each of the material separation vessels (301, 302, 303, 304) while generating mass explosion and mass friction. with;

Filling the inside of the material separation container 301 by introducing a flowable food, such as fresh water, sea water, alcohol, beverages, milk, soy sauce and miso, into the first material separation container 301 through the inflow pipe 9. At the same time

By separating the pollutant molecules mixed with sewage and clean water molecules using the material explosive action and the material friction action generated when the brush 99 is continuously operated, or causing the pollutant molecules bound to fresh water to come out from the fresh water or Either seawater and salt components combined with seawater are released from the seawater, or lighter substances contained in milk, soy sauce, soybean paste, red pepper paste, alcoholic beverages, beverages, or liquid foods are released into alcoholic beverages, beverages, or liquid foods. Generating material friction action and material explosion action generated by the rotational force of the brush 99 for 5 minutes to 2640 hours;

The contaminant molecules combined with fresh water and the contaminant molecules mixed with fresh water and the seawater components combined with seawater by the material friction and explosion caused by the rotation and friction and explosion of the brush 99 Each of the salts and / or the harmful substances contained in milk, soy sauce, soybean paste, red pepper paste, liquor, beverage, or liquid food are contained in the material separation container 301, 302, 303, 304 by the action of gravity. Overflowing to the top of overflow holes (8881,8882,8883,8884)

100 wt% of fresh water or sewage, wastewater or seawater, alcohol, beverages, milk, soy sauce, miso, red pepper paste, or liquid food through the inlet pipe 9 so that the action of gravity is continuously generated. Continuous inflow)

 Fresh water or sea water or milk or soy sauce or miso or red pepper paste or waste water or liquor discharged by adjusting the discharge control valve 901 which is coupled to the outlet port 900 configured at the lower portion of the fourth material potting tube 304 When only 70wt% ~ 99.999999wt% of the discharge of beverage or liquid food is discharged, the remaining 0.000001wt% ~ 30wt% of fresh water or sea water or alcohol, beverage or liquid food is added to the material separation container (301,302,303,304).

Light organic materials having a high specific gravity overflowing the upper portion of the respective material overflow holes (8881,8882,8883,8884) are formed therein

Fresh water or sea water or liquor or beverages or liquid foods or oil sands (by sand) are collected in a collecting container 700 formed at the lower end of each of the material overflow holes (8881,8882,8883,8884). To clean contaminated fresh water, to clean up seawater, or to pollutant molecules in sewage by collecting and removing inorganic or organic suspended solids with a low specific gravity from the oil. Or extract contaminants contained in fresh water for energy use, clean the contaminated fresh water cleanly, use clean seawater molecules released from seawater molecules as drinking water, or use water as ballast water to fill the vessels with purified water, or Salt production by collecting seawater components and salt components separated from seawater molecules It is used as dissolved water or purified seawater to make salt substitute food, or to prepare sewage or waste water or fresh water or seawater, or to prepare food additives to be eaten by purified seawater, or to collect the seawater components collected by stirring the seawater. Fresh water is mixed with fresh water to produce seawater, or minerals and organic materials collected from seawater are used as energy, or alcohol is produced by removing lightly harmful substances contained in alcohol, or soy sauce or miso Liquids, such as ketchup and red pepper paste, remove harmful substances in milk, vinegar, and beverages to produce beverages and liquid foods, or collect oil by allowing oil to escape from oil sands. To prepare sea water for salt production, characterized in that The process of manufacturing ballast water for ships, the process of preparing seawater as a salt substitute food, the process of preparing freshwater into seawater using seawater components, the process of purifying sewage or wastewater or freshwater or seawater, and the processing of freshwater or seawater. To obtain energy and to remove harmful substances that are light in weight, and to make alcohol, and to liquid foods such as soy sauce, red pepper paste, and miso, and to remove harmful substances in milk, vinegar, and beverages The method of collecting oil by allowing oil component to escape from sand (oil in sand) and presenting water purifier.

When the water purifying apparatus according to each embodiment of the present invention configured as described above is operated by the material explosion and the action of the material friction and the action of gravity, the action of the automatic separation of the material molecules by fresh water or sea water or alcohol or beverage or It is possible to precisely isolate various harmful substances in light weight foods.

Condensation of the seawater components, which are automatically separated by gravity, makes it possible to make salt substitute food additives and salt substitute salts, which are essential in modern society, at a low price, thus eliminating the need for expensive salts.

At the same time, using the water purification device of the simple structure proposed in the present invention has an effect that can be quickly and cheaply produced the purified water ballast water required by the vessel.

In addition, it is possible to produce clean salt with pure ingredients because the seawater supplied when making salt can be purified and supplied.

In addition, it is possible to extract very small amounts of energy contained in seawater very simply, which has the effect of producing infinitely the energy needed in modern society.

In addition, by using the water purifying apparatus proposed in the present invention, it is possible to remove harmful substances such as hissley and acetaldehyde, which are lighter in weight than ethyl alcohol contained in alcohol, through a simple process.

Conventionally, it has been removed only by storing for a long time, but by using the water purifying apparatus of the present invention, alcohol can be prepared at a low price because it can be easily removed by removing harmful substances contained in alcohol.

.

In addition, by using the water purifying apparatus proposed in the present invention, it is possible to simply remove harmful substances having a low specific gravity contained in alcohol, beverages, or liquid foods, which were previously impossible to remove.

In other words, since it is possible to simply remove the harmful substances in light liquids such as milk and beverages or liquid foods such as soy sauce, soybean paste or red pepper paste, it is effective to help the public health of those foods that have removed harmful substances.

1. Filter bin 2.4 car collector 3. Third filter bin 4.2 Car filter bin 5.1 Car filter bin 7. Filter bin discharge control valve 8. Filter bin outlet 9. Sea water or fresh water inlet 11. Motor 22. Filter compartment 33.4 car Collector outlet 34. Non-woven fabric, sponge, fabric, membrane filter 51. 1st, 2nd, 3rd collector 52.3 5th collector 53. 1, 2, 3rd collector control valve 54.1 1st collector 55. Final collector 56. Hot plate 58. Solar collector 59. Secondary collector 73. Gas collector 75. Gas collector 76. Compressor 77. Salt water or fresh water inlet control valve 78. Pressure pump 88. Filter 95. White paper into which shaft of brush is inserted 96 Bottom layer brush 97.Brush hole inserted 98.Brush axis 99.Brush 100.Material separation bin 120.Air nozzle 200.Pure water molecules 300.Contaminant molecules combined with fresh water 311.Compression mold 322.Non-woven fabric or cloth 323 Crimping frame 325. Hydraulic cylinder 326. Hydraulic cylinder rod 327. Cylinder shaft 331. Drain valve 333. Drain pipe 335. Collector 351. Through hole 38 5. Food waste mixture 500. Pollutant molecules bonded to seawater 700. Collector 711. Collector's pipe 712. Overflow 733. Collector's 744. Gravity generating pipe 745. Combined pipe 747. Through hole 800. Drive motor 801.1 Belt 802. Driven pulley 803. Driven pulley 805. Double-sided belt 806. Brushed shaft pulley 881. Prefabricated brush shaft case assembly 888. Prefabricated brush shaft case 889. Prefabricated brush shaft case fitting 890. Combination through hole 900. Outlet 901. Control valve 902. Material separation compartment 903. Airtight plate 995. Microwave oscillator 988. Water diffusion plate 996. Water flow guide plate 999. Water diffusion path
101. Material separator support 102. Air generator. 501. First Material Separator and Fluid Diffusion Plate 502. Second Material Separator and Fluid Diffusion Plate 503. Third Material Separator and Fluid Diffusion Plate 504. Fourth Material Separator and Fluid Diffusion Plate 505. Fifth Material Separation Plate and Fluid Diffusion Plate 506. Sixth Material Separator and Fluid Diffusion Plate 810. First Lower Level Moving Path 811. Second Lower Level Moving Path 812. Third Lower Level Moving Path 813. Fourth Lower Level Moving Path 814. Fifth Lower Level Moving Path Passage 815. Sixth floor moving passage 816.2.Diffusion plate 882. First material separation compartment 883. Second material separation compartment 884. Third material separation compartment 885. Fourth material separation compartment 886. Fifth material separation compartment 887. Sixth Material Separation 906. Seventh Material Separation
301. First material separation compartment 302. Second material separation compartment
303. Third material separation compartment 304 Fourth material separation compartment 305. Fifth material separation compartment
5011.First Lower Passage 5022.Second Lower Passage
5033. Third Lower Passage 5044. Fourth Lower Passage
701.First Material Separator and Water Diffusion Plate 702.Second Material Separator and Water Flow Diffusion Plate
703. Third Material Separator and Water Diffusion Plate 704. Fourth Material Separator and Water Diffusion Plate
91.Inlet pipe 120.Air injection port 335. Collector control valve 581.1 Primary water flow compression port Water flow guide plate 582.2 Primary water flow compression port 583 Third water flow compression port 585. Water flow riser guide plate 586. Hydraulic pressure distribution plate 591. Primary water pressure Intervertebral 592. Water flow compression plate 593.3. Water flow compression plate 712. Overflow opening 733. Collection compartment 744. Gravity generating pipe 771. Gravity generating plate 995. Microwave oscillator
91.Inlet pipe 120.Air injection port 335. Collector control valve 581.1 Primary water flow compression port Water flow guide plate 582.2 Primary water flow compression port 583 Third water flow compression port 585. Water flow riser guide plate 586. Hydraulic pressure distribution plate 591. Primary water flow compression Plate 592. Secondary water compression plate 593.3 Secondary water pressure compression plate 712. Overflow opening 733. Collector compartment 744. Gravity generating pipe 771. Gravity generating plate 995. Microwave oscillator
9.Fluid inlet pipe 77.Fluid inlet pipe control valve 78.Pressure pump 291.Inlet pipe 120.Air injection port 3000.Air inlet pipe 585.Water flow riser plate 744.Gravity generating pipe 5811.Gravity generating pipe 5822.Gravity generating pipe Regulating valve 903. Airtight plate
925 Collector divider 3355 Collector discharge valve 9111 Collector compartment
791.The first partition plate 792.The second partition plate 793.The third partition plate
7011. First gravity generating plate 7022. Second gravity generating plate 7033. Third gravity generating plate 7044. Fourth gravity generating plate 7811. First low rise passage 7822. Second low rise passage 7833. Third low rise passage 7911. First Gravity guide plate 7922.2nd gravity guide plate 7933.3rd gravity guide plate
1102.One side plate 1011.The other side plate
99. Brush 301. First material separation compartment 302. Second material separation compartment 998. Brush shaft
9988. Rotating Poly 9989. Index Member and Brush Shaft Case
9990 Brush Shaft Case 9991 Brush Shaft Support

Claims (21)


In the method of purifying fresh water or sea water by adjusting the amount of water and discharged after stirring or striking sea water, fresh water, alcohol, drink, or liquid food by using a brush and a compression tank, a solar collector plate and a brush,
Comprising a circular or angular configuration is provided with a filter barrel (1) for exerting a water purification function and the filter barrel outlet 8 is provided at one side of the lower end of the filter barrel (1);
The filter barrel discharge port (8) is provided with a filter barrel discharge control valve (7) to control the discharge of sea water or fresh water or liquor, beverage or liquid food flowing into the filter barrel (1);
The lower and middle portions of the strainer (1) are inserted into the through hole (97) formed in the shaft (98) across one side and the other side of the strainer (1);
One side and the other side of the shaft 98 of the brush 99 are installed across the trough 1 by white paper 95 and one shaft 98 of the brush 99 is coupled to the motor 11. With stirring and stirring the sea water or fresh water or liquor or beverage or fluid food flowing into the strainer (1);

Around the upper end of the barrel (1) is provided with a primary filter compartment (5), secondary filter compartment (4) and tertiary filter compartment (3);
A sponge or a non-woven fabric or a cloth or membrane filtration cloth 34 is installed on the upper portion of the primary filtration compartment 5, the secondary filtration compartment 4 and the tertiary filtration compartment 3 to filter impurities;

A collecting port 51 is provided at one side of the first filtering compartment 5, the second filtering compartment 4, and the third filtering compartment 3, and at one end of the collecting compartment 51, the first filtering compartment ( 5) and the primary filter compartment (4), the secondary filter compartment (4) and the secondary filter compartment (4) and the third filter compartment (3) through the collecting compartment (51) Inorganic substances and influents contained in seawater or fresh water, or in alcohol, beverages, or liquid foods flowing into the primary collectors 54, secondary collectors 59, and tertiary collectors 52 formed at the lower end of the Collector control valve 53 is provided to adjust the inflow of the;

At the lower end of the primary compartment 5 is provided with a primary collector (54) is a weapon contained in the seawater or fresh water or alcohol or beverages or liquid food flows into the primary through the primary compartment (5) Or with collecting organic matter;

At the lower end of the secondary compartment 4 is provided with a secondary collector (59), the inorganic water contained in the sea water or fresh water, or liquor, beverages or liquid food flowed into the secondary through the secondary compartment (4) Or with collecting organic matter;

The lower end of the tertiary bin 3 is provided with a tertiary collection bin 52, the weapons contained in the sea water or fresh water, or liquor, beverages or liquid food flowed into the tertiary through the tertiary bin 3 Or with collecting organic matter;

On the left and right sides of the 1,2,3, car filter compartments 3,4,5, the seawater or fresh water which is introduced into the fourth water after passing through the 1,2,3, car filter compartments 3,4,5 Or a fourth collector (2) for collecting inorganic or organic substances contained in alcoholic beverages or beverages or liquid foods and a fourth collector outlet (33) formed at the lower part of the fourth collector;
The bottom of the fourth collecting bin outlet 33 is configured with a final collecting barrel 55 collecting the by-products of the finally collected seawater or fresh water or by-products collected from alcohol, beverages or liquid foods;

At the upper end of the compartments 3, 4 and 5, a heat plate 56 for converting electricity collected from general power or the solar collector plate 58 into heat is electrically coupled to the solar collector plate 58. With being installed;
The hot plate 56 is an inorganic or organic or contaminant component and seawater that has been separated from fresh water or seawater passing through the first and second order compartments 3, 4 and 5, alcohol, beverage or liquid food. Raising the temperature of the ingredients to produce fresh water or seawater, by-products of alcohol, beverages or liquid foods, or to produce gases;

The gas collection plate of the sealed structure to collect the gas generated by the heating of the hot plate 56 around the upper periphery of the 1,2,3 collection compartments (3,4,5) and the fourth collection tank (2) (73) is installed and the gas collecting plate 75 is configured at the upper portion of the gas collecting plate (73);

The upper part of the filter barrel (1) is provided with a compression cylinder (76) having a through hole, and the outer and inner peripheral surfaces of the compression cylinder (76) are provided with a filter compartment (22) having a through hole and the filter compartment ( 22, the filter member 88, such as sand gravel, hollow fiber membranes, sponge or nonwoven fabric is accommodated to complete the compression cylinder 76;

Inside the compression cylinder 76 is provided with an inflow pipe 9 for introducing fresh water or sea water or liquor or beverage or flowable food, and the top of the inflow pipe 9 is sea water or fresh water or liquor or beverage or fluid food. With an inlet control valve 77 of the;
A pressurized pump 78 is provided in the middle of the inflow pipe 9 to forcibly introduce fresh water, sea water, liquor, beverage, or liquid food into the compression container 76. with;

A gas collecting plate 74 having a sealed structure is formed at the upper portion of the strainer 1 and the compression cylinder 76, and a gas collecting cylinder 75 is formed at the upper portion of the gas collecting plate 74. Pressure generated in the 76 and the heating action of the hot plate 56 constituted in the 1,2,3 secondary filter compartments 3,4,5 and the brush configured in the interior of the trap 1 Collecting gas generated by the stirring action of 11);

Fresh water, sea water or alcohol or beverage or fluid food passing through the compression container 76 is a small amount of fresh water or sea water or alcohol or beverage or fluidity to the upper part of the 1,2,3 primary filter compartment (3,4,5). Fresh water or seawater discharged through the trough outlet 8 by adjusting the inlet control valve 77 and the trough discharge control valve 7 of the seawater or fresh water or liquor or beverage or flowable food to overflow the food; Alternatively, by controlling the discharge of alcohol, beverages, or liquid foods, the brush 11 is operated to cause pollutant molecules bound to fresh water by the action of gravity to be released from fresh water, or seawater and salt components combined with seawater. Substances that are released from the seawater or that are lightly contained in alcoholic beverages, beverages or liquid foods Out to the friction material and acting together with the blast material Sikkim 10 minutes for 240 hours caused action;

Pollutant molecules combined with fresh water and seawater and salt components combined with fresh water by the material friction and material explosion action generated by the action of the brush 11 or contained in alcoholic beverages, beverages or liquid foods 100% inflow of fresh water or seawater flowing through the inflow pipe 9 or liquor, beverages or liquid foods is introduced into the compression container so that harmful substances having a low specific gravity are automatically floated to the upper portion of the trough 1 by gravity. 76) and at the same time filled with fresh water or sea water, alcohol, beverages or liquid foods to the upper end of the water reservoir (1)
70% of the discharge of fresh water or sea water or alcohol, beverages or liquid food discharged by adjusting the filter barrel discharge control valve (7) coupled to the filter barrel discharge port (8) configured in the lower portion of the filter barrel (1) When discharging only ~ 99.999%, the first, second, and third filter bins (3,4) after the remaining 0.001% to 30% of fresh water or seawater, alcohol, beverages or liquid foods overflow the upper end of the low water level of the trough (1). And (5) and quaternary collection vessels (2) to collect and remove inorganic or organic suspended solids that have been removed from fresh water, sea water, alcohol, beverages or liquid foods. Clean fresh water or clean sea water or extract pollutants contained in fresh water for energy use, clean contaminated fresh water clean water, or clean sea water from seawater molecules Use the molecules as drinking water or water ballast water to fill the vessel, or collect seawater and salt components from the seawater molecules and use them as seawater for salt production, or use saltwater to produce salt substitute foods. Prepare saltwater or wastewater or freshwater or seawater, or prepare food additives to clean the seawater, or prepare saltwater by mixing the saltwater collected by stirring the saltwater in freshwater to make freshwater or collected from seawater. Harmful substances contained in milk, vinegar and beverages using liquid and organic substances to make alcohol, or to make alcohol by removing lightly harmful substances contained in alcohol. Remove the substance and Process for obtaining energy by processing seawater, which is characterized by the manufacture of liquid foods; Process for producing fresh water using seawater components; Process for purifying fresh water or tap water, sewage or wastewater or fresh water or salt water, and salt production The process of manufacturing seawater, the process of manufacturing ballast water for ships, the process of extracting salt substitute food from seawater, the process of making alcohol, the liquid food such as soy sauce, red pepper paste or miso, and the production of food such as milk, vinegar and beverage Construction method and eco-friendly food waste disposal method, environmentally friendly waste disposal method and water purifier

In the method of purifying fresh water or sea water by adjusting the amount of water and discharged after stirring or striking sea water, fresh water, alcohol, drink, or liquid food by using a brush and a compression tank, a solar collector plate and a brush,

One side into which the fluid is introduced into the rectangular shape is high, and the other side from which the fluid is discharged is configured to be low, and the material separation container 100 having a water purification function is provided. It is provided with a plurality of water diffusion plate 988 so that the other end and the lower end of the material separation tube 100 is open and the lower end is inclined (경) to form a water flow diffusion passage (999). Constructing a compartment 902;

The water flow diffusion plate 988 of the material separation compartment 902 constitutes a microwave vibrator 995 to generate continuous wavelengths;

A side of the material separation tube 100, on one side of the front part of the brush 990 and the lower layer brush 96, in order to facilitate attachment and detachment of the prefabricated brush shaft case coupler 889 in the form of a plurality of squares;
An outer circumferential surface of the prefabricated brush shaft case coupler 889 constitutes a through-hole assembly 890 so as to fit the combiner 881 which couples the prefabricated brush shaft case 888 together;

Between the water flow diffusion plate 988 and the material separation compartment 902
Constituting a plurality of brush shafts 98 across one side and the other side of the material separation vessel 100 together;

The brush shaft 98 is configured with a brush 99;
One side of the shaft 98 of the brush is combined with the prefabricated brush shaft case 888 to combine the mechanical seal 807 that acts to waterproof and watertight;

The other side of the shaft 98 of the brush 99 is composed of white paper using a mechanical seal case (not shown) coupled with the mechanical seal 807 formed through the material separation container 100. with;

Prefabricated brush shaft case 888 is coupled to the shaft 98 of the brush and the white paper is a combination cylinder consisting of the other side of the material separation cylinder 100 by the prefabricated brush shaft case assembly 881 consisting of bolts and nuts. With white paper coupled to tool 890;

The brush shaft poly 806 is configured at the other side of the brush shaft 98;
A drive motor 800 is provided on the outside of the material separation container 100 to exert an effect of constituting the brush shaft poly 806;
The drive motor 800 is coupled to be operated by a separate control system (not shown) configured separately;

A driving pulley 802 is configured at one side of the driving motor 800, and a driven pulley 803 is formed at the upper side of the driving pulley 802 by a support provided to adjust tension and spacing of the double-sided belt 805. with;
The driven poly 803 is provided with a double-sided belt 805 is coupled to cross the upper and lower portions of each of the brush shaft pulleys 806 of the material separation compartment 902;
The driving motor 800 continuously operates the brush 99 and the lower layer brush 96 which are continuously coupled to the double-sided belt 805 and the driving pulley 802 and the material separation container 100. Agitating seawater, fresh water, or wastewater, sewage, tap water, liquor, beverages, or flowable food flowing into the material separation compartment 902 to continuously generate material explosion and material friction action;

A lower layer brush 96 is formed in the lower space of the water flow diffusion compartment 988 so as to strike and separate the fluid material molecules passing through the water flow diffusion passage 999 again;
The lower layer brush 96 is configured with a white paper on one side and the other side of the material separation container 100 using a lower layer brush shaft (not shown) coupled with a mechanicasil exerts a watertight action;
One side of the lower layer brush 96 is configured with a driven poly (not shown)
By using a double-sided belt (not shown) configured on both sides between the driven pulley (not shown) configured on one side of the shaft of the lower layer brush 96 and the drive pulley 802 configured on the drive motor 800. Coupled with the transmission of power;

The outlet 900 is coupled to the discharge valve 901 on one side of the lower end of the material separation container 100 to adjust the discharge of seawater or fresh water or alcohol or beverage or liquid food discharged to the material separation container 100. with;

The upper end of the material separation container 100 is sealed with a closed plate (903);
After forming a through hole 747 in the middle of the sealed plate 903, a coupling pipe 745 is installed on an upper portion of the through hole 747, and then a first gravity generating pipe 746 in the coupling pipe 745. And a plurality of gravity pipes 744 are installed;
The first gravity pipe 746 and the upper portion of the gravity pipe 744 constitutes a collecting chamber 733 for collecting the suspended substances overflowing the first gravity pipe 746 and the gravity pipe 744. After installing the collecting pipe 711 at the lower end of the collecting compartment 733, the lower end of the collecting pipe 711 constitutes the collecting port 700 to collect the suspended solids overflowing into the collecting unit 733 With collecting;

An upper portion of the first gravity pipe 746 is provided with an inflow pipe 9 for introducing fresh water, sea water, sewage, or drinking water, waste water, liquor, beverage, or flowable food, and the upper portion of the inflow pipe 9 is seawater. Or an inlet control valve 77 for fresh water or alcohol or beverage or flowable food;
One end of the inflow pipe (9) is provided with a pressure pump (78) so that the first gravity force to force the material explosion action and material friction action of the sea water or fresh water or sewage water or waste water or liquor or beverage or flowable food Fresh water, seawater, liquor, beverages, or flowable foods are introduced into the material separation unit 902 through a pipe 746 to allow the material purification barrel 100, the first gravity pipe 746, and a gravity pipe 744 to flow. At the same time

The brush 11 and the lower layer brush 96 are operated to generate a material explosion action and material friction to separate pollutant molecules mixed with sewage and clean water molecules by the action of gravity, or contaminant molecules bonded to fresh water. Reminding them to emanate from fresh water, to seawater and salt components combined with seawater, to emanate from seawater, or to allow light weight substances in alcoholic beverages, beverages, or liquid foods to escape from alcoholic beverages, beverages, or liquid foods. Generating mass friction and explosive action generated by the brush 99 and the bottom brush 96 for 10 minutes to 480 hours;

The contaminant molecules combined with fresh water and the contaminant molecules mixed with fresh water by the action of the brush 99 and the lower layer brush 96 and the seawater component and salt combined with seawater Inflow pipe (9) such that the components or the harmful substances having a low specific gravity contained in alcohol, beverages or liquid foods are automatically floated to the upper portion of the first gravity pipe 746 and the gravity pipe 100 by the action of gravity. Continuous inflow of fresh water or sewage or wastewater or seawater or 100% of alcohol, beverages, or liquid foods introduced into the material separation compartment 902 and


70% to 99.999% of the discharge amount of fresh water or sea water or alcohol or beverage or liquid food discharged by adjusting the discharge control valve 901 which is coupled to the discharge port 900 configured at the lower part of the material separation compartment 100. When the bay is discharged, the collection compartment 733 is opened after the remaining 0.001% to 30% of fresh water, sea water, alcohol, beverage, or liquid food overflows the upper end of the low water level of the first gravity pipe 746 and the gravity pipe 744. To purify polluted fresh water or to clean up seawater by collecting and removing inorganic or organic suspended solids that are lightly separated from fresh water, sea water, alcohol, beverages, or liquid food. Extract pollutant molecules in fresh water or pollutants in fresh water and use them as energy or clean the fresh water contaminated May be used as drinking water for clean seawater molecules released from seawater molecules, or as ballast water filled in vessels by purifying seawater, or used as seawater for salt production by collecting seawater and salt components released from seawater molecules; or Purify salt water to make salt substitute food, or sewage or waste water or fresh water or salt water, or prepare food additives that can be eaten by purifying salt water, or mix salt water components collected by stirring salt water to salt water It can be used as energy by using mineral or organic materials collected from sea water or by using organic materials, or by removing harmful light substances in liquor, making alcohol or liquidity such as soy sauce, miso, ketchup or red pepper paste. Food and Wu And by removing the harmful substances contained in the vinegar and beverages, characterized in that for preparing the beverage and liquid food

A method of processing seawater to obtain energy, a method of preparing fresh water using seawater components, a method of purifying fresh water or tap water and sewage, wastewater or fresh water or seawater, a method of manufacturing salt water, and a ballast water for ships Manufacturing method, extracting salt substitute food from seawater, manufacturing method for liquor, liquid food such as soy sauce, red pepper paste or miso, and manufacturing method for foods such as milk, vinegar and beverages Waste treatment method and water purifier


After the circular dilution vessel 200 is formed and the reducer seat 205 is configured on the upper side of the dilution vessel 200, the reducer 202 coupled with the motor is installed on the reducer seat 205 and the reducer ( After combining the rotating brush shaft 203 with the rotating brush shaft 203, the rotating brush 201 is configured;
Combining the discharge port 207 and the discharge valve 208 to one side of the lower end of the dilution vessel 200, and configured;

In addition to configuring the pressing frame 311 is formed through the hole 351 in the pressing frame frame 500;
With a non-woven fabric (322) such as cloth in the inside of the crimping frame (311);

The hydraulic cylinder 325 coupled with the hydraulic cylinder rod 326 is coupled to the upper portion of the pressing frame frame 500 using the white paper 327;
Coupled to the cylinder plate 326 to the pressing plate (323);

At the lower end of the pressing plate 311, the collecting plate 335 for collecting the fluid material generated when the pressing plate 311 is pressed together with the zoom;

One side of the collection container 335 읠 together with the discharge pipe 333 coupled to the discharge control valve 331;

After the food waste is put into the dilution vessel 200 configured as described above, water 5-30 wt% is additionally added, and then the rotary brush 201 is operated for 5 to 60 minutes to dilute food waste and water. With handful;
Diluting the diluted food waste mixture 385 into the pressing mold 311;
Operating the hydraulic cylinder 325 such that the food waste mixture 385 filled in the pressing frame 311 is compressed;
Collecting water, salt components and other fluid components generated by the pressing force of the hydraulic cylinder 325 using the collection container 335;

Drying the food wastes from which the salts and other contaminants removed from the food wastes are made into a feed or a fertilizer;

Separation of the first gravity pipe 746 from the first gravity pipe 746 by using the pressure pump 78 to remove the fluid material consisting of salt and contaminant components contained in the collecting container 335 while being separated from food waste Eco-friendly food waste treatment method characterized in that the cleansing using clean water using the brush 99, the lower layer brush 96 and the material separation container 100 provided with a compartment 902.
The method of claim 3,
Food waste and animal waste, phosphorus and sewage sludge and tap water sludge, any one of the materials or a mixture of about 70 ~ 99wt%, 1 ~ 30wt% of soil and 1 ~ 20wt% of water mixed and then mixed using the pressing frame (323) Eco-friendly waste treatment method characterized in that the remaining waste mixture after pressing to use as a fertilizer or feed or fuel

The method of claim 3,
After squeezing the food waste mixture, only the salt component is removed by using the material separation container 100 system, and then the fluidized materials are mixed with the flowable microorganism about 0.5 to 5 wt% for 1 to 72 hours. Eco-friendly waste disposal method characterized in that it is used as a liquid fertilizer after fermentation for a while
The method of claim 3,
Compressor after mixing food waste, animal waste, phosphorus, sewage sludge, and water sludge, or any one of these substances, or a mixture of about 70-99 wt% of the mixture, 1-30 wt% of soil, and 1-20 wt% of water. Eco-friendly waste treatment method characterized in that it is used as a fertilizer or feed or fuel after mixing 0.5 ~ 5wt% of the useful microorganisms and fermentation for 1 to 72 hours to the waste mixture remaining after pressing using the (323)
In the method of purifying fresh water or sea water by adjusting the amount of water and discharged after stirring or striking sea water, fresh water, alcohol, drink, or liquid food by using a brush and a compression tank, a solar collector plate and a brush,

One side into which the fluid is introduced into the rectangular shape is high, and the other side from which the fluid is discharged is configured to be low, and the material separation container 100 having a water purification function is provided, and the front side and the rear part of the inside of the material separation container 100. Block the other side to constitute the first material separation plate 777, but the lower portion
The primary material separation compartment 903 is provided with a water flow diffusion passage 999 in an open form so that the fluid substances flowing into the first material separation compartment 903 can be easily moved to the second material separation compartment 904. With);

At the end of the first material separation plate 777
A microwave vibrator 995 for generating an electromagnetic wave that continuously explodes the molecular structure of the material molecule to continuously generate a material explosion action and a material friction action;

After forming the first gravity generating pipe 812 in the shape of a quadrangle on the upper portion of the first material separation compartment 903, one end of the upper portion of the first gravity generating pipe 812 has a low specific gravity fluids With the overflow port 712 configured to naturally overflow;

With the configuration of the collecting port 700 for collecting the light-weight fluid materials on one end side of the first gravity pipe (812);
A fluid having a low specific gravity overflowing the overflow hole 712 formed in the first gravity pipe 812 by forming a collecting pipe 711 between the overflow hole 712 and the collecting hole 700. With transporting the sex material to the collection port 700;

The upper end of the first gravity pipe 812 is composed of a pressure pump 78 to the inlet pipe 9 and the inlet control valve 77 for introducing the fluid material to the material separation tube 100 continuously With introducing fluid materials;


Separating the second material by interposing the inner bottom portion and one side of the front portion and the other side of the material separation vessel 100 in the next space of the primary material separation compartment 903 provided in the material separation vessel 100 Installing a plate 909 to configure the secondary material separation compartment 904;

An upper portion of the secondary material separator plate 909 has a fluid movement passage at a constant height such that fluid materials moved from the secondary material separator compartment 904 can move to the third material separator compartment 905. 908 to comprise the secondary material separation compartment 904;

An inclined water flow guide plate 996 is formed on the upper portion of the second material separation compartment 904 to seal an upper portion of the second material separation compartment 904 and at the same time, the second material separation compartment 904. With fluid fluids moving in the second material separation compartment 904 to easily move to the third material separation compartment 905 without remaining in the second material separation compartment 904;

A microwave vibrator 995 is provided on the secondary material separation plate 909 to generate an electromagnetic wave that explodes the molecular structure of the material molecule to continuously generate a material explosion action;


In the next space of the second material separation compartment 904

The third material separation plate 778 is formed by intercepting one side of the front part and the other side of the rear part of the material separation container 100,
The third material separation compartment includes a water flow diffusion passage 999 in the form of a lower end portion so that the fluid materials flowing into the fourth material separation compartment 906 can be easily moved to the fourth material separation compartment 906. 905;

At the lower end of the third material separation plate 778
A microwave oscillator 995 is provided to generate electromagnetic waves that continuously explode the molecular structure of the material molecules, thereby generating material explosion and material friction actions continuously;

After forming the second gravity generating pipe 813 in the form of a quadrangle on the upper portion of the third material separation compartment 905, one end of the upper portion of the second gravity generating pipe 813 has light weight specific gravity fluids. With the overflow port 712 configured to naturally overflow;

With the configuration of the collecting port 700 for collecting the light-weight fluid materials on one end side of the second gravity pipe (813);
A fluid having a low specific gravity overflowing the overflow hole 712 formed in the second gravity pipe 813 by forming a collecting pipe 711 between the overflow hole 712 and the collecting hole 700. With transporting the sex materials to the collection port 700;


The fourth material separation plate is formed in the next space of the third material separation compartment 905 provided in the material separation container 100 so as to intersect the inner bottom part and one side of the material separation part 100 and the other side of the rear part of the material separation container 100. 779 is installed to configure the fourth material separation compartment 906 and the fifth material separation compartment 907;

An upper portion of the fourth material separation plate 779 has a fluid movement passage at a constant height so that the fluid materials moved from the fourth material separation compartment 906 may move to the fifth material separation compartment 907. 908 with;

An inclined water flow guide plate 996 is formed on the fourth material separation compartment 906 to seal an upper portion of the fourth material separation compartment 906 and at the same time, the fourth material separation compartment ( With fluid fluids moved in 906 to easily move to the fifth material separator 907 without remaining stagnant in the fourth material separator 906;

A microwave vibrator 995 is provided on the fourth material separation plate 779 to generate electromagnetic waves that continuously explode the molecular structure of the material molecules, thereby generating material explosion and material friction effects continuously. ;

After forming the third gravity generating pipe 814 in the form of a square on the upper end of the fifth material separation compartment 906, one end of the upper portion of the third gravity generating pipe 814 is a light weight specific fluid With the overflow port 712 configured to naturally overflow;

With the configuration of the collecting port 700 for collecting the light-weight fluid materials on one end side of the third gravity pipe (814);
A fluid having a low specific gravity overflowing the overflow hole 712 formed in the third gravity pipe 814 by forming a collecting pipe 711 between the overflow hole 712 and the collecting hole 700. With transporting the sex material to the collection port 700;

The first, second, third, fourth, and fifth material separation compartments 903, 904, 905, 906, and 907 provide a plurality of brushes 99 using the brush shaft 98.

The shaft 98 of the brush is connected to the driving motor by a double-sided belt connected to the driven poly and the driving poly, and continuously rotates in seawater or fresh water or wastewater or sewage or tap water which flows into the material physical container 100. Or by stirring liquor, beverages or liquid foods to continuously generate mass explosion and mass friction;

The outlet 900 is coupled to the discharge valve 901 on one side of the lower end of the material separation container 100 to adjust the discharge of seawater or fresh water or alcohol or beverage or liquid food discharged to the material separation container 100. with;

The brush 99 is continuously operated to generate a material explosion and material friction to separate pollutant molecules mixed with sewage and clean water molecules by the action of gravity, or contaminant molecules bound to fresh water are separated from fresh water. Or the salt and salt components combined with sea water to be released from the sea water, or the light weight substances contained in alcohol, beverages or liquid foods to escape from alcohol, beverages or liquid foods. Generating mass friction and mass explosion action generated by the rotation and microwave oscillator 995 for 5 minutes to 4800 hours;

The contaminant molecules combined with fresh water and the contaminant molecules mixed with fresh water by the action of the brush 99 and the microwave vibrator 995 and the seawater components combined with the seawater The salts and / or lightly hazardous substances in alcohol, beverages or liquid foods may be

60wt% ~ 99.9999999wt of discharge of fresh water or sea water or alcohol or beverage or liquid food discharged by adjusting the discharge control valve 901 which is combined with the discharge port 900 configured at the lower part of the material separation container 100 Collect and use only the discharged%, the remaining 0.000001wt% ~ 40wt% of fresh water or sea water or light harmful substances released from fluids such as alcoholic beverages, beverages or liquid foods and the overflow hole 712 and By using the method of collecting by using the collection container 700 to clean the polluted fresh water or to clean the sea water by using a method of collecting or using inorganic or organic suspended solids with a light specific gravity or Extract pollutant molecules in fresh water or pollutants in fresh water and use them as energy or clean the fresh water contaminated Or use clean seawater molecules released from seawater molecules as drinking water, or use ballast water to fill the vessel by purifying seawater, or collect seawater and salt components from seawater molecules and use them as seawater for salt production. Purify salt water to make salt substitute food, or sewage or waste water or fresh water or salt water, or prepare food additives that can be eaten by purifying salt water, or mix salt water ingredients collected by stirring salt water into fresh water It can be used as energy by using mineral or organic materials collected from sea water or by using organic materials, or by removing harmful light substances in liquor, making alcohol or liquidity such as soy sauce, miso, ketchup or red pepper paste. Food Department Remove the oil and vinegar and the harmful substances contained in the beverage to, characterized in that for preparing the beverage and liquid food

A method of processing seawater to obtain energy, a method of preparing fresh water using seawater components, a method of purifying fresh water or tap water and sewage, wastewater or fresh water or seawater, a method of manufacturing salt water, and a ballast water for ships Manufacturing method, extracting salt substitute food from seawater, manufacturing method for liquor, liquid food such as soy sauce, red pepper paste or miso, and manufacturing method for foods such as milk, vinegar and beverages Waste treatment method and water purifier

In the method of purifying fresh water or sea water by adjusting the amount of water and discharged after stirring or striking sea water, fresh water, alcohol, drink, or liquid food by using a brush and a compression tank, a solar collector plate and a brush,


One side into which the fluid is introduced into the rectangular rectangle is configured to be high by using the supporter 101, and the other side to which the fluid is discharged to be configured by the lower side is provided with a material separation container 100 to perform the water purification function while the fluid materials flow down naturally. The first material separation plate and the fluid diffusion plate 501 may be formed by interposing one side of the front part and the other side of the rear part of the material separation container 100 to form a first material separation plate and the fluid diffusion plate 501. The front part is fixed to one side and the other side of the material separation tube 100 in a form inclined slightly backward to form a first material separation compartment 882,

On the back of the first material separation plate and the fluid diffusion plate 501, the harmful substances contained in the fluid materials flowing into the first material separation compartment 882 and the fluid materials having a low specific gravity are brushes 99. Due to the gravity action and the diffusion of air generated by the air generating device 102, the gravity-bearing fluids that are separated from the fluids by the material friction action and the material explosion action generated by the rotational force of The fluid diffusion plate 816 is configured again in the form of an isosceles triangle (<) so as to easily move to the upper portion of the first material separation compartment 882 configured in the material separation vessel 100. together;

The lower portion of the first material separation plate and the fluid diffusion plate 501 has a first lower-layer moving passage 810 to facilitate the movement of the fluid substances flowing into the material separation cylinder 100, the material separation cylinder 100 With the configuration across one and the other side of the;

The first material separation compartment 882 comprises a plurality of brushes 99 penetrating through one side and the other side of the material separation cylinder 100 using the shaft 98 of the brush;
The lower end of the first material separation compartment 882 constitutes an air injector 102 for injecting air, and the fluid is formed by the rotational force of the brush 99 formed in the first material separation compartment 882. Exerts a function of raising the harmful substances having a low specific gravity leaving the material substance to the upper portion of the first material separation compartment 882;
An overflow hole 712 is formed in the upper portion of the first material separation compartment 882 so that fluid materials having a light specific gravity overflow;

The middle portion of the first material separation compartment 882 is provided with a collecting tank 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting cylinder ( With the connection between the 700 using a collecting pipe 711;
The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

An inlet control valve constituting an inlet pipe 9 for introducing various kinds of fluid substances at the upper portion of the first material separation compartment 882 and controlling an inflow amount at one end of the inlet pipe 9. 77) with constitution;
The inlet pipe (9) is configured with a pressure pump (78) for introducing the inflowing fluid substances;

In the next space of the first material separation compartment 882
The second material separation plate and the fluid diffusion plate 502 constitute the second material separation plate and the fluid diffusion plate 502 by interposing one side of the front part and the other side of the rear part of the material separation container 100, and the front part of the first material separation plate and the fluid diffusion plate 502. It is fixed to one side and the other side of the material separation container 100 in a slightly inclined form to form a second material separation compartment (883),

On the back of the second material separation plate and the fluid diffusion plate 502, the harmful substances contained in the fluid materials flowing into the second material separation compartment 883 and the fluid materials having a low specific gravity are included in the brush 99. Due to the gravity action and the diffusion of air generated by the air generating device 102, the gravity-bearing fluids that are separated from the fluids by the material friction action and the material explosion action generated by the rotational force of The fluid diffusion plate 816 is configured again in the form of an isosceles triangle (<) so as to easily move to the upper portion of the second material separation compartment 883 configured in the material separation vessel 100. together;

The lower portion of the second material separation plate and the fluid diffusion plate 502 has a second bottom layer moving passage 811 to facilitate the movement of the fluid substances flowing into the material separation cylinder 100, the material separation cylinder 100 With the configuration across one and the other side of the;

The second material separation compartment 883 includes a plurality of brushes 99 penetrating through one side and the other side of the material separation tube 100 using the axis 98 of the brush;
The lower end of the second material separation compartment 883 constitutes an air injector 102 for injecting air, and the fluid is formed by the rotational force of the brush 99 formed in the second material separation compartment 883. Exerts a function of raising the harmful substances having a low specific gravity leaving the material substance to the upper portion of the second material separating compartment 883;
An overflow hole 712 is formed in the upper portion of the second material separation compartment 883 so that fluid materials having a low specific gravity overflow;

The middle portion of the second material separation compartment 883 is provided with a collecting tank 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting cylinder ( With the connection between the 700 using a collecting pipe 711;
The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space of the second material separation compartment (883)

The front side of the third material separation plate and the fluid diffusion plate 503 constitutes a third material separation plate and the fluid diffusion plate 503 by intercepting one of the front and one rear part of the inside of the material separation container 100. Fixed to one side and the other side of the material separation tube 100 in a slightly inclined form to form a third material separation compartment 884,

On the back of the third material separation plate and the fluid diffusion plate 503, the harmful substances contained in the fluid materials flowing into the third material separation compartment 884 and the fluid materials having a low specific gravity are brushes 99. Due to the gravity action and the diffusion of air generated by the air generating device 102, the gravity-bearing fluids that are separated from the fluids by the material friction action and the material explosion action generated by the rotational force of The fluid diffusion plate 816 is configured again in the form of an isosceles triangle (<) so as to easily move to the upper portion of the third material separation compartment 884 configured in the material separation container 100. together;

The lower portion of the third material separating plate and the fluid diffusion plate 503 has a third low-layer moving passage 812 to facilitate the movement of the fluid materials flowing into the material separating container 100. With the configuration across one and the other side of the;

The third material separation compartment 884 includes a plurality of brushes 99 penetrating through one side and the other side of the material separation tube 100 using the brush shaft 98;
The lower end of the third material separation compartment 884 constitutes an air injector 102 for injecting air, and the fluid is generated by the rotational force of the brush 99 formed in the third material separation compartment 884. Exerts a function of raising the harmful substances having a low specific gravity leaving the material substance to the upper portion of the third material separating compartment 884;
An overflow hole 712 is formed in the upper portion of the third material separation compartment 884 to overflow the fluid materials having a light specific gravity;

The middle portion of the third material separation compartment 884 is provided with a collecting tank 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting cylinder ( With the connection between the 700 using a collecting pipe 711;
The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;


In the next space of the third material separation compartment 884

The first material separation plate and the fluid diffusion plate 504 constitute the fourth material separation plate and the fluid diffusion plate 504 by interposing one side of the front part and the other side of the rear part of the material separation container 100. It is fixed to one side and the other side of the material separation tube 100 in a slightly inclined form to form a fourth material separation compartment 885,

On the back of the fourth material separation plate and the fluid diffusion plate 504, the brushes 99 are formed of harmful substances contained in the fluid materials flowing into the fourth material separation compartment 885 and light materials having a low specific gravity. Due to the gravity action and the diffusion of air generated by the air generating device 102, the gravity-bearing fluids that are separated from the fluids by the material friction action and the material explosion action generated by the rotational force of The fluid diffusion plate 816 is configured again in the form of an isosceles triangle (<) so as to easily move to the upper portion of the fourth material separation compartment 885 configured in the material separation vessel 100. together;

A lower end portion of the fourth material separating plate and the fluid diffusion plate 504 has a fourth lower-layer moving passage 813 to facilitate the movement of the fluid substances flowing into the material separating tube 100. With the configuration across one and the other side of the;

The fourth material separation compartment 885 includes a plurality of brushes 99 penetrating through one side and the other side of the material separation tube 100 using the brush's shaft 98;
The lower end of the fourth material separation compartment (885) constitutes an air injector 102 for injecting air to the fluid by the rotational force of the brush 99 is configured in the fourth material separation compartment (885) Exerts a function of raising the harmful substances having a low specific gravity leaving the substance to the upper portion of the fourth material separation compartment 885;
An overflow hole 712 is formed in the upper portion of the fourth material separation compartment 885 so that fluid materials having a low specific gravity overflow;

A middle portion of the fourth material separation compartment 885 is provided with a collecting vessel 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, and the overflow opening 712 and the collecting vessel ( With the connection between the 700 using a collecting pipe 711;
The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space of the fourth material separation compartment (885)

A fifth material separation plate and a fluid diffusion plate 505 may be formed by intercepting one side of the front part and the other side of the rear part of the material separation container 100, and the front part of the fifth material separation plate and the fluid diffusion plate 505. The fifth material separation compartment 886 is fixed by fixing to one side and the other side of the material separation tube 100 in a slightly inclined form.

On the back of the fifth material separation plate and the fluid diffusion plate 505, the harmful substances contained in the fluid materials flowing into the fifth material separation compartment 886 and the fluid materials having a low specific gravity are brushes 99. Due to the gravity action and the diffusion of air generated by the air generating device 102, the gravity-bearing fluids that are separated from the fluids by the material friction action and the material explosion action generated by the rotational force of The fluid diffusion plate 816 is configured again in the form of an isosceles triangle (<) so as to easily move to the upper portion of the fifth material separation compartment 886 configured in the material separation vessel 100. together;

A fifth lower layer moving passage 814 is provided at a lower portion of the fifth material separating plate and the fluid diffusion plate 505 to facilitate the movement of the fluid substances introduced into the material separating container 100. With the configuration across one and the other side of the;

The fifth material separation compartment 886 includes a plurality of brushes 99 penetrating through one side and the other side of the material separation tube 100 using the shaft 98 of the brush;
The lower end of the fifth material separation compartment 886 constitutes an air injector 102 for injecting air, and the fluid is formed by the rotational force of the brush 99 formed in the fifth material separation compartment 886. Exerts a function of raising the harmful substances having a low specific gravity leaving the substance to the upper portion of the fifth material separating compartment 886;
The overflow layer 712 is formed in the upper portion of the fifth material separation compartment 886 so that the fluid materials having a light specific gravity overflow.

The middle portion of the fifth material separation compartment 886 is provided with a collecting tank 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting cylinder ( With the connection between the 700 using a collecting pipe 711;
The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space of the fifth material separation compartment 886

The front side of the sixth material separation plate and the fluid diffusion plate 506 constitutes a sixth material separation plate and the fluid diffusion plate 506 by intercepting one side of the front part and the other side of the rear part of the material separation container 100. A sixth material separation compartment 887 and a seventh material separation compartment 906 are fixed to one side and the other side of the material separation tube 100 in a slightly inclined form,


On the back of the sixth material separation plate and the fluid diffusion plate 506, the harmful substances contained in the fluid materials flowing into the sixth material separation compartment 887 and the fluid materials having a low specific gravity are brushes 99. Due to the gravity action and the diffusion of air generated by the air generating device 102, the gravity-bearing fluids that are separated from the fluids by the material friction action and the material explosion action generated by the rotational force of The fluid diffusion plate 816 is configured again in the form of an isosceles triangle (<) so as to easily move to the upper portion of the sixth material separation compartment 887 configured in the material separation vessel 100. together;

A sixth lower portion moving passage 815 is provided at a lower portion of the sixth material separation plate and the fluid diffusion plate 506 to facilitate the movement of the fluid substances introduced into the material separation tube 100. With the configuration across one and the other side of the;

In the sixth material separation compartment 887 and the seventh material separation compartment 906, a plurality of brushes 99 are penetrated through one side and the other side of the material separation tube 100 using the shaft 98 of the brush. With structuring;

The sixth material separation compartment 887 and the seventh material separation compartment 906 constitute an air injector 102 for injecting air at the lower ends of the sixth material separation compartment 887 and the seventh material separation compartment 887. Harmful substances having a low specific gravity coming out of the fluid material by the rotational force of the brush 99 constituted in the material separation compartment 906 are separated from the sixth material separation compartment 886 and the seventh material separation compartment 906. Exerts an action of raising to the upper layer of the;
An overflow hole 712 is formed in the upper portion of the sixth material separation compartment 886 and the seventh material separation compartment 906 to overflow the fluid materials having a light specific gravity;

A middle portion of the sixth material separation compartment 887 and the seventh material separation compartment 906 is provided with a collecting container 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712. It is connected between the overflow port 712 and the collecting container 700 by using a collecting pipe 711;
The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;
One side of the seventh material separation compartment 906 is provided with a discharge pipe 900 for discharging the pure fluid material processed in the material separation container 100 and one end of the discharge pipe (100) With a zoom to configure the discharge control valve 901 for controlling the discharge discharged from the;

The shaft 98 of the brush configured in each of the material separation compartments is connected to a drive motor (not shown) configured outside of the material separation container 100 and a drive pulley (not shown) and belt or After connecting to the chain after the process of operating the brush (99) for about 5 minutes to 4800 hours hitting the fluid substances introduced into the material separation container of the material separation container 100 Only 55wt% ~ 99.999999999wt% of the discharge of fluid food or fluid food, such as fresh water or sea water or alcohol or beverage, which is discharged by adjusting the discharge control valve 901 which is combined with the outlet port 900 configured in the lower part Collected and used, but the remaining 0.00000001wt% ~ 45wt% of fresh water or seawater or light harmful substances released from fluids such as alcohol, beverages or liquid foods Purify the polluted fresh water using a method of collecting and removing inorganic or organic suspended solids having a low specific gravity by using the collection method using the overflow holes 712 and the collecting container 700. Extracts pollutant molecules in fresh water or pollutants in fresh water and uses them as energy, cleans contaminated fresh water cleanly, or uses clean seawater molecules released from seawater molecules as drinking water Water is used as ballast water to fill the vessel by sea water purification, or seawater and salt components extracted from seawater molecules are collected and used as seawater for salt production, or seawater is purified to make salt substitute food, or sewage or wastewater Or purify fresh water or sea water or Prepare food additives that can be purified by drinking water, or by mixing saltwater ingredients collected by stirring seawater in freshwater to make freshwater as seawater, or by using inorganic and organic materials collected from seawater as energy. It is used to make alcohol by removing harmful substances that are used or have a low specific gravity in alcohol. Characterized by

A method of processing seawater to obtain energy, a method of preparing fresh water using seawater components, a method of purifying fresh water or tap water and sewage, wastewater or fresh water or seawater, a method of manufacturing salt water, and a ballast water for ships Manufacturing method, extracting salt substitute food from seawater, manufacturing method for liquor, liquid food such as soy sauce, red pepper paste or miso, and manufacturing method for foods such as milk, vinegar and beverages Waste treatment method and water purifier
In the method of purifying fresh water or sea water by adjusting the amount of water and discharged after stirring or striking sea water, fresh water, alcohol, drink, or liquid food by using a brush and a compression tank, a solar collector plate and a brush,

One side into which the fluid is introduced into the lozenge is configured high by using the support 101 and the other side through which the fluid is discharged is low, so that the fluid materials naturally flow down to the low place to exert a water purification function (100). ),

The first material separation plate and the water flow diffusion plate 701 constitute the first material separation plate and the water flow diffusion plate 701 by intercepting one side of the front part and the other rear part of the inside of the material separation container 100. It is fixed to one side and the other side of the material separation tube 100 in the form of inclined back slightly (<) to constitute a first material separation compartment 301,


At the lower end of the first material separation plate and the water flow diffusion plate 701, the harmful substances contained in the fluid materials flowing into the first material separation compartment 301 and the fluid materials having a low specific gravity are brushes 99. Due to the gravity action and the diffusion of air generated by the air generator 102, Easily move to the upper portion of the first material separation compartment 301 configured in the material separation container 100 and clean material molecules with a heavy specific gravity push out pollutant molecules having a low specific gravity and preferentially separate the material. The material powder in a triangular form (<△) slightly lifted to act to cut the material to be quickly moved to the discharge port 900 configured at one lower end of the barrel (100) The first low-layer moving passage 5011 is configured to facilitate the movement of the fluid materials introduced into the material separation tube 100 while simultaneously forming the water diffusion plate 817 across one side and the other side of the barrel 100. To configure the primary material separation compartment 301 and the secondary material separation compartment 302 together with the zoom;


The first material separation compartment 301 comprises a plurality of brushes 99 penetrating through one side and the other side of the material separation tube 100 using the shaft 98 of the brush;
The lower end of the first material separation compartment 301 constitutes an air injector 102 for injecting air, and the rotational force of the brush 99 configured in the first material separation compartment 301 is used. Exerts a function of raising the harmful substances having a light weight from the fluid material flowing into the material separating compartment 304 to the upper portion of the first material separating compartment 301;
The overflow layer 712 is formed in the upper portion of the first material separation compartment 301 so that fluid materials having a light specific gravity overflow.

In the middle portion of the first material separation compartment 301 is provided with a collecting tank 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting cylinder ( With the connection between the 700 using a collecting pipe 711;
The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space of the first material separation compartment 301

The second material separation plate and the water diffusion plate 702 are formed by interposing one side of the front part and the other side of the rear part of the material separation tube 100 to form a second material separation plate and the water flow diffusion plate 702. The second material separation compartment 302 is fixed by fixing to one side and the other side of the material separation tube 100 in a slightly inclined form (<),

At the lower end of the second material separation plate and the water flow diffusion plate 702, the harmful substances contained in the fluid materials flowing into the first material separation compartment 302 and the fluid materials having a low specific gravity are brushes 99. Due to the gravity action and the diffusion of air generated by the air generator 102, Clean material molecules having a heavy effect and a high specific gravity that easily move to the upper layer of the second material separation compartment 302 formed in the material separation container 100 are discharge ports formed at one lower end of the material separation container 100. The water flow diffusion plate 817 is formed across the one side and the other side of the material separation tube 100 in a triangular form (<△) slightly lifted to move quickly to the 900 and the water at the same time In order to facilitate the movement of the fluid substances introduced into the separator 100, the second lower-layer moving passage 5022 is configured to configure the second material separator 302 and the third material separator 303. ;


The second material separation compartment 302 comprises a plurality of brushes 99 penetrating through one side and the other side of the material separation cylinder 100 using the shaft 98 of the brush;
The lower end of the second material separation compartment 302 constitutes an air injector 102 for injecting air, and the rotational force of the brush 99 is formed in the second material separation compartment 302. Exerts an action of raising the harmful substances having a light weight from the fluid material flowing into the material separation compartment 304 to the upper portion of the second material separation compartment 302;

The overflow layer 712 is formed in the upper portion of the second material separation compartment 302 to overflow the fluid materials having a light specific gravity;

The middle portion of the second material separation compartment 302 is provided with a collecting tank 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting cylinder ( With the connection between the 700 using a collecting pipe 711;
The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space of the second material separation compartment 302

The third material separation plate and the water flow diffusion plate 703 are formed by intercepting one side of the front part and the other side of the rear part of the material separation container 100, and the rear part of the third material separation plate and the water flow diffusion plate 703. It is fixed to one side and the other side of the material separation tube 100 in the form inclined slightly (<) to constitute a third material separation compartment 303,

At the lower end of the third material separation plate and the water flow diffusion plate 703, the harmful substances contained in the fluid materials flowing into the second material separation compartment 302 and the fluid materials having a low specific gravity are brushes 99. Due to the gravity action and the diffusion of air generated by the air generator 102, Clean material molecules having a heavy effect and a high specific gravity that easily move to the upper layer of the third material separation compartment 303 formed in the material separation container 100 are discharge ports formed at one lower end of the material separation container 100. The water flow diffusion plate 817 is formed across the one side and the other side of the material separation tube 100 in a triangular form (<△) slightly lifted to move quickly to the 900 and the water at the same time The third material separation compartment 303 and the fourth material separation compartment 304 may be configured to configure the third lower-layer movement passage 5033 to facilitate the movement of the fluid substances introduced into the separation vessel 100. ;

The third material separation compartment 303 comprises a plurality of brushes 99 penetrating through one side and the other side of the material separation tube 100 using the shaft 98 of the brush;
The lower end of the third material separation compartment 303 constitutes an air injector 102 for injecting air, and the rotation force of the brush 99 formed in the third material separation compartment 303 causes the Entered into the material separation compartment 304

Exerts a function of raising the harmful substances having a low specific gravity leaving the fluid material to the upper portion of the third material separating compartment 303;

An overflow hole 712 is formed in the upper portion of the third material separation compartment 303 to overflow the fluid materials having a light specific gravity;

The middle portion of the third material separation compartment 303 is provided with a collecting tank 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting cylinder ( With the connection between the 700 using a collecting pipe 711;
The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space of the third material separation compartment 303

The fourth material separation plate and the water diffusion plate 704 and the fifth material separation plate 305 are formed by interposing one side of the front part and the other side of the rear part of the material separation container 100 to form the fourth material separation plate. The rear part of the cumulative water diffusion plate 704 is fixed to one side and the other side of the material separation tube 100 in a slightly inclined form (<) so that the fourth material separation compartment 304 and the fifth material separation compartment 305 are provided. Configure

At the lower end of the fourth material separation plate and the water flow diffusion plate 704, the harmful substances contained in the fluid materials flowing into the third material separation compartment 303 and the fluid materials having a low specific gravity are included in the brush 99. Due to the gravity action and the diffusion of air generated by the air generator 102, Clean material molecules having a heavy weight and a function of easily moving to the upper layer portions of the fourth material separation compartment 304 and the fifth material separation compartment 305 formed in the material separation vessel 100 are the material separation vessel. A water flow diffusion plate 8 across one side and the other side of the material separation tube 100 in a triangular form (<△) in which the rear portion is slightly lifted so as to move quickly to the outlet 900 configured at one lower end of the side 100. 17 and a fourth low-layer moving passage 5044 to facilitate the movement of the fluid substances flowing into the material separation passage 100 at the same time as the zoom and the fourth material separation compartment 304 and the fifth material. Configure the separator 305 with zoom;

In the fourth material separation compartment 304 and the fifth material separation compartment 305, a plurality of brushes 99 are penetrated through one side and the other side of the material separation tube 100 using the axis 98 of the brush. With structuring;
The fourth material separation compartment 304 and the fifth material separation compartment 305 constitute an air injector 102 for injecting air at the lower ends of the fourth material separation compartment 304 and the fifth material separation compartment 304. Specific gravity that is separated from the fluid material flowing into the fourth material separation compartment 304 and the fifth material separation compartment 305 by the rotational force of the brush 99 constituted in the material separation compartment 305 is Exerts a function of raising light hazardous substances to the upper portion of the fourth material separation compartment 304 and the fifth material separation compartment 305;

An overflow hole 712 is formed in the upper portion of the fourth material separation compartment 304 and the fifth material separation compartment 305 so that fluid materials having a low specific gravity overflow;

A middle portion of the fourth material separation compartment 304 and the fifth material separation compartment 305 is provided with a collecting container 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712. It is connected between the overflow port 712 and the collecting container 700 by using a collecting pipe 711;
The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space of the fourth material separation compartment 304

The fourth material separation plate and the water flow diffusion plate 704 constitute the fourth material separation plate and the water flow diffusion plate 704 by intercepting one side of the front part and the other rear part of the inside of the material separation container 100. The fourth material separation compartment 304 is configured by fixing to one side and the other side of the material separation cylinder 100 in a slightly inclined form (<),

At the lower end of the fourth material separation plate and the water flow diffusion plate 704, the harmful substances contained in the fluid materials flowing into the third material separation compartment 303 and the fluid materials having a low specific gravity are included in the brush 99. Due to the gravity action and the diffusion of air generated by the air generating device 102, the gravity-bearing fluids that are separated from the fluids by the material friction action and the material explosion action generated by the rotational force of Clean material molecules having a heavy effect and a high specific gravity that are easily moved to the upper layer of the fourth material separation compartment 304 formed in the material separation vessel 100 are discharge ports formed at one lower end of the material separation vessel 100. The water flow diffusion plate 817 is configured to extend across one side and the other side of the material separation tube 100 in a triangular form (<△) in which the rear portion is slightly lifted so as to quickly move to 900. The fourth low-layer moving passage 504 is configured to facilitate the movement of the fluid substances introduced into the material separating vessel 100, and thus the fourth material separating compartment 304 and the fifth material separating compartment 305 are configured to zoom. with;

The fourth material separation compartment 304 comprises a plurality of brushes 99 penetrating through one side and the other side of the material separation cylinder 100 using the axis 98 of the brush;
The lower end of the fourth material separation compartment 304 constitutes an air injector 102 for injecting air, and the rotational force of the brush 99 is formed in the fourth material separation compartment 304. Exerts a function of raising the harmful substances having a low specific gravity coming out of the fluid material flowing into the material separating compartment 304 to the upper portion of the fourth material separating compartment 304;

An overflow hole 712 is formed in the upper portion of the fourth material separation compartment 304 so that fluid materials having a low specific gravity overflow;

The middle portion of the fourth material separation compartment 304 is provided with a collecting tank 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting cylinder ( With the connection between the 700 using a collecting pipe 711;
The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

The shaft 98 of the brush configured in each of the material separation compartments is connected to a drive motor (not shown) configured outside of the material separation container 100 and a drive pulley (not shown) and belt or The lower portion of the material separation container 100 during a process of continuously operating the brush 99 for 5 minutes to 48,000 hours for hitting the fluid substances introduced into the material separation container after being connected to the chain. By controlling the discharge control valve 901 is coupled to the discharge port 900 is configured in the discharge of liquid or fluid food or liquid food, such as fresh water or sea water or alcohol or beverage only 55% ~ 99.999999999% Collect and use it,
The remaining 0.00000001wt% to 45wt% of fresh water or seawater, or light weight harmful substances released from fluids such as alcoholic beverages, beverages, liquids, or liquid foods may be filled with the overflow hole 712 and the collecting container 700. To collect and remove inorganic or organic suspended solids with low specific gravity, or to apply the collected materials to the place of use to purify polluted fresh water or to clean up seawater. Or extract pollutant molecules contained in sewage or pollutants contained in fresh water and use it as energy, clean the fresh water contaminated, or use clean sea water molecules released from sea water molecules as drinking water, or clean the sea water. To be used as ballast water to fill the vessel or to escape from seawater molecules Collect the seawater and salt from the seawater and use it as salt water for salt production, or clean the seawater to make salt substitute food, or to prepare sewage or wastewater or fresh water or seawater, or to prepare food additives to eat seawater. Alternatively, the saltwater collected by stirring the seawater is mixed with freshwater to prepare freshwater as seawater, or use inorganic and organic materials collected from seawater as energy or use harmful substances in light alcohol. Method of obtaining energy by processing the sea water, which is characterized by manufacturing drinks or liquid foods such as soy sauce, soybean paste, ketchup or red pepper paste, and removing harmful substances contained in milk, vinegar and beverages. And fresh water using saltwater Seawater manufacturing method, fresh water or tap water and sewage or wastewater or freshwater or seawater purification method, salt production seawater manufacturing method, ballast water manufacturing method and salt substitute food extraction method and alcohol Manufacturing method and liquid foods such as soy sauce, red pepper paste or miso, food manufacturing methods such as milk, vinegar and beverages, eco-friendly food waste processing method, eco-friendly waste processing method and water purifier

In the method of purifying fresh water or sea water by adjusting the amount of water and discharged after stirring or striking sea water, fresh water, alcohol, drink, or liquid food by using a brush and a compression tank, a solar collector plate and a brush,

The shape of the material purification container 100 to purify the material is a rectangular rectangular shape so that the height of the upper end is configured to be horizontal on one side and the other side,
At the lower end of the first inlet and the first material purification compartment 3011 into which a fluid fluid, such as a liquid, flows, the material purification container 100 is configured to always maintain a horizontal state by using a support base 101;
The upper end of the sixth outlet and the sixth material purification compartment 3066 side through which the fluid, such as a material composed of a liquid, or a fluid, is discharged, is leveled with the height of the first inlet and the first material purification compartment 3011. With composition zoom;
The lower side is configured to have a lower outer wall of the material separation container 100 to exert a water purification function while the liquid and fluid materials flow down toward the outlet 900 naturally,
The water inlet diffusion plate 7017 is formed on the outer wall of the first inlet and the first material separation compartment 3011 formed in one side of the material separation container 100 in a U-shape;
A water flow guide diffusion plate 7018 is also formed in the other side of the outer wall of the sixth material separation compartment 3066 formed on the other side of the material separation cylinder 100 in a / shape;

The first material separation plate (7012) constitutes the first material separation plate (7012) by intercepting one side of the front part and the other side of the rear part of the material separation container (100) with the material separation container (100) 읠 The water diffusion plate 7011 is formed in the shape of a triangle (△) by blocking one side and the other side with the zoom;

However, the lower end of the water diffusion plate 7011 is kept open to facilitate the movement of liquid or fluid materials;


The first inlet and the first material purification compartment 3011 have a plurality of brushes 99 configured to penetrate one side and the other side of the material separation tube 100 using the shaft 98 of the brush;
The brush formed in the first inlet and the first material purification compartment 3011 constitutes an air injector 102 for injecting air at the lower end of the first inlet and the first material purification compartment 3011. Harmful substances having a low specific gravity coming out of the fluid material flowing into the first inlet and the first material purification compartment 3011 by the rotational force of 99 may be disposed in the first inlet and the first material purification compartment 3011. Exerts an action of raising to the upper layer;
The overflow port 712 is configured to overflow the first inlet and the first material purification compartment 3011 so that fluid materials having a light specific gravity overflow.

The middle portion of the first inlet and the first material purification compartment 3011 includes a collecting container 700 for collecting the light-weight fluid materials overflowing from the overflow hole 712, and the overflow hole 712 and Between the collection tank 700 and connected to each other using a collection pipe 711;
The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space of the first inlet and the first material purification compartment 3011

The second material separation plate 7013 is formed by installing a second material separation plate 7013 by interposing one side of the front part and the other rear part of the inside of the material separation container 100 to form the second material separation plate 7013. At the lower end of the material separation tube 100 to block one side and the other side to form a water diffusion plate (7022) in the form of a triangle (△) with a zoom;
However, the lower portion of the water diffusion plate 7022 is kept open to facilitate the movement of liquid or fluid materials;

The second material purification compartment 3022 comprises a plurality of brushes 99 penetrating through one side and the other side of the material separation container 100 using the axis 98 of the brush;
The lower end of the second material purification compartment 3022 constitutes an air injector 102 for injecting air, so that the rotational force of the brush 99 is formed in the second material purification compartment 3022. Exerts an action of raising the harmful substances having a low specific gravity leaving the fluid material flowing into the second material purification compartment 3022 to the upper portion of the second material purification compartment 3022;
An overflow hole 712 is formed in the upper portion of the second material purification compartment 3022 so that fluid materials having a light specific gravity overflow;

In the middle portion of the second material purification compartment 3022 is provided with a collecting tank 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting container ( With the connection between the 700 using a collecting pipe 711;
The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space of the second material purification compartment 3022

A third material separation plate 3014 is formed by interposing one side of the front part and the other side of the rear part of the material separation tube 100 to form a third material separation plate 7014, wherein the third material separation plate 7014 is provided. At the lower end of the material separation tube 100 to block one side and the other side to form a water diffusion plate 7033 in the form of a triangle (△) with a zoom;
However, the lower portion of the water diffusion plate 7703 is kept open to facilitate the movement of liquid or fluid materials;

The third material purification compartment 3033 includes a plurality of brushes 99 penetrating through one side and the other side of the material separation container 100 using the shaft 98 of the brush;
The lower end of the third material purification compartment 3033 constitutes an air injector 102 for injecting air, and the rotation force of the brush 99 formed in the third material purification compartment 3033 causes the Exerts an action of raising the harmful substances having a low specific gravity coming out of the fluid material flowing into the third material purification compartment 3033 to the upper portion of the third material purification compartment 3033;
An overflow hole 712 is formed in the upper portion of the third material purification compartment 3033 so that fluid materials having a light specific gravity overflow;

The middle portion of the third material purification compartment 3033 is provided with a collecting container 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting container ( With the connection between the 700 using a collecting pipe 711;
The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space of the third material purification compartment 3033

The fourth material separation plate 3015 is formed by interposing one front side and the other rear side of the inside of the material separation tube 100 to install a fourth material separation plate 7015, wherein the fourth material separation plate 7015 is provided. At the lower end of the material separation cylinder 100 to block one side and the other side to form a water diffusion plate (7044) in the form of a triangle (△) with a zoom;
However, the lower portion of the water diffusion plate 7044 is kept open to facilitate the movement of liquid or fluid materials;

The fourth material purification compartment 3044 includes a plurality of brushes 99 penetrating through one side and the other side of the material separation tube 100 using the brush shaft 98;
The lower end portion of the fourth material purification compartment 3044 constitutes an air injector 102 for injecting air, and the rotation force of the brush 99 formed in the fourth material purification compartment 3044 causes the In addition to the effect of raising the harmful substances having a low specific gravity released from the material consisting of the liquid flowing into the fourth material purification compartment 3044 or the fluid material to the upper portion of the fourth material purification compartment 3044 ;
The overflow layer 712 is formed in the upper portion of the fourth material purification compartment 3044 so that fluid materials having a light specific gravity overflow.

The middle portion of the fourth material purification compartment 3044 is provided with a collecting vessel 700 for collecting the light-weight fluid materials overflowing from the overflow opening 712, the overflow opening 712 and the collecting vessel ( With the connection between the 700 using a collecting pipe 711;
The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

In the next space after the fourth material purification compartment 3044

The fifth material separation plate 3044 and the sixth material separation compartment 3066 may be installed by interposing a front side and one rear side of the inside of the material separation vessel 100 to install a fifth material separation plate 7016. At the lower end of the fifth material separation plate 7016, the water diffusion plate 7055 is formed in the form of a triangle by blocking one side and the other side of the material separation tube 100.
However, the lower end of the water diffusion plate 7075 maintains an open state to facilitate the movement of liquid or fluid materials;

The fifth material purification compartment 3055 and the sixth material purification compartment 3066 pass through one side and the other side of the material separation tube 100 using a plurality of brushes 99 using the shaft 98 of the brush. With structuring;
At the lower ends of the fifth material purification compartment 3055 and the sixth material purification compartment 3066, an air injector 102 for injecting air is configured to form the fifth material purification compartment 3055 and the sixth material purification compartment 3055. A substance or a fluid substance composed of a liquid flowing into the fifth substance purification compartment 3055 and the sixth substance purification compartment 3066 by the rotational force of the brush 99 formed in the substance purification compartment 3066. Exerts an action of raising the harmful substances having a low specific gravity from the upper portion of the fifth material purification compartment 3055 and the sixth material purification compartment 3066;
An overflow hole 712 is formed in the upper portion of the fifth material purification compartment 3044 and the sixth material purification compartment 3066 so that fluid materials having a light specific gravity overflow;

In the middle portion of the fifth material purification compartment (3055) and the sixth material purification compartment (3066) is provided with a collecting container (700) for collecting the light-weight fluid materials overflowing from the overflow opening (712), It is connected between the overflow port 712 and the collection container 700 by using a collection pipe 711;
The collection container 700 includes a secondary delivery port 701 configured to secondarily deliver fluid materials that are lightly collected in a specific gravity;

An outer lower end of the sixth material purification compartment 3066 constituting the material separation container 100 is configured with a discharge port 900 and a discharge control valve 901;

Continuous hitting by the continuous rotational force of the brush 99 is configured in each of the material separation compartment 3011,3022,3033,3044,3055,3066 configured in the material separation container 100 as described above The material is separated into these materials by the material friction action and the material explosive action that occurs naturally between the material consisting of the liquid or the material consisting of the fluid that is introduced into the material separation container 100 by Fluid materials having a light specific gravity are separated by the clean material molecules having a heavy specific gravity by the action of gravity and material molecular separation generated in the water diffusion plates 7011,7022,7033,7044,7055. While being pushed to the upper portion of the material is collected by continuously collecting the light-weight fluid materials that are naturally collected in the overflow port 712 and the collection container 700 configured in the material separation container 100 To take advantage of or to remove the harmful substances collected in the collection container 700 lightly continuously

When the inflow rate of the material consisting of the liquid and the fluid material introduced through the inlet pipe (9) is 100Wt% and discharges and collects only 45wt% ~ 99.99999999wt% discharged through the outlet (900) And the remaining 55 ~ 0.0000001wt% of the material overflowing the overflow port 712 is collected by using the collecting container 700 or by using a method of removing the harmful substances collected in the collecting container 700 Methods of making materials consisting of liquids and materials consisting of fluids

The shaft 98 of the brush configured in each of the material separation compartments is connected to a drive motor (not shown) configured outside of the material separation container 100 and a drive pulley (not shown) and belt or The material is separated during the process of continuously operating the brush 99 for 5 to 48,00 hours for hitting the fluid substances introduced into the material separation container 100 after being connected to the chain. Liquid or fluid food such as fresh water or sea water or alcohol or beverage discharged to the discharge port 900 by adjusting the discharge control valve 901 is coupled to the discharge port 900 configured in the lower portion of the barrel 100 Collect and use only 55% to 99.999999999% of liquid foods, with the remainder being 0.00000001wt% to 45wt% of fresh or sea water or fluids such as alcoholic beverages, beverages, liquids or liquid foods. Light weighted inorganic substances or organic matter suspended solids are collected or removed by using the method of collecting the light weighted harmful substances released from the overflow hole 712 and the collecting container 700. Clean the polluted fresh water, clean the sea water, extract the pollutant molecules contained in the sewage or the pollutants contained in the fresh water, and use them as energy or clean the polluted fresh water. Use clean seawater molecules from purified or seawater molecules as drinking water, or use ballast water to fill the vessel by purifying seawater, or collect seawater and salt components from seawater molecules and use them as salt water for salt production. Or salt water purification to replace salt Prepare food additives that can be made or purified from sewage or wastewater or freshwater or seawater, or from seawater, or by mixing saltwater ingredients collected by stirring the saltwater into freshwater to make freshwater or collected from Inorganic and organic materials can be used as energy or to remove liquor that has a low specific gravity in alcohol. Process to obtain energy by processing seawater, which is characterized by manufacturing the beverages and liquid food by removing the harmful substances contained in the process, and the process to prepare freshwater into seawater using the seawater components, fresh water or tap water and sewage or waste water or fresh water or Method of water purification and salt production The process of manufacturing seawater, the process of manufacturing ballast water for ships, the process of extracting salt substitute food from seawater, the process of making alcohol, the liquid food such as soy sauce, red pepper paste or miso, and the production of food such as milk, vinegar and beverage Construction method and eco-friendly food waste disposal method, environmentally friendly waste disposal method and water purifier

The upper part is a rectangular shape in a horizontal form, the lower end portion of the rectangle constitutes the lower end portion of the material separation container 100 in a form inclined at one side is a high side in which the fluid is introduced and the other side is low discharged fluid;
On the left side and the right side of the material separation container 100, the wall surfaces 101 and 102 are formed by using a plate;
A first material explosion compartment 815 is formed by intercepting one side of the front portion and the other side of the rear portion of the material separation container 100 using a plate member 821 in a one-shaped shape;
A gravity generating plate 771 is formed in the inclined (/) form at the lower end of the plate member 821 formed in the one-letter form, and the primary is formed in the inclined form at the lower end of the gravity generating plate 771. And a primary material explosive compartment 815 having a primary water flow compression plate 591 so that the water flow compression port 581 is configured;

The shaft 98 of the brush coupled with the brush 99 inserted into the primary material explosion compartment 815 is coupled to the brush shaft case 988 by white paper and one side of the front part of the material separation container 100. With the white paper coupled to the other side of the rear using bolts and nuts;

A second material explosion compartment 816 is formed in the next space of the primary material explosion compartment 815 by blocking one side of the front side and the other side of the rear side with a single-shaped plate 822 in the interior of the material separation vessel 100. With handful;
After forming the gravity generating plate 771 (/) in the inclined form on the lower end of the one-shaped plate 822, the secondary in the form of inclined inversely to the lower end of the gravity generating plate 771 And a secondary material explosive compartment 816 having a secondary water flow compression plate 592 to constitute a water flow compression port 582;

The shaft 98 of the brush coupled with the brush 99 inserted into the secondary material explosion compartment 816 is coupled to the brush shaft case 988 by white paper, and the one side of the front part of the material separation container 100. With the white paper coupled to the other side of the rear using bolts and nuts;

In the next space of the secondary material explosion compartment 816, a third material explosion compartment 817 is formed by intercepting one side of the front part and the other of the rear part of the inside of the material separation container 100 with a plate-shaped member 823. With handful;
After forming the gravity generating plate 771 (/) in the inclined form at the lower end of the one-shaped plate 823, the third in the form of inclined reverse to the lower end of the gravity generating plate 771 With a tertiary water condensation plate 593 to constitute a water flow compression port 583 with a tertiary material explosion compartment 817;

The shaft 98 of the brush coupled with the brush 99 inserted into the third material explosion compartment 817 is coupled to the brush shaft case 988 by white paper, and the front side of the material separation container 100 is connected with the brush shaft 98. With the white paper coupled to the other side of the rear using bolts and nuts;


In the next space of the third material explosion compartment 817, the one side of the front part and the other rear part of the inside of the material separation container 100 is blocked by the plate-shaped member 824 of the fourth material explosion compartment 818 and 5 With the construction of the primary substance explosion compartment 819;
A gravity generating plate 771 is formed in an inclined (/) shape at the lower end of the one-shaped plate 824 to form a lower end of the fourth material explosion compartment 818 and the fifth material explosion compartment 819. With composition zoom;

The shaft 98 of the brush coupled with the brush 99 inserted into the quaternary material explosion compartment 818 is coupled to the brush shaft case 988 by white paper, and the front side of the material separation container 100 is connected with the brush shaft 98. With the white paper coupled to the other side of the rear using bolts and nuts;

At the lower end of the fifth material exploding compartment 818, an induction of water flow to induce an action of inducing fluid materials introduced into the fifth material exploding compartment 818 to the upper part of the fifth material exploding compartment 818. With the construction of the plate 585;

The shaft 98 of the brush coupled with the brush 99 inserted into the fifth material explosion compartment 819 is white with the brush shaft case 988 so that the front side of the material separation container 100 With the white paper coupled to the other side of the rear using bolts and nuts;

The upper portion of each material explosion compartment (815, 816, 817, 818, 819) consisting of compartments in the material separation vessel 100 is sealed using a rectangular sealing plate 903, but the space where the gravity generating pipe 744 is installed ( ㅇ) to construct a circular through hole and to install a gravity pipe 744 on top of the circular through hole with a zoom;
With an overflow port 712 configured to overflow fluid materials on top of the gravity pipe 744;

At the lower end of the sealing plate 903, the liquid flow rising guide plate 586 is formed in an inclined form so that the fluid materials which are raised by the material friction action and the material explosion action are easily raised.

A collecting port 733 for collecting fluid materials using a plate 904 having a predetermined height on an upper portion of the sealing plate 903;

A partition plate 906 is configured to separate the respective explosive compartments 815, 816, 817, 818, and 819 to subdivide the collection port 733;
With the configuration of the discharge valve 335 on one side of the collecting port 733;

A microwave vibrator 995 is formed on the gravity generating plate 771, the bottom of the material separating vessel 100, and the water flow riser guide plate 585 formed in each of the material explosion compartments 815, 816, 817, 818, and 819. With generating;


The brush shaft poly 806 is configured at the other side of the brush shaft 98;
A drive motor (not shown) is provided on the outside of the material separation container 100 to exert an effect of constituting the brush shaft poly 806;
The drive motor (not shown) is coupled to be operated by a separate control system (not shown) configured separately;

The driving motor continuously operates the brush 99 coupled to the double-sided belt and the driving pulley continuously, and the seawater or fresh water flowing into the material separation container 100 and the respective material explosion compartments 815, 816, 817, 818 and 819. Or agitating wastewater or sewage or tap water or milk soy sauce or soybean paste or liquor, beverages or liquid foods to continuously generate mass explosion and mass friction;

The outlet 900 is coupled to the discharge valve 901 on one side of the lower end of the material separation container 100 to adjust the discharge of seawater or fresh water or alcohol or beverage or liquid food discharged to the material separation container 100. with;

An inlet pipe 91 is provided at an upper portion of the first material explosion compartment 815 formed at one side of the material separation tube 100, and the upper portion of the inlet pipe 91 is sea water, fresh water, alcohol, beverage, or liquid food. With an inlet control valve 77 of the;
One end of the inflow pipe (91) is provided with a pressure pump (78) to force the first material explosion compartment (815) with forcible water or fresh water or sewage or drinking water or waste water or liquor, beverage or flowable food ;

Fresh material, sea water, or fluids such as alcohol, beverages, milk, soy sauce, and miso are introduced into the first material explosion compartment 815 through the inflow pipe 91 to purify the material purification tank 100 and the gravity pipe 744. Fills the inside of the

By operating the brush 99 and the bottom brush 96 to generate a material explosion action and material friction to separate the pollutant molecules and clean water molecules mixed in the sewage by the action of gravity or contaminant molecules bonded to fresh water May cause the release of fresh water from the fresh water or the salt and salt components combined with sea water to leave the sea, or the lighter substances contained in milk, soy sauce, miso, red pepper paste, liquor, beverages, or liquid foods. Generating mass friction and explosive action for 5 to 640 hours caused by the rotational force of the brush 99 to escape from the flowable food;

The contaminant molecules combined with fresh water and the contaminant molecules mixed with fresh water and the seawater components combined with seawater by the material friction and explosion caused by the rotation and friction and explosion of the brush 99 Inlet pipe 91 so that salts and / or harmful substances having a low specific gravity contained in milk, soy sauce, soybean paste, red pepper paste, liquor, beverage or liquid food are automatically floated to the top of the gravity pipe 744 by the action of gravity. 100 wt% of fresh water or sewage or wastewater or seawater or liquor, beverages, milk, soy sauce, soy sauce, red pepper paste, or liquid food flowing through the first material explosion compartment 815 and

Fresh water or sea water or milk or soy sauce or miso or red pepper paste or waste water or liquor discharged by adjusting the discharge control valve 901 which is coupled to the outlet port 900 configured at the lower portion of the fifth material cap balkan 819 When only 70wt% to 99.999wt% of the discharge of the beverage or the liquid food is discharged, the remaining 0.001wt% to 30wt% of the fresh water or the sea water or the liquor or the beverage or the liquid food is the gravity pipe 744 and the gravity pipe 744. After overflowing the overflow opening 712 configured as the upper end of the low water level, using the collecting compartment 733 configured at the upper end of the material separation container 100, fresh water or sea water or alcohol or beverage or liquid food or oil sand (sand To clean up the polluted fresh water by collecting and removing inorganic or organic suspended solids with a low specific gravity. Or to clean up seawater, extract pollutant molecules in sewage or fresh water, and use them as energy, to clean contaminated fresh water cleanly, or to use clean seawater molecules released from seawater molecules as drinking water, Alternatively, the seawater can be used as ballast water to fill the vessel, or the seawater and salt components extracted from seawater molecules can be collected and used as seawater for salt production, or the seawater can be purified to produce salt substitute food, or sewage or wastewater or Prepare food additives to clean fresh water or sea water, or to clean sea water, or to prepare fresh water by mixing salt water components collected by stirring the sea water into fresh water, or to collect inorganic water and organic matter collected from sea water. Castle water By using quality, it can be used as energy or by eliminating the harmful substances in the liquor that are light in weight. A process for producing salt water and a process for producing ballast water for ships, characterized in that the preparation of liquid foods and the collection of oil by allowing oil to escape from oil sands (oil contained in sand); The method of manufacturing seawater as a salt substitute food, the method of manufacturing freshwater using seawater components, the method of purifying sewage or wastewater or freshwater or seawater, the method of processing freshwater or saltwater to obtain energy, and the light harmful The process of making alcohol by removing substances and soy sauce or red pepper paste Liquid foods such as liquids, milk, vinegar and beverages to remove harmful substances in the process of manufacturing food and oil sand (oil contained in the sand) to remove the oil components in the process of collecting oil and here Water Purifier Applied To


The upper part of the material separation container 100 is configured in a horizontal form and the outside constitutes the material separation container 100 in a rectangular shape in a rectangular shape;
The primary material explosion compartment 301 by intercepting the front and rear portions of the material separation container 100 by using a plate member 171 of the one side of the front part and the rear part of the inside of the material separation container 100. With the zoom;
The primary fluid movement passage 191 such that fluid materials are easily moved from the primary material explosion compartment 301 to the secondary material explosion compartment 302 in the middle portion of the lower end of the plate 171 having the first shape. With the zoom;

In the primary material explosion compartment 301, the shaft 98 of the brush coupled with the brush 99 inserted into the primary material explosion compartment 301 is coupled to the brush shaft case 988 by white paper. With white paper using the bolt and nut on the other side of the front and one side of the separator 100;

In the next space of the primary material explosion compartment 301, a second material explosion compartment 302 is formed by blocking one side of the front part and the other rear part of the inside of the material separation container 100 with a plate member 172 having a single shape. With handful;

The secondary fluid movement passage 192 to easily move the fluid substances from the secondary material explosion compartment 302 to the tertiary material explosion compartment 303 in the middle portion of the lower end of the plate 172 configured in the form of one With the zoom;

In the secondary material explosion compartment 302, the shaft 98 of the brush coupled with the brush 99 inserted into the primary material explosion compartment 302 is coupled to the brush shaft case 988 by white paper. With white paper using the bolt and nut on the other side of the front and one side of the separator 100;

In the next space of the secondary material explosion compartment 302, a third material explosion compartment 303 is formed by intercepting one side of the front part and the other side of the rear part of the inside of the material separation container 100 with a plate 173 having a single shape. With handful;

The tertiary fluid movement passage 193 allows fluid materials to easily move from the tertiary material explosion compartment 303 to the fourth material explosion compartment 304 in the middle portion of the lower end of the plate 173 having the first shape. With the zoom;


In the third material explosion compartment 303, the shaft 98 of the brush coupled to the brush 99 inserted into the primary material explosion compartment 303 is coupled to the brush shaft case 988 by white paper. With white paper using the bolt and nut on the other side of the front and one side of the separator 100;

In the next space of the third material explosion compartment 303, one side of the front part and the other rear part of the inside of the material separation container 100 is blocked by a plate 173 having a three-dimensional material explosion compartment 303 and 4 With the construction of the primary substance explosion compartment 304;

The third material explosion compartment 303 and the fourth material explosion compartment 304 are combined with a brush 99 inserted into the third material explosion compartment 302 and the fourth material explosion compartment 304. The shaft 98 of the brush is coupled to the brush shaft case 988 and the white paper is coupled by using a bolt and a nut on the other side of the front and one side of the material separation container 100;

The inlet pipe 711 is configured at the lower end of the overflow hole 712 formed in the material separation container 100 and the collecting hole 700 is configured at the lower end of the inlet pipe 711 to give the overflow hole 712. With the collection of lighter fluid materials with specific gravity over

The brush shaft poly 806 is configured at the other side of the brush shaft 98;
A drive motor (not shown) is provided on the outside of the material separation container 100 to exert an effect of constituting the brush shaft poly 806;
The drive motor (not shown) is coupled to be operated by a separate control system (not shown) configured separately;

The drive motor continuously operates the brush 99 coupled to the double-sided belt and the drive pulley continuously, and the seawater or fresh water flowing into the material separation container 100 and the respective material explosion compartments 301, 302, 303 and 304. Or agitating wastewater or sewage or tap water or milk soy sauce or soybean paste or liquor, beverages or liquid foods to continuously generate mass explosion and mass friction;

The outlet 900 is coupled to the discharge valve 901 on one side of the lower end of the material separation container 100 to adjust the discharge of seawater or fresh water or alcohol or beverage or liquid food discharged to the material separation container 100. with;

An inlet pipe 991 is provided at an upper portion of the first material explosion compartment 301 formed at one side of the material separation container 100, and sea water or fresh water or alcohol or beverage or a liquid food on the upper portion of the inlet pipe 991. With an inlet control valve 77 of the;
One end of the inlet pipe (991) is provided with a pressure pump (78) to force the first material explosion compartment 301 to introduce seawater or fresh water or sewage or drinking water or waste water or alcohol, beverages or liquid foods ;

Fills all the inside of the material purification container 100 by introducing a flowable food such as fresh water, sea water, liquor, beverages, milk, soy sauce, and soybean paste into the first material explosion compartment 301 through the inflow pipe 91. At the same time

By operating the brush 99 and the bottom brush 96 to generate a material explosion action and material friction to separate the pollutant molecules and clean water molecules mixed in the sewage by the action of gravity or contaminant molecules bonded to fresh water May cause the release of fresh water from the fresh water or the salt and salt components combined with sea water to leave the sea, or the lighter substances contained in milk, soy sauce, miso, red pepper paste, liquor, beverages, or liquid foods. Generating mass friction and mass explosive action for 10 minutes to 1640 hours caused by the rotational force of the brush 99 to escape from the flowable food;

The contaminant molecules combined with fresh water and the contaminant molecules mixed with fresh water and the seawater components combined with seawater by the material friction and explosion caused by the rotation and friction and explosion of the brush 99 Inlet pipe (991) such that salts and / or harmful substances having a low specific gravity contained in milk, soy sauce, soybean paste, red pepper paste, liquor, beverage, or liquid food are automatically floated to the upper portion of the material separation container 100 by the action of gravity. ) 100wt% of freshwater or sewage or wastewater or seawater or liquor or beverage or milk or soy sauce or soybean or red pepper paste or flowable food flowing into the first material explosion compartment 301

Fresh water or sea water or milk or soy sauce or miso or red pepper paste or waste water or liquor discharged by adjusting the discharge control valve 901 which is coupled to the outlet port 900 configured at the lower portion of the fourth material cap balkan 304 When only 70wt% to 99.999wt% of the discharge of the beverage or the liquid food discharges the remaining 0.00001wt% to 30wt% of fresh water or sea water or the alcohol or beverage or the liquid food is configured at the upper end of the material separation container 100 Fresh water or sea water or alcohol or beverage or liquid food or oil sand (using in the sand) is collected after the overflow port 712 is collected in the collecting container 700 configured at the upper end of the material separation container 100. To clean up the polluted fresh water by collecting and removing inorganic or organic suspended solids with a low specific gravity. Water is used to purify seawater, extract pollutant molecules in sewage or fresh water, and use it as energy, clean polluted fresh water cleanly, or use clean seawater molecules released from seawater molecules as drinking water. Alternatively, the seawater can be used as ballast water to fill the vessel, or the seawater and salt components extracted from seawater molecules can be collected and used as seawater for salt production, or the seawater can be purified to produce salt substitute food, or sewage or wastewater or Prepare food additives to clean fresh water or sea water, or to clean sea water, or to prepare fresh water by mixing salt water components collected by stirring the sea water into fresh water, or to collect inorganic water and organic matter collected from sea water. Sex substance It can be used as energy or to remove harmful substances in light liquor, making alcohol or liquid foods such as soy sauce, soybean paste, ketchup or red pepper paste, and removing harmful substances in milk, vinegar and beverage. A method for producing salt water and a method for producing ballast water for ships and sea water, which are characterized by collecting fluid by preparing liquid food or by allowing oil to escape from oil sands (oil contained in sand). The process of preparing salt as a substitute for food, the process of preparing fresh water with seawater using the seawater components, the process of purifying sewage or waste water, or fresh water or seawater, the process of obtaining energy by processing fresh water or seawater, and the harmful substances with light specific gravity. Soy sauce, red pepper paste or miso The process of manufacturing food by removing harmful substances in milk, vinegar, and beverages, and the process of collecting oil by releasing oil components from oil sands (oil in sand) Applied Water Purifier
Extraction of oil from oil sand is performed by mixing water 5wt% ~ 30wt% and oil sand70wt% ~ 95wt% in diluent and mixing for 5 minutes to 5 hours, then separating water and oil from oil sand. ;

The separated water and oil is characterized by a method for extracting the oil component contained in the oil sand using a method of separating water and oil using the material separation container (100).
A method of collecting oil by allowing oil components to escape from oil sands (oil contained in sand)

When the upper portion of the material separation cylinder 100 in the form of a box in a rectangular shape in a horizontal shape of the lower side of the material separation cylinder 100, one side plate 1102 is made of a short height and the other side plate 1011 is After a long configuration and the bottom plate 1106 is padded between the one side plate (1102) and the other side plate (1011) and configured to be inclined to the lower end of the material separation cylinder (100);
Combining the front portion and the rear portion of the material separation container (100) using a plate to seal the bottom and the top open;


An upper portion of the material separation cylinder 100 is configured with a zoom plate 903 at a position slightly lower than the height of the one side plate 1102 and the other side plate 1011;
Sealing between the one side plate member 1102 and the other side plate member 1011 by using a front plate and the rear portion of the material separation cylinder 100 to complete the foundation of the material separation cylinder 100 system;

Gravity generating pipe is provided on the top of the closed plate 903 is provided with a gravity generating induction unit 5811 for inducing the action of gravity acting according to the mass and specific gravity of the material for each of the material separation compartment (301, 302, 303, 304) 744 are each provided;

In the middle portion of each of the gravity generating pipe 744, the gravity generating pipe which locks to prevent the inflow of fluid substances into the upper portion of the gravity generating pipe 744 when the material separation tube 100 is operated for the first time. Combined with a control valve (5822);

An upper portion of the sealing plate 903 is provided with a collecting cell partition 925 between each of the material separating cells 301, 302, 303, and 304 between the upper front part and the rear part of the sealing plate 903. With a fluid material to collect;

In the front plate of the sealing plate (903) and comprises a discharge valve (3355) for discharging the fluid substances flowing into the collection box (9111);

The upper portion of the lower plate 1106 of the material separation cylinder 100, the air jet plate 1200 is configured with a through hole to inject air by jumping about 1 ~ 5cm with a zoom;

Coupled to the lower end of the air jet plate 1200, the air coupler 3000 coupled to the air blower compressor;
A first material explosion compartment is formed by intercepting an upper side and a lower side of the material separation tube 100 by using a first partition plate 791 having a first shape on one side of the front side and the other side of the inside of the material separation vessel 100. With the upper portion of the 301;
The primary gravity guide plate 7711 is attached to the lower end of the first partition plate 791 so that the first low-level passage passage 7811 is formed at regular intervals of about 1 to 50 cm with the air jet plate 1200. The lower portion of the material explosion compartment 301 together with the zoom;

The primary material explosion compartment 301 is coupled to the brush shaft case 988 of the brush 98 coupled with the brush 99 is inserted into the interior of the primary material explosion compartment 301 after the white paper Combining the brush shaft case 988 on the other side of the front and one rear portion of the material separation container 100 using a bolt and a nut;

In the next space of the primary material explosion compartment 301, one side of the front part and the other rear part of the inside of the material separation container 100 is blocked by the second partition plate 792 so that the upper part of the secondary material explosion compartment 302 is closed. With structuring;

The second gravity guide plate 7822 is attached to the lower end of the second partition plate 792 so that the second bottom layer passage 7822 is formed at regular intervals of about 1 to 50 cm with the air jet plate 1200. With the lower portion of the material explosion compartment 302 configured to zoom in;

In the secondary material explosion compartment 302, the shaft 98 of the brush coupled with the brush 99 inserted into the secondary material explosion compartment 302 is coupled to the brush shaft case 988 by white paper. With the brush shaft case 988 on the other side of the front and one side of the separation container 100 by using a bolt and nut coupled with the white paper;


In the next space of the secondary material explosion compartment 302, the third material explosion compartment 303 and the fourth side by intercepting one side of the front part and the other side of the rear part of the inside of the material separation container 100 with the third partition plate 793. With the construction of a top of the car material explosion compartment 304;

The third gravity guide plate 7333 is attached to the lower end of the third partition plate 793 so as to form a third low-floor passage 7833 at regular intervals of about 1 to 50 cm with the air jet plate 1200. The lower portion of the material explosion compartment 303 and the fourth material explosion compartment 304 together with the zoom;

In the third material explosion compartment 303 and the fourth material explosion compartment 304, a brush coupled with the brush 99 inserted into the third material explosion compartment 303 and the fourth material explosion compartment 304. The shaft 98 of the brush shaft case 988 is coupled to the white paper and the brush shaft case 988 on the other side of the front and one side of the material separation container 100 by using a bolt and nut coupled with the white paper ;

In the upper portion of the lower plate 1106 formed at the lower end of the quaternary material explosion compartment 304, the fluid substances introduced into the quaternary material explosion compartment 304 are formed of the quaternary material explosion compartment 304. A water flow raising guide plate 585 is configured to zoom upward and flow therethrough;

The brush shaft poly 806 is configured at the other side of the brush shaft 98;
A drive motor (not shown) is provided on the outside of the material separation container 100 to exert an effect of constituting the brush shaft poly 806;
The drive motor (not shown) is coupled to be operated by a separate control system (not shown) configured separately;

The drive motor continuously operates the brush 99 coupled to the double-sided belt and the drive pulley continuously, and the seawater or fresh water flowing into the material separation container 100 and the respective material explosion compartments 301, 302, 303 and 304. Or agitating wastewater or sewage or tap water or milk soy sauce or soybean paste or liquor, beverages or liquid foods to continuously generate mass explosion and mass friction;

The outlet 900 is coupled to the discharge valve 901 on one side of the lower end of the material separation container 100 to adjust the discharge of seawater or fresh water or alcohol or beverage or liquid food discharged to the material separation container 100. with;

An inlet pipe 291 is provided at an upper portion of the first material explosion compartment 301 formed at one side of the material separation container 100, and the upper portion of the inlet pipe 291 is sea water, fresh water, alcohol, beverage, or liquid food. With an inlet control valve 77 of the;
One end of the inlet pipe 291 is provided with a pressure pump 78 to force the introduction of sea water or fresh water or sewage or drinking water or waste water or alcohol, beverages or flowable food into the first material explosion compartment (301) ;

Through the inlet pipe 291 to the first material explosion compartment 301 to flow the liquid food, such as fresh water, sea water, alcohol, beverages, milk, soy sauce and miso to fill all the interior of the material purification barrel (100) At the same time

The brush 99 is operated to generate a material explosion and material friction to separate pollutant molecules mixed with sewage and clean water molecules by the action of gravity, or to release contaminant molecules bound to fresh water from the fresh water, or Either seawater and salt components combined with seawater are released from the seawater, or lighter substances contained in milk, soy sauce, soybean paste, red pepper paste, alcoholic beverages, beverages, or liquid foods are released into alcoholic beverages, beverages, or liquid foods. Generating material friction action and material explosion action generated by the rotational force of the brush 99 for 5 minutes to 2640 hours;

The contaminant molecules combined with fresh water and the contaminant molecules mixed with fresh water and the seawater components combined with seawater by the material friction and explosion caused by the rotation and friction and explosion of the brush 99 The gravity pipe 744, which is composed of the salt components and the light-weight harmful substances contained in milk, soy sauce, soybean paste, red pepper paste, liquor, beverage, or liquid food, by the action of gravity. 100 wt% of fresh water or sewage or wastewater or sea water or liquor or beverage or milk or soy sauce or soybean or red pepper paste or liquid food through the inlet pipe 291 to continuously generate the floating function to the upper portion of the first material Continuous inflow into the explosion compartment (301)

Fresh water or sea water or milk or soy sauce or miso or red pepper paste or waste water or liquor discharged by adjusting the discharge control valve 901 which is coupled to the outlet port 900 configured at the lower portion of the fourth material cap balkan 304 When the discharge of the beverage or the liquid food only 70wt% ~ 99.999999wt% discharge of the remaining 0.000001wt% ~ 30wt% fresh water or sea water or alcohol or beverage or liquid food is composed of the upper end of the material separation container (100) After overflowing the gravity pipe 744, it is collected in the collecting compartment 9111 formed at the bottom of the gravity pipe 744, using fresh water or sea water, alcohol or beverage, liquid food or oil sand (contained in the sand). Purify the contaminated fresh water by collecting and removing inorganic or organic suspended solids with a low specific gravity. B) to clean up the seawater or to extract the pollutant molecules contained in the sewage or fresh water for energy use, to clean the polluted fresh water cleanly, or to use clean seawater molecules released from the seawater molecule as drinking water. Water is used as ballast water to fill the vessel by sea water purification, or seawater and salt components extracted from seawater molecules are collected and used as seawater for salt production, or seawater is purified to make salt substitute food, or sewage or wastewater Alternatively, to prepare food additives to clean freshwater or seawater, or to clean the seawater, or to prepare freshwater by mixing saltwater components collected by stirring the saltwater in freshwater, or to prepare the freshwater as saltwater or organic matter and organic matter collected from seawater. Materiality It can be used as energy or by removing harmful light substances contained in alcohol to make alcohol, liquid food such as soy sauce, soybean paste, ketchup or red pepper paste, and harmful substances contained in milk, vinegar and beverage. A process for producing salt water and a process for producing ballast water for ships, characterized in that the preparation of liquid foods and the collection of oil by allowing oil to escape from oil sands (oil contained in sand); The method of manufacturing seawater as a salt substitute food, the method of manufacturing freshwater using seawater components, the method of purifying sewage or wastewater or freshwater or seawater, the method of processing freshwater or saltwater to obtain energy, and the light harmful The process of making alcohol by removing substances, and soy sauce or red pepper paste Liquid foods such as intestines and foods by removing harmful substances in milk, vinegar and beverages, and oil extraction from oil sands. Water Purifier Applied Here


One side wall surface 1102 is made smaller and the other side wall surface 1011 is long so that the lower end of the material separation container 100 is inclined to block the front and rear portions of the material separation container 100 and partition plate 301 therebetween. After the padded by forming a material separation bar (1200) in the form of a triangle in the lower end of the partition plate (301) to configure each material separation compartment (902);
After inserting the brush 99 and the shaft 98 of the brush into the material separation compartment 902, the shaft separating case 100 after combining the shaft case 888 of the brush on one side and the other side of the shaft 98 of the brush; With white paper penetrates through the front and rear portions of the;

At the upper end of the material separation container 100 for the gravity generation by the material rolling action and the material cutting action and material explosion action and material friction action generated by the rotation of the brush 99 in the material separation container 100 In the form of a funnel in the Sangsang River Strait, the liquid gravity materials that are pushed to the upper end of the pipe 744 are not introduced into the material separation container 100 again by the material rolling action pushed by the heavy materials. Constructing a dual container 1000 with zooming;
One side of the double container (1000) configured in the funnel form to form a discharge pipe 711 and then coupled to the collecting pipe (700) for collecting the fluid material with a light specific gravity to the discharge pipe 711 and together;

Each brush-side pulley 806 is coupled to the shaft 98 of each brush, and then a double-sided belt 805 is coupled to the shaft pulley of the brush and the shaft pulley 806 of the brush;
With a driven poly 803 on the shaft 98 of the brush;

A drive pulley 802 is configured at one side of the drive motor 800 on the outside of the material separation container 100, and the tension and spacing of the double-sided belt 805 is provided at the top of the drive pulley 802. The driven pulley 803 is constituted by the support;
The driven poly 803 is provided with a double-sided belt 805 is coupled to cross the upper and lower portions of each of the brush shaft pulleys 806 of the material separation compartment 902;
The driving motor 800 continuously operates the brush 99 which is continuously coupled to the double-sided belt 805 and the driving pulley 802, so that the material separating vessel 100 and the material separating compartment 902 are continually operated. A) continuously exploding mass explosives and mass friction by stirring the seawater or fresh water or wastewater or sewage or tap water or drinking water or liquid food flowing into;
The outlet 900 is coupled to the discharge valve 901 on one side of the lower end of the material separation container 100 to adjust the discharge of seawater or fresh water or alcohol or beverage or liquid food discharged to the material separation container 100. with;

The brush 99 is operated to generate a material explosion and material friction to separate pollutant molecules mixed with sewage and clean water molecules by the action of gravity, or to release contaminant molecules bound to fresh water from the fresh water, or Generated by the brush 99 to cause seawater and salt components combined with seawater to escape from the seawater or to allow light weight substances contained in alcoholic beverages, beverages, or liquid foods to escape into alcoholic beverages, beverages, or liquid foods. Resulting in mass friction and mass explosion for 10 minutes to 4800 hours;

The contaminant molecules combined with fresh water, the contaminant molecules mixed with fresh water and the seawater and salt components combined with seawater by the material friction and explosive action generated by the electrochemical action of the brush 99 or alcohol However, the light gravity substances contained in the beverages or the liquid foods are caused by the action of gravity and the gravity pipe 744 and the
Continuous inflow of fresh water or sewage or wastewater or seawater, liquor, beverages, or flowable foods into the material separation compartment 902 to automatically float to the upper portion of the double vessel 1000. Sikkim and

70% to 99.999999% of the discharge amount of fresh water or sea water or alcohol or beverage or liquid food discharged by adjusting the discharge control valve 901 coupled to the discharge port 900 configured at the lower portion of the material separation container 100. The collection vessel 700 coupled with the collection pipe 711 after the remaining 0.000001% to 30% of fresh water or sea water, alcohol or beverage or a liquid food overflows the low water level upper portion of the double container 1000 when discharging the bay. Purify the contaminated fresh water or clean the sea water by using the method of collecting and removing inorganic or organic suspended solids that are lightly separated from fresh water or sea water or alcohol, beverage or liquid food. Alternatively, it is possible to extract pollutant molecules in sewage or pollutants in fresh water and use it as energy or clean polluted fresh water. Use clean seawater molecules from purified or seawater molecules as drinking water, or use ballast water to fill the vessel by purifying seawater, or collect seawater and salt components from seawater molecules and use them as salt water for salt production. Or salt water to purify salt water, or to prepare sewage or waste water or fresh water or salt water, to prepare food additives to eat salt water, or to mix salt water components collected by stirring salt water in fresh water. It is used as energy or by using inorganic and organic materials collected from sea water as energy or by removing harmful light substances in liquor. Like u Salt manufacturing method for seawater and salt water production, and seawater as a salt substitute food, characterized in that the production of beverages and liquid foods by removing harmful substances in sex foods, milk, vinegar and beverages. The method of manufacturing fresh water by using the manufacturing method and sea water components, the method of purifying sewage or waste water or fresh water or sea water, the method of processing fresh water or sea water to obtain energy, and the removal of harmful substances with low specific gravity. Manufacturing method and liquid food such as soy sauce, red pepper paste or miso, and manufacturing method by removing harmful substances in milk, vinegar and beverage and water purification equipment


In paragraphs 1 to 2 and 7 to 12 and 14 and 15,

After heating and treating the temperature of the fluid material flowing into the material separation tank to be about 50 to 500 degrees, the upper part of the material separation container or the fluid materials rising to the top of the gravity pipe are collected and used. The method of manufacturing salt water for the production of salt, the method of manufacturing ballast water for ships, the method of manufacturing sea water as a salt substitute food, and the method of preparing fresh water with sea water using seawater components, and the sewage or waste water or fresh water or sea water Process to obtain energy by processing fresh water or sea water, and process to manufacture alcohol by removing light substance with low specific gravity and liquid food such as soy sauce, red pepper paste or miso, and harmful substances contained in milk, vinegar and beverage In the process of manufacturing food and in oil sands Water purification device applied to the process and to come here in the name component is leaving to collect oil

Cutting the upper portion of the circular pipe in a horizontal form to form an upper end of the first material separation compartment 301;
The shape of the lower end of one side portion is shorter and the other side is configured to be longer relative to the upper end portion of the pipe in the form shown in FIG. 24 so that the lower end of the first material separation compartment 301 is inclined. 301 together with the lower end;

After cutting the other end of the lower end of the first material separation compartment 301 in the form of (∩) shown in Figures 23, 24 and 25, the first gravity generating plate in the form of a triangle (△) to the cut portion ( Further combining 7011 to form a first bottom passage 7811;

Cutting the upper portion of the circular pipe in a horizontal form to form an upper end of the second material separation compartment 302;
One end of the lower end of the second material separation compartment 302 is cut in the shape of (∩) in the form shown in FIG. 25 to form an upper end of the first lower end passage 7811 and then of the first material separation compartment 301. The upper portion and the lower portion of the second material separation compartment 302 are inclined and coupled so that the upper portion is horizontal;

After cutting the other end of the lower end of the second material separation compartment 303 in the shape of (∩) shown in Figs. 23, 24 and 25, the second gravity generating plate in the form of a triangle (△) Further combining 7022 to form a second bottom passage 7822;

Cutting the upper portion of the circular pipe in a horizontal form to form an upper end of the third material separation compartment 303;
One end of the lower end of the third material separation compartment 303 is cut in the shape of (∩) in the form shown in FIG. 25 to form an upper end of the second lower end passage 7822. The upper portion and the lower portion of the third material separation compartment 303 are inclined and coupled so that the upper portion is in a horizontal state;

After cutting the other end of the lower end of the third material separation compartment 303 in the form of (∩) shown in Figures 23, 24 and 25, the third gravity generating plate in the form of a triangle (△) to the cut portion ( And further combine 7033 to form a third lower end passage 7835;

Cutting the upper portion of the circular pipe in a horizontal form to form an upper end of the fourth material separation compartment 304;
One end of the lower end portion of the fourth material separation compartment 304 is cut in the shape of (∩) in the form shown in FIG. 25 to form an upper end portion of the fourth lower end passage 7844, and then An upper end portion and a lower end portion of the fourth material separation compartment 304 are inclined and coupled so that the upper portion is in a horizontal state;

After cutting the other end of the lower end of the fourth material separation compartment 304 in the form of (∩) shown in Figs. 23, 24 and 25, the fourth gravity generating plate in the form of (△) triangle in the cut portion ( Further combining 7044 to form a fourth lower passageway 7844;

Cutting the upper portion of the circular pipe in a horizontal form to form an upper end of the fifth material separation compartment 305;
One end of the lower end portion of the fifth material separation compartment 305 is cut in the shape of (∩) in the form shown in FIG. 25 to form an upper end portion of the fourth lower end passage 7844, and then An upper end portion and a lower end portion of the fifth material separation compartment 305 are coupled to each other so that the upper portion is inclined and the upper portion is in a horizontal state;

Sealing the lower end of each of the material separation compartments (301, 302, 303, 304, 305) to be watertight using a sealant such as a plate;

After cutting one side of the lower end of the fifth material separation compartment 305, the outlet 900 is coupled to the discharge control valve 901 to form fluids discharged through the fifth material separation compartment 305. With discharge;

Inside the respective material separation compartment (301, 302, 303, 304, 305) is composed of a plurality of layers are provided with a multi-layer brush 990 is provided so as to strike each layer layer brush shaft support (9991) and white paper coupled to the brush shaft support (9991) and Combined with the brush shaft case (9990) and the white paper is combined;


The lower portion of the shaft 998 of the brush is combined with the rotating poly 9988 and the index member and the brush shaft case 9989 with white paper;
The rotatable pulley (9988) is coupled with a separately configured power unit;
Each of the material separation compartment (301, 302, 303, 304, 305) is configured with an air injector 120 is configured separately;

The upper portion of each material separation compartment (301, 302, 303, 304, 305) is sealed by a circular finishing material (9992) is formed with a hole (◎);
The through hole formed in the circular finishing material (9992) is provided with a gravity generating pipe (744) coupled with the gravity generating guide portion (5811) and the gravity generating pipe control valve (5822) is provided to generate gravity;

The overflow port 712 is configured at the upper end of the gravity generating pipe 744 and the collection port 700 coupled to the collection pipe 711 is configured to overflow the gravity pipe 744. Along with acting to collect lightly hazardous substances;

The upper side of the first material separation compartment 301 is provided with a fluid inlet pipe (9) coupled with the fluid inlet pipe control valve 77 and one end of the fluid inlet pipe (9) is coupled to the pressure pump (78) Exerts an action of continuously pumping fluid materials into the first material separation compartment 301;

Configured outside of the material separation system 3000 is configured as described above
Drive motor (not shown) is coupled to be automatically operated by a comprehensive control system (not shown) configured separately;

A separate level checker is configured in the material separation compartment 301, 302, 303, 304 and 305 to check the inflow and discharge of the fluid material flowing into the material separation compartment 301, 302, 303, 304 and 305;

While the rotary poly 9988 is continuously rotated by the rotational force of a driving motor (not shown), the multilayer brushes 990 continuously stir and simultaneously hit the fluid materials flowing into the material separation compartments 301, 302, 303, 304, and 305 while simultaneously stirring. The material explosive action and the material friction action are continuously performed by striking the salt water or fresh water or the waste water or the sewage or the tap water, the milk soy sauce, the miso, the liquor, the drink, or the liquid food flowing into each of the material separation compartments 301, 302, 303, 304 and 305. With development;
Filling the inside of the material separation compartment 301 by introducing a flowable food, such as fresh water, sea water, liquor, beverage, milk, soy sauce and miso, to the first material separation compartment 301 through the inflow pipe 9. At the same time

By separating the pollutant molecules mixed in the sewage and clean water molecules using the material explosive action and the material friction action generated when the multi-layer brush 990 is continuously operated, the pollutant molecules bound to the fresh water are separated from the fresh water. Either seawater and salt components combined with seawater are released from the seawater, or lighter substances contained in milk, soy sauce, miso, red pepper paste, liquor, beverages, or liquid foods are released into alcoholic beverages, beverages, or liquid foods. Generating a material friction action and a material explosion action generated by the rotational force of the multilayer brush 990 for 5 minutes to 2640 hours;

Contaminant molecules combined with fresh water and contaminant molecules mixed with fresh water and seawater components combined with seawater by the material friction action and material explosion action generated by the rotational action, friction action and explosion action of the multilayer brush 990. Gravity pipes formed on top of the material separation compartment (301, 302, 303, 304, 305) by the action of gravity and salt components and light or harmful substances contained in milk, soy sauce, soybean paste, red pepper paste, liquor, beverage or liquid food. 100wt% inflow of fresh water or sewage or wastewater or seawater or alcohol, beverages, milk, soy sauce, miso, red pepper paste, or liquid food through inflow pipe 9 so that the action of gravity that automatically floats to the upper portion of 744 is continuously generated. Continuously flowing into the first material explosion compartment 301 and

Fresh water or sea water or milk or soy sauce or miso or red pepper paste or waste water or liquor discharged by adjusting the discharge control valve 901 coupled to the outlet 900 configured at the lower portion of the fifth material cap balkan 305 or When only 70wt% to 99.999999wt% of the discharge of the beverage or the liquid food is discharged, the remaining 0.000001wt% to 30wt% of the fresh water or the sea water or the liquor or the beverage or the liquid food is formed at the upper end of the material separation compartment 301,302,303,304,305. Fresh water or sea water or alcohol or beverage or by using a method that collects the overflow hole 712 formed in the gravity pipe 744 and is collected in the collecting container 700 formed at the bottom of the gravity pipe 744. Collects and removes inorganic or organic suspended solids that are lightly separated from liquid foods or oil sands (oil in sand) The method can be used to purify polluted fresh water or to clean up seawater, to extract pollutant molecules in sewage or pollutants in fresh water, to use them as energy, to clean contaminated fresh water cleanly, or Use clean seawater molecules that have escaped as drinking water, or use ballast water to fill the vessel by purifying seawater, or collect seawater and salt components that have escaped from seawater molecules, and use them as seawater for salt production, or clean up seawater. Make freshwater saltwater by making salt substitute foods, or purifying sewage or wastewater or freshwater or seawater, or preparing food additives to purify seawater, or by mixing the saltwater components collected by stirring the saltwater into freshwater, or Sea Inorganic and organic materials collected from the country can be used as energy or to remove alcohol with a low specific gravity in alcohol, making alcohol, or liquid foods such as soy sauce, miso, ketchup or red pepper paste, and milk and vinegar. Manufacture of seawater for salt production, characterized in that the preparation of beverages and liquid foods by removing the harmful substances contained in the beverages and beverages, or collecting the oil by allowing the oil to escape from the oil sand (oil in the sand) Process for producing ballast water for ships, method for preparing seawater as a salt substitute food, method for preparing fresh water using seawater components, and method for purifying sewage or wastewater or fresh water or seawater, and fresh or seawater Process to obtain energy and to remove harmful substances The process of manufacturing alcohol, liquid foods such as soy sauce, red pepper paste, and miso, and the process of manufacturing food by removing harmful substances in milk, vinegar, and beverages, and the removal of oil components from oil sands (oil in the sand) Oil collection method and water purifier
In each claim
Salt production, characterized in that each fluid material is processed in a balanced manner through the manufacturing process of additionally introducing each fluid material after filling all the fresh water in the material separation container or the material separation compartment first. The method of manufacturing dissolved seawater, the method of manufacturing ballast water for ships, the method of preparing seawater as a salt substitute food, the method of preparing fresh water using seawater components, and the method of purifying sewage or wastewater or fresh water or seawater, The process of obtaining energy by processing fresh water or sea water, and the process of manufacturing alcohol by removing light substance with low specific gravity, and the liquid food such as soy sauce, red pepper paste or miso, and the harmful substance contained in milk, vinegar and beverage Manufacturing Process and Oil Sands Standing oil-two to come to the departure purification device applied to this process and to collect oil
In each claim
Brushes materials of nonferrous metals and plastics or resins or bakelites or ceramics or ceramics or woods so that fluids react with other materials to prevent mass reactions that occur when reacting with other materials. The method of manufacturing salt water for processing the fluid materials using the water treatment method, the method of manufacturing the ballast water for ships, the method of manufacturing the sea water as a salt substitute food and the manufacturing of fresh water using the sea water components A process to purify sewage or waste water or fresh water or sea water, a process to obtain energy by processing fresh water or sea water, a process to make alcohol by removing lightly harmful substances, and a liquid food such as soy sauce, red pepper paste or miso In milk, vinegar and drinks The method of manufacturing food by removing the harmful substances, and the method of collecting oil by allowing oil components to escape from the oil sand (oil contained in sand)

Method of producing salt water for production of salt and ballast water for the production of liquid fertilizer through the process of diluting fluid material 90wt% ~ 99.9wt% and soil 0.1wt% ~ 10wt% with stirring and striking with a brush The method of manufacturing and the method of manufacturing salt water as a substitute for salt and the method of manufacturing fresh water using seawater ingredients and the method of purifying sewage or wastewater or fresh water or seawater and the method of obtaining energy by processing fresh or seawater. The process of manufacturing liquor by removing lightly overweight substances and the liquid foods such as soy sauce, red pepper paste or miso, and the process of manufacturing food by removing harmful substances in milk, vinegar and beverages, and oil sands. The method of collecting oil by allowing oil components to escape from the oil)
Heavy-weight material molecules sink to the lower layer by the action of gravity, and lighter organic materials are pushed to the cleaner heavy-weight material molecules, causing the gravity to rise upward. And a lower portion of the first material overflow hole (8881) in the form of a narrow funnel, and a collecting pipe (711) and the collecting container (700) in the lower portion of the first material overflow hole (8881);
An outer circumferential surface of the first material overflow hole (8881) forms upper and lower portions of the first material separation container (301) in the form of a circular funnel higher than the height of the first material overflow hole (8881);
On the other side of the first material separation tube (8881) to form a first gravity generating plate (7001) in the form of a triangle to increase the action of gravity, the first low-layer passage (8001) and the first material separation cylinder (301) ) With the zoom configured on the other side;


In the next space of the first material separation container 301
The upper part is formed of a wide circular funnel, and the lower part is formed of a second funnel (8882) in the form of a narrow funnel, and the collection pipe 711 and the collecting container (700) in the lower part of the second material overflow (8882) With construction;

The upper and lower portions of the second material separation container 302 are formed on the outer circumferential surface of the second material overflow hole 8872 in a circular funnel shape higher than the height of the second material overflow hole 8872;
On the other side of the second material separator (8882), a second gravity generating plate (7002) in the form of a triangle to increase the action of gravity to form a second bottom layer passage (8002) and the second material separator (302) ) With the zoom configured on the other side;

In the next space of the second material separation container 302
The upper part forms a wide circular funnel and the lower part forms a third material overflow hole 8883 in the form of a narrow funnel. Together with;

The outer peripheral surface of the third material overflow hole (8883) to form the upper and lower portions of the third material separation cylinder 303 in the form of a circular funnel higher than the height of the third material overflow hole (8883);
On the other side of the third material separator 8883, a third gravity generating plate 7003 is formed in a triangular form to increase the action of gravity, thereby forming a third bottom layer passage 8003 and the third material separator 303. ) With the zoom configured on the other side;

In the next space of the third material separation container 303
The upper portion forms a wide circular funnel and the lower portion forms a fourth material overflow hole 8884 in the form of a narrow funnel, and the collection pipe 711 and the collecting container 700 are formed at the lower portion of the fourth material overflow hole 8884. Together with;

The upper and lower portions of the fourth material separation barrel 304 are formed on the outer circumferential surface of the fourth material overflow hole 8884 in the form of a circular funnel higher than the height of the fourth material overflow hole 8884;
The other side of the fourth material separation cylinder (8884) to the other side to configure the outer surface of the fourth material separation cylinder (8884) in the inclined form to increase the action of gravity;


The upper portion of each of the material separation vessels 301, 302, 303, 304 is configured so that the entirety of the material separation vessels 301, 302, 303, 304 is horizontal, and the front, side, and bottom portions of each of the material separation vessels 301, 302, 303, 304 are formed. The lower portion of the material separators 301, 302, 303, 304 is configured to be short by using a finishing plate (not shown) so that the lower portion is inclined with respect to the upper side, and the other side of each of the material separators 301, 302, 303, 304 is elongated so that the lower portion is inclined. Complete the shape;

At the end of the lower end portion of the fourth material separation container 304, the lifting guide plate 585 is configured to act to elevate the fluid materials to the upper end portion;

Inside the respective material separation cylinders (301, 302, 303, 304) by combining a brush 99 that strikes the fluid materials with the shaft case (not shown) and driven poly (not shown) of the brush coupled to the shaft of the brush With zoom;

On one side of the first material separation container 301 is provided with an inlet pipe 9 for introducing fluid materials in combination with a control valve 77;
A pressure pump 78 is installed at one end of the inflow pipe 9 to zoom;

Configured outside the material separation system configured as described above
Drive motor (not shown) is coupled to be automatically operated by a comprehensive control system (not shown) configured separately;

A separate level checker is configured in the material separation container (301, 302, 303, 304) to check the inflow and discharge of the fluid material flowing into the material separation container (301, 302, 303, 304);

As the driven poly (not shown) is continuously rotated by the rotational force of the driving motor (not shown), the brush 99 continuously stirs and simultaneously strikes the fluid materials flowing into the material separation cylinders 301, 302, 303, and 304. Stirs and blows seawater, fresh water, wastewater, sewage, tap water, milk, soy sauce, miso, liquor, beverages, or liquid foods into each of the material separation vessels (301, 302, 303, 304) while generating mass explosion and mass friction. with;
Filling the inside of the material separation container 301 by introducing a flowable food, such as fresh water, sea water, alcohol, beverages, milk, soy sauce and miso, into the first material separation container 301 through the inflow pipe 9. At the same time

By separating the pollutant molecules mixed with sewage and clean water molecules using the material explosive action and the material friction action generated when the brush 99 is continuously operated, or causing the pollutant molecules bound to fresh water to come out from the fresh water or Either seawater and salt components combined with seawater are released from the seawater, or lighter substances contained in milk, soy sauce, soybean paste, red pepper paste, alcoholic beverages, beverages, or liquid foods are released into alcoholic beverages, beverages, or liquid foods. Generating material friction action and material explosion action generated by the rotational force of the brush 99 for 5 minutes to 2640 hours;

The contaminant molecules combined with fresh water and the contaminant molecules mixed with fresh water and the seawater components combined with seawater by the material friction and explosion caused by the rotation and friction and explosion of the brush 99 Each of the salts and / or the harmful substances contained in milk, soy sauce, soybean paste, red pepper paste, liquor, beverage, or liquid food are contained in the material separation container 301, 302, 303, 304 by the action of gravity. Overflowing to the top of overflow holes (8881,8882,8883,8884)

100 wt% of fresh water or sewage, wastewater or seawater, alcohol, beverages, milk, soy sauce, miso, red pepper paste, or liquid food through the inlet pipe 9 so that the action of gravity is continuously generated. Continuous inflow)

Fresh water or sea water or milk or soy sauce or miso or red pepper paste or waste water or liquor discharged by adjusting the discharge control valve 901 which is coupled to the outlet port 900 configured at the lower portion of the fourth material potting tube 304 When only 70wt% ~ 99.999999wt% of the discharge of beverage or liquid food is discharged, the remaining 0.000001wt% ~ 30wt% of fresh water or sea water or alcohol, beverage or liquid food is added to the material separation container (301,302,303,304).
Light organic materials having a high specific gravity overflowing the upper portion of the respective material overflow holes (8881,8882,8883,8884) are formed therein

Fresh water or sea water or liquor or beverages or liquid foods or oil sands (by sand) are collected in a collecting container 700 formed at the lower end of each of the material overflow holes (8881,8882,8883,8884). To clean contaminated fresh water, to clean up seawater, or to pollutant molecules in sewage by collecting and removing inorganic or organic suspended solids with a low specific gravity from the oil. Or extract contaminants contained in fresh water for energy use, clean the contaminated fresh water cleanly, use clean seawater molecules released from seawater molecules as drinking water, or use water as ballast water to fill the vessels with purified water, or Salt production by collecting seawater components and salt components separated from seawater molecules It is used as dissolved water or purified seawater to make salt substitute food, or to prepare sewage or waste water or fresh water or seawater, or to prepare food additives to be eaten by purified seawater, or to collect the seawater components collected by stirring the seawater. Fresh water is mixed with fresh water to produce seawater, or minerals and organic materials collected from seawater are used as energy, or alcohol is produced by removing lightly harmful substances contained in alcohol, or soy sauce or miso Liquids, such as ketchup and red pepper paste, remove harmful substances in milk, vinegar, and beverages to produce beverages and liquid foods, or collect oil by allowing oil to escape from oil sands. To prepare sea water for salt production, characterized in that Law, ship ballast water production method, sea water as salt substitute food, sea water component manufacturing method of fresh water into sea water, sewage or waste water or fresh water or sea water purification method, and fresh water or sea water processing A technique for obtaining energy, a method for preparing alcohol by removing lightly harmful substances, and a liquid food such as soy sauce, red pepper paste, or miso, and a method for preparing food by removing harmful substances in milk, vinegar, and beverages. A method of collecting oil by allowing oil components to escape from (oil in sand) and water purifier
KR1020110108410A 2011-10-23 2011-10-23 Production of liquid foods such as soy sauce, red pepper paste, and miso, manufacturing of fresh water with seawater, environmentally friendly food waste disposal method, environmentally friendly waste disposal method, food, milk, vinegar and beverage, wine and liquor Process for collecting oil in oil sands, method for purifying fresh water or tap water, sewage or waste water or fresh water or seawater, method for producing salt water for salt production, method for preparing ballast water for ships and substitution of salt in sea water Process of extracting food and water purifier applied to it KR20120000550A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
KR1020110108410A KR20120000550A (en) 2011-10-23 2011-10-23 Production of liquid foods such as soy sauce, red pepper paste, and miso, manufacturing of fresh water with seawater, environmentally friendly food waste disposal method, environmentally friendly waste disposal method, food, milk, vinegar and beverage, wine and liquor Process for collecting oil in oil sands, method for purifying fresh water or tap water, sewage or waste water or fresh water or seawater, method for producing salt water for salt production, method for preparing ballast water for ships and substitution of salt in sea water Process of extracting food and water purifier applied to it

Applications Claiming Priority (1)

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KR1020110108410A KR20120000550A (en) 2011-10-23 2011-10-23 Production of liquid foods such as soy sauce, red pepper paste, and miso, manufacturing of fresh water with seawater, environmentally friendly food waste disposal method, environmentally friendly waste disposal method, food, milk, vinegar and beverage, wine and liquor Process for collecting oil in oil sands, method for purifying fresh water or tap water, sewage or waste water or fresh water or seawater, method for producing salt water for salt production, method for preparing ballast water for ships and substitution of salt in sea water Process of extracting food and water purifier applied to it

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107540051A (en) * 2017-10-11 2018-01-05 中国石油化工股份有限公司 Filter early stage of oil field recharged waste water

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107540051A (en) * 2017-10-11 2018-01-05 中国石油化工股份有限公司 Filter early stage of oil field recharged waste water

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