KR102209197B1 - Clean by separating and extracting a small amount of salt or contaminated air or contaminated mineral substances or contaminated fluid substance molecules combined with food waste. Nature-friendly material molecule separation processing that purifies nature Eco-friendly method and water purifier applied to nature-friendly environment-friendly material molecule separation processing machine - Google Patents

Abstract

The present invention relates to a nature-friendly eco-friendly material molecule separation and processing machine which processes polluted water, polluted wastewater, or river water using the action of gravity and processes the same into clean water. More specifically, the present invention relates to an eco-friendly material molecule separation and processing machine which processes fluid material molecules by combining an upper tornado generator which generates a tornado in the upward direction at a lower end of a circular tornado generator with a rotating actuator, respectively.

Description

Clean by separating and extracting a small amount of salt or contaminated air or contaminated mineral substances or contaminated fluid substance molecules combined with food waste. Nature-friendly material molecule separation processing that purifies nature Eco-friendly method and water purifier applied to nature-friendly environment-friendly material molecule separation processing machine

The present invention cleans naturally by separating and extracting a small amount of salt component mixed in food waste, or a fluid material molecule having a light specific gravity and a fluid material molecule having a heavy specific gravity combined with contaminated air or contaminated fluid material molecules. This is an invention related to a nature-friendly material molecule separation process that is used for both nature-friendly material molecule separation and processing, and a water purifier applied thereto.

In detail, it relates to a material molecular separation machine that naturally purifies contaminated water or purifies seawater. More specifically, contaminated water or milk, or alcohol or salt water is passed through the separation membrane to make alcohol or milk under the influence of specific gravity and gravity. Or, it is intended to cleanly purify by removing various foreign substances contained in contaminated water and various foreign substances contained in salt water, or to produce clean fluid substance molecules.

The present invention uses the theory of water generation, which the inventor has invented over 1,600 cases for over 40 years, and uses the theory of water generation. The present invention relates to an eco-friendly material molecule separation processor that cleanly purifies contaminated fluid material molecules by using a technology for separating molecules, and an eco-friendly construction method using the same.

In detail, water was discovered while studying water with the question of how urine and defecation substances that are discharged every day by a huge number of fish and algae on the planet are not accumulated until now, after 4.5 billion years, but by what principle they are destroyed. It is an invention of a nature-friendly eco-friendly material molecule separation machine that cleanly purifies contaminated fluid material molecules based on production theory.

In order to look back at the proof of such an evidence theory, it can be seen that the truth that water is made is not wrong even by analogizing the time of just 100 years.

If this reasoning is wrong, the urine and manure excreted by people and all kinds of primates, fish and algae that have existed on Earth until now must remain forever.

In detail, the paradoxical logic that there should be no snow or rain and no clouds floating in the sky is established.

Therefore, it proves once again that the theory of water generation is not wrong, that all substances eventually decompose completely and turn into water molecules and then into water molecules.

The inventors have received dozens of patents related to water purification while proving such water theory.

Despite the comprehensive presentation of these evidences that all substances existing on the earth are decomposed into water molecules, the reason that a patent cannot be registered because the logic presented in the present invention is incorrect is that all substances have a volume and are therefore It is a clear violation of Article 7 of the Constitution as it completely denies the basic scientific common sense that gravity is completely governed by gravity.

The most recent patent registration is Patent Registration No. 10-2091573, registered on March 16, 2020.

The present invention has been invented by the present inventor and has been used in the past, "Name of the invention: Device for purifying contaminated water Patent Publication No. 10-2008-0080077" and "Name of the invention: Naturally contaminated water using a partition. "Patent Publication No. 10-2007-0105949" and the name of the invention: Purify the tap water flowing into the water tank with clean water, or purify contaminated river water with clean water, while simultaneously eating sea water. It is a technology that solves the major drawbacks of Publication No. 10-2011-0030285, which purifies with existing water and at the same time purifies with clean sea water.

Since these technologies described above are constructed in a state where the lower end of the partition formed inside the purification tank is opened, it is very difficult to control the amount of discharge when processing contaminated river water because the river water flowing into the purification tank is discharged before processing. Had a drawback

In other words, when contaminated river water is stored in the purification tank and purified into clean water, the stream water introduced through the lower part of the partition, which is opened from the beginning, is discharged in the downstream direction before processing. There was a low drawback The present invention is a technology that solves this problem.

As is well known, most of the water provided as drinking water is supplied by purifying the water stored in rivers, rivers, and reservoirs.Since water flows into spaces such as rivers, rivers, and reservoirs through various paths, it is contaminated in the incoming water. Contains a large amount of substances.

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, and chlorine input purification method, but they are consistently expensive. Compared to the cost, the effect was insignificant.

In order to improve this, there has also been a device that creates a vortex in the water through a separate device to float pollutants, and to implement water purification by removing it, but this has the disadvantage of having to have a separate device to improve water quality. Of course, the water quality purification area is very limited, so it is vulnerable to water quality improvement in a wider range.

In addition, there is a device that purifies water using a photocatalyst, but in the case of a water purification device using a photocatalyst, it is difficult to continuously purify a large amount of water because the water is purified without flowing in a limited space. There was a need for a device capable of continuously purifying the water of water.

Here, terms applied to the present invention will be described in order to increase the technical value of the present invention.

“Material acceleration phenomenon” and “material cutting action”, “law of material conservation instinct” and material binding action”, “material binding action” and “material rejection”, in which contaminated water quality contained in river water is naturally purified or deteriorated. Action” and “material liberation action” will be explained.

When all substances are introduced into the water due to the difference between the mass and specific gravity of the substance, the location of the shingles according to the specific gravity of the substances is different for each substance, that is, each substance flows in a different layer.

Due to this action, water with heavy specific gravity flows while forming a shingles on the lower layer of the river water, and contaminated water with light specific gravity flows while forming a shingles on the upper layer of the river water.The flow rate is the flow rate of the river water in the upper layer with increased pollution The reality is that it flows faster than water. This action occurs because the amount of pollutants contained in the water, ie the pollutant load, is high. This principle is defined as "material acceleration phenomenon".

The reason why the water flowing in the river is more polluted is due to the “material acceleration phenomenon” and “material binding action”. In detail, it is due to the following phenomena. Contaminated water with light specific gravity flows into the downstream portion of the river while maintaining a state in which contaminated water with light specific gravity by the action of gravity generated by the rotation of the Earth and solar system is flowing to the downstream portion of the river. Pollution is worsened by the "material binding action" that combines with other pollutants that come, so the pollution of river water becomes more and more aggravated.

The following describes the process of “material cutting action”. The material cutting action and the material acceleration phenomenon are closely related to each other. The process of material cutting is when contaminated river water tries to pass through the lower part of the sluice gate installed to prevent water, the water that makes up the river water is the water with heavy specific gravity pushes the contaminated water with light specific gravity to the upper part and then the specific gravity is higher. The effect of trying to escape first through the lower layer of light contaminated water is exerted. This principle is called “material cutting”. Is defined as. Even if all substances existing on Earth have the same size according to the atomic weight and molecular weight of the substances that make up the substance, their volume, or specific gravity, is different, so when they enter the water, they have no choice but to change the location where the substances are located.

So, pollutant molecules with a light specific gravity flow downward in a state of shingles in the upper layer of the river water, and river water with a heavy specific gravity flows down while forming a shingles in the lower layer.

Next, all substances instinctively preserve the essential components of the substance, "the law of the instinct of preserving matter", the "material binding action" exerted by these actions, and the "material liberation" caused by the material push action. Action” will be explained. Water has a characteristic of creating another substance by instinctively accepting the infiltrating substance and combining it with the substance when a substance other than water penetrates into the structure of water molecules due to the structural characteristics of water. In the present invention, this action is defined as "substance binding action".

In addition, if a certain impact is applied to water to make pure water molecules by shaking off contaminants that have penetrated into the pure water molecular structure that makes up the crystals of water, the contaminants contained in the pure molecular structure of water are immediately removed from the water molecules. The action that comes out of escape is the “material liberation action”. Is defined as. In other words, the action of cleansing contaminated water by the force of impact applied from the outside is called “material release action”. Is defined as. As described above, the reason why the material bonding action occurs is that when the water storage system is configured by discharging the incoming river water to the upper end of the water storage system that confines the river water, such as a concrete beam, a conductive sluice, or a rubber dam. Contaminated river water is naturally purged by installing a low-level water discharge sluice system that discharges river water to the lower end of the river. will be. If large dams are also constructed according to this method, pollution is absolutely not increased. In addition, if a sluice system is installed that discharges a lot of river water in the lower part of the water storage system, the reason for the increase of pollution is that the proportion of contaminated water that is stagnant in parts other than the discharge part where the sluice gate is composed of is light. The material is pushed out of the outlet by the pushing action of the heavy water molecules, and the contamination is further aggravated by the material binding action that binds with other pollutants. The contaminated river water with light weight, which is stagnant other than the outlet of the sluice gate, is absolutely impossible to move to the downstream of the river due to the material pushing action and material bonding action. By doing so, the pollution becomes more and more aggravated. In detail, if a siphon-type sluice gate that is configured to selectively discharge only a part of the water from the lower part of the rubber dam or only a part of the water in the lower layer of the conduction-type sluice is installed, water with heavy specific gravity becomes more specific. The substance that pushes out the light contaminated water first, the substance that escapes. The contaminated water molecules with light specific gravity are pushed by the water molecules with heavy specific gravity by the cutting action and the material pushing action, so that the substance remains stagnant inside the sluice gate. Contamination is inevitably aggravated by the material bonding action that combines contaminated materials with each other and the material bonding action that combines contaminated materials to form another material in the state that it cannot escape to the downstream part by the jungle action. There is no one. When water is confined using a submersible beam that discharges influent water to the upper end by these actions, the substance binding action and substances generated by contaminants and substances of water molecules gather together while the water is confined inside the storage system. There are serious problems in that contamination is rather aggravated by the bonding action.

The following explains the "law of the instinct to preserve matter".

All substances have the natural characteristics of trying to maintain the structure of the substance by the structural characteristics of the substance, and if another foreign substance penetrates into the material structure of the substance, it rejects the substance and pushes it away. Or, in the present invention, the action of exerting an action to escape from the substance or contaminants and to permanently preserve the pure structures of the substance is defined as "the law of the instinct of preservation of matter".

Because of this instinct for preserving the species, the unique subordinates living on the earth have continuously preserved their own genes.

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 substances mixed in the water, and the substance binding action that increases the pollution of the water is not exerted from the beginning, but the structures of pure water molecules are directly joined by the substance rejection action that rejects the pollutants. The contaminants are gradually rejected by the combination of substances and substances, and contaminants are gradually removed by natural reactions such as dissolved oxygen, solar heat, and microbial and osmotic pressure. As it combines with water molecules, it transforms into pollutants. As these substances are naturally decomposed, the fine particles that are generated are combined with other substances, which intensifies the pollution of the water.It is the green algae on the land and the red tide that occurs in the sea. . Substances called primates are by-products that are produced by lumping together with organic and inorganic substances.

The following describes the decomposition of substances, binding of substances, and flotation of substances. The pure molecules of water react to not bind with other substances as a substance rejection occurs according to the "law of substance conservation instinct" to maintain the pure water molecules. As the specific gravity becomes heavy while being bound by the substance binding action that binds to the molecules, the substances are decomposed by the natural decomposition action that occurs naturally in the state of sinking in the bottom layer of the river, generating fine particles. A repetitive action occurs in which water molecules and some substances of pollutants coming from upstream are combined with substances.

Contaminants contained in water molecules are transformed into fine particles by the self-cleaning process, which is naturally decomposed, and they move to the upper layer of the reservoir layer. The water molecules bound by the combination are repetitive and sink to the bottom of the reservoir as their specific gravity becomes heavy at the same time, and the actions that increase the pollution of the river water are the "material decomposition action", "material binding action" and " It is a substance levitation action".

The following describes the “material explosion action” that increases water pollution.

Substances that undergo various kinds of chemical reactions naturally flow into the water. These substances of unknown type encounter another substance, and when the unique chemical component of the substance meets the chemical component of the unknown type, the fine particles of the substance are formed. During the explosion, gaseous substances such as microscopic air bubbles are created and the action of floating above the water occurs. In other words, the continuous occurrence of fine droplets in the beer mug is caused by the explosion of the fine particles and fine particles contained in the beer as they meet. Therefore, the phenomenon that the droplets are continuously generated and the phenomenon of lightening are substances explosion.

In addition, when the screw used when the ship is operating rotates, the foamy air bubbles generated by contact with seawater are also generated due to the substance explosion.

The reason that such an explosion of matter continues to occur in water is that fine gaseous air bubbles continue to be created due to the explosive action of matter that explodes when matter and matter meet. When such an explosion occurs, the air bubbles and other particulates contained in the water are combined to form another material. The particulates generated at this time have a specific gravity that is heavier than the molecular structure of water, and a storage space where water is stored. As it precipitates in the bottom layer of the water, it increases water pollution.

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

Even though all substances are lighter than water or heavier than the specific gravity of water, the point of the fine water molecules and another clean water molecule are formed by the pressure generated by the action of gravity and water pressure when entering the water. When active contact is made with the pointed parts of the fine particles composed of the water molecules, a continuous blow is naturally applied to the fine particles of the pollutant interposed between the water molecules. As the abrasion occurs gradually, the presence of particulate matter constituting the pollutant itself wears away and disappears, and the contaminated water quality changes to a clean water quality.

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

During this process, the particles of incompletely decomposed substances are combined with pollutants and clean water by the viscous force contained in the microparticles, that is, the viscous force and magnetic force contained in the particles decomposed from another substance. This action is the "material binding action". The reason that fine particles generated as substances are decomposed naturally have viscous and magnetic forces, that is, the frictional movement of substances that wears substances and substances while moving in an innumerable number of times while the water molecules activate the envy movement that occurs inside the water. As this occurs naturally, the surface tension naturally occurs on the surface of the material, so the viscous force to bind with the material and the magnetic force that pulls the material are naturally strong at the pointed part of the material. It is defined as "action".

Since the new materials created by the material bonding action generated through this process become heavier than the specific gravity of water, material bonding is formed and at the same time, it is changed into sedimentary sludge as it is settled in the lower layer of water.

The contaminants that form the sedimentary sludge generated at this time are decomposed again by material friction and other decomposition actions to generate a large amount of fine particles again. The contaminated water is naturally revived as the material bonding action and material frictional action occur again among the fine particles.If such an action occurs continuously excessively, the green algae phenomenon on land and the red tide phenomenon occurs in the sea. .

All substances are completely decomposed into water molecules by frictional action and other decomposition actions exerted by particulates that make up water molecules the moment they enter water.

For example, the red rust produced by the decomposition of iron are fine particles with a specific gravity that is lighter than that of water molecules, and they are precipitated in the bed as the material bonds with other fine particles decomposed by water molecules. The resulting material is sedimentary sludge.

As all organic and inorganic substances, phosphorus and nitrogen contained in the water are naturally decomposed by material friction, oxygen, microbial, solar heat, and water molecules, the polluted water quality turns into heavy water. Since it is placed in the lower part of the water storage device, if it is discharged in the downstream direction through the lower part of the sluice gate that operates as a water storage device, that is, a low water discharge type, only clean water is continuously produced.

In this way, when water flowing down from the upstream is discharged through the lower layer where water is stored, the layer classification function is naturally classified into layers according to the difference between the specific gravity and mass of the material according to the law of material cutting and specific gravity. Due to the fact that the location of the shingles for each intrinsic mass of the material is different, the contamination is not aggravated because the material binding action is not performed, and the contaminated water quality is naturally purified.

Therefore, if water is confined in a certain place for a long time, pollution is further increased by material decomposition and material bonding. Therefore, the water stored in the storage space always maintains a full water level, while water coming down from the upstream is always passed through the lower part of the sluice gate. The frequent discharge method is the best way to prevent contamination of river water, and if the water in the storage space is discharged through the lower part of the sluice gate, it is caused by a substance binding action that combines substances contained in the water. While discharging contaminants such as aggregated sedimentary sludge, it naturally purifies contaminated water quality by generating material acceleration, material scraping, material decomposition, and material flotation, and also from the upper stream of the river to the upper part of the sluice gate. It is most desirable to purify contaminated water by diluting it with contaminated substances with a light specific gravity floating on the upper part of the water by discharging a little incoming water and water with a heavy specific gravity discharged through the lower part of the sluice gate. .

Patent Publication No. 10-2008-0080077 Publication Date September 2, 2008 Patent Publication No. 10-2007-0105949 Publication Date October 31, 2007 Patent Publication No. 10-2009-0129389 Publication Date December 16, 2009

The present invention separates pollutant molecules bound with water molecules in the up and down directions in the process of passing them through the lower layer of the material molecule separation induction film formed by applying the principle of automatic separation of material molecules as described above to separate clean water molecules. Contaminated water molecules are naturally purified by using a material molecule separation membrane that purifies contaminated material molecules by first discharging them in the downstream direction, or by removing impurities of salt dissolved in alcohol, milk, or water. It is intended to provide a method of purification.

In order to solve these problems, the present invention installs a plurality of material molecule separation induction films inside a processing machine configured in a rectangular shape, and preferentially directs fluid material molecules with heavy specific gravity to the downstream direction at about 1/3 to 2/3 points. The object of the present invention is to be solved by using a method of configuring a material molecule discharge port that is discharged to each material molecule separation induction film.

Water molecules with heavy specific gravity set aside the water molecules with light specific gravity aside, and the water pushed out by the material cut-out action that first escapes through the gap increases the contamination of the water because the material bonding becomes more active. It is called the action. When a stone is thrown into the water, the principle of pushing the water out and sinking into the water is to naturally purify contaminated river water using material cut-in action to purify it with clean water molecules.

In detail, all material molecules have mass, and it is intended to provide a method of naturally purifying or purifying contaminated water quality by inversely using the action of gravity acting according to the mass.

The present invention continuously supplies water to the inside of a processing machine configured to process water, and when it is discharged continuously, water molecules are sequentially escaped through each material molecule separation induction film, which is automatically generated by the action of gravity. Acceleration of material, material cut-out, material release, and material flotation occur naturally to purify the water quality, as well as to be able to finally discharge the purified water, and automatically float to the upper part of the processing machine. As the pollutants are removed by pushing them to the outside of the processing machine using a pusher configured on the upper layer of the processing machine, they have the effect of simply and easily removing pollutants bound to water molecules and processing them into clean water molecules. In other words, since the present invention uses the action of gravity in reverse, a separate biochemical method is not used, and material acceleration acts in the process where water molecules exit through the material molecule outlets configured in each material molecule separation induction film. The principle of purifying contaminated river water cleanly by removing contaminated water molecules combined with clean water molecules by material scraping, material liberation, and material flotation, and contaminants with relatively light specific gravity by gravity. Pure water molecules with a relatively heavy weight and spread in the upper part of the space move to the lower part of each space and are discharged to the outside of the processing machine, thereby extracting pure water molecules combined with pollutant molecules. In addition, since a separate biochemical treatment is not required, the treatment time can be shortened and there is an advantage that treatment costs are not required at all. Therefore, if this method is applied, no matter how contaminated storage water is, it is possible to easily purify contaminated river water at a low cost and supply it as living water, and by installing a purification tank in the middle of a river or river or in a waterway, the water can pass through it. By allowing it to pass through, it is possible to purify river water by making clean water without using chemicals such as chlorine and fluorine, and to reduce the generation of sedimentary sludge. If the processing machine constructed according to the present invention is installed in a reservoir or a lake and then the stored water is circulated through the processing machine constructed according to the present invention, it prevents the binding action of substances that increase water pollution. It has a great effect that can prevent them from the source.

1 is a perspective view of an eco-friendly material molecular separation machine according to an example in the first embodiment of the present invention
2 is a cross-sectional perspective view showing an intermediate portion of an eco-friendly material molecule separation processor according to the first to fourth embodiments of the present invention.
3 is a side cross-sectional perspective view showing an enlarged side cross-section of an eco-friendly material molecule separation processor according to a second embodiment of the present invention.
4 is a cross-sectional perspective view of an eco-friendly material molecule separator according to a second embodiment of the present invention
5 is a cross-sectional perspective view of an eco-friendly material molecule separation processor according to the first to second embodiments of the present invention.
FIG. 6 is a perspective view showing a modified embodiment of a rotating furry brush configured in a furry shape inside an eco-friendly material molecular separation processor configured according to the present invention
7, 8, and 9 are perspective views showing the conventional water purification apparatus shown in Patent Publication No. 10-2008-0080077, Patent Publication No. 10-2007-0105949, and Patent Publication No. 10-2009-0129389.
10 is a horizontal direction photograph showing a state in which a circular tornado generating device and a rotating strike device applied to the present invention are configured in a furry shape.
Fig. 11 is a cross-sectional perspective view of an eco-friendly material molecular separation machine modified according to claims 4 and 5 of the present invention
Fig. 12 is a cross-sectional perspective view showing a state in which an upright rotational furry brush applied to the present invention is configured inside an eco-friendly material molecular separation processor
Fig. 13 is a perspective view of a multi-stage eco-friendly material molecular separation machine constructed according to a third embodiment of the present invention
Fig. 14 is a perspective view of an eco-friendly material molecule separation processor constructed in accordance with claim 9 having a modified configuration of a fourth embodiment of the present invention
Fig. 15 is a perspective view of an eco-friendly material molecular separation machine constructed according to claim 8 according to a fourth embodiment of the present invention
16 is a perspective view of an eco-friendly material molecule separator according to a fifth embodiment of the present invention
17 is a cross-sectional perspective view showing an intermediate portion of an eco-friendly material molecule separator according to a fifth embodiment of the present invention
18 to a perspective view of an eco-friendly material molecule separator according to a sixth embodiment of the present invention
FIG. 19 is a cross-sectional perspective view showing the middle of an eco-friendly material molecule separator according to a sixth embodiment of the present invention.
FIG. 20 is a perspective view of an environment-friendly material molecule according to a sixth embodiment of the present invention by cutting the middle of one side;
FIG. 21 is a cut perspective view showing a front part of one side of an eco-friendly material molecule separation processor according to a sixth embodiment of the present invention
FIG. 22 is a perspective view showing in a perspective view an environment-friendly material molecular separation processor constructed according to a seventh embodiment of the present invention;
FIG. 23 is a cross-sectional perspective view showing the middle of an eco-friendly material molecule separator configured according to a seventh embodiment of the present invention, cut in a horizontal direction
FIG. 24 is a plan sectional perspective view showing a top portion of an eco-friendly material molecular separation processor configured according to a seventh embodiment of the present invention;
25 is a photograph showing an installation example of a rotating striking device configured to be cross-inserted into the interior of an eco-friendly material molecule separation processor according to a seventh embodiment of the present invention
26 is a cross-sectional view showing a horizontal cross-section and a planar state of the middle portion of an eco-friendly material molecule separation processor configured according to the fifth to sixth embodiments of the present invention
Fig. 27 is a perspective view of an eco-friendly material molecular separation machine constructed according to an eighth embodiment of the present invention
FIG. 28 is a cross-sectional perspective view of an eco-friendly material molecule separator configured according to a ninth embodiment of the present invention
29 is a cross-sectional perspective view of an installation of an eco-friendly material molecule separation processor configured according to a tenth embodiment of the present invention
FIG. 30 is a cross-sectional perspective view showing an inner cross-section of an eco-friendly material molecule separation processor configured according to an eleventh embodiment of the present invention
FIG. 31 is a photograph of the configuration of a rotating struck body configured in the form of a cup brush according to a twelfth embodiment of the present invention
Fig. 32 is a cross-sectional perspective view showing a cross section of a material molecule separating machine constructed according to a thirteenth embodiment of the present invention
Fig. 33 is a perspective view showing a cross-section of an eco-friendly material molecular separation machine constructed according to claim 19 of the present invention
Fig. 34 is a perspective view showing a cross-section of an eco-friendly material molecular separation machine constructed in accordance with claim 18 of the present invention
Fig. 35 is a perspective view of an eco-friendly material molecule separation processor constructed according to a fourteenth embodiment of the present invention
Fig. 36 is a cross-sectional perspective view of an eco-friendly material molecular separation machine constructed according to a fourteenth embodiment of the present invention cut in a horizontal direction;
Fig. 37 is a perspective view of one side showing a state in which a rotating hair peach brush is formed in an environment-friendly material molecular separation machine according to a fourteenth embodiment of the present invention;
Fig. 38 is a perspective view constructed by changing the shape of a rotating striker configured inside an eco-friendly material molecular separation machine according to the present invention
Fig. 39 is a perspective view of the shape of a rotating struck body configured inside an eco-friendly material molecular separation machine according to the present invention.
FIG. 41 is a perspective view of an eco-friendly material molecule separating machine constructed according to a seventeenth embodiment of the present invention FIG. 42 is a perspective view showing an eco-friendly material molecule separating machine constructed according to a seventeenth embodiment of the present invention
FIG. 43 is a perspective view of an eco-friendly material molecule separating machine constructed in accordance with an 18th embodiment of the present invention FIG. 44 is an exploded perspective view of an eco-friendly material molecule separating machine constructed in accordance with an 18th embodiment of the present invention
FIG. 45 is a perspective view showing an environment-friendly material molecular separation processor constructed according to a seventeenth embodiment of the present invention from a lower end to an upward direction
Fig. 46 is a perspective view of an eco-friendly material molecule separating machine constructed according to a nineteenth embodiment of the present invention. Fig. 47 is an exploded perspective view of an eco-friendly material molecule separating machine constructed according to the nineteenth embodiment of the present invention
Fig. 48 is a perspective view of an eco-friendly material molecule separating and processing machine constructed according to a twentieth embodiment of the present invention, and Fig. 49 is a separation consisting of an eco-friendly material molecule separating and processing machine constructed according to a twentieth embodiment of the present invention Perspective view
Fig. 50 is a perspective view showing an eco-friendly material molecule separation processor constructed according to a twentieth embodiment of the present invention from a lower side to an upper side in a state in which the machine is divided in half;
50 is an intermediate separator that promotes the separation of fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity in a part of the interior of an eco-friendly material molecule separation processor constructed according to a twentieth embodiment of the present invention. Half perspective view showing the state
52 is a schematic perspective view of an air ejection unit configured to be inserted into a material molecule separation processor according to a 22nd embodiment of the present invention
Figure 53 is a perspective view of a material molecule separation processor constructed according to a twenty-first embodiment of the present invention
54 is an exploded perspective view showing a material molecule separating processor constructed according to a twenty-first embodiment of the present invention divided in half;
Figure 55 is a perspective view of a rotating strike body constructed according to a 23rd embodiment of the present invention
56 is a perspective view of an eco-friendly material molecule separator applied to a twenty-fourth embodiment of the present invention
FIG. 57 is an exploded perspective view of an eco-friendly material molecular separation processor applied to a twenty-fourth embodiment of the present invention
Fig. 58 is a photograph showing a state in which a rotary striker configured according to each embodiment of the present invention is changed to a turbocharged type
Fig. 59 is a perspective view showing a state in which the configuration of a multi-layered material molecule movement passage configured inside the material molecule separation processor is composed of layers in different shapes such as circular, pentagonal, or diamond
Fig. 60 and a schematic perspective view of a fluid material molecule rising guide plate constructed according to a 27th embodiment of the present invention
61 is a schematic perspective view of a material molecule descending guide plate constructed according to a 27th embodiment of the present invention
Fig. 62 is a half perspective view showing an interior of a material molecule separating machine constructed according to a 28th embodiment of the present invention, cut in half
Figure 63 is a photograph of a substance explosion that occurs when the substance molecules come into contact with substance molecules when tap water is spilled.
Figure 64 is a photograph of a cloud, which is a combination of gaseous moisture that has risen to the atmosphere by the action of gravity as it is decomposed into ultra-fine particles by a material explosion that occurs when materials and materials in the sea and land come into contact.
Figure 65 is a perspective view of an eco-friendly material molecule separator applied to a 29th embodiment of the present invention
66 is an exploded perspective view of an eco-friendly material molecular separation processor applied to the 29th embodiment of the present invention divided in half
67 is a perspective view of an eco-friendly material molecular separation machine showing a modified state of the 29th embodiment of the present invention
Figure 68 is an exploded perspective view of an eco-friendly material molecular separation machine showing a modified state of the 29th embodiment of the present invention by dividing it in half
FIG. 69 is a partial perspective view showing a coupling relationship between a rotating body, a rotating striking body, an injection pipe, and a second injection pipe applied to a material molecule separation machine according to a 29th embodiment of the present invention;
FIG. 70 is a partial perspective view showing a coupling structure between a material molecule separation processor and a fluid material molecule rising guide plate configured inside a material molecule mixer unit according to a 29th embodiment of the present invention;
Fig. 71 is a plan perspective view as viewed from the top of the material molecule separation processing machine in a state in which one side of the material molecule separation processing machine constructed according to the present invention is cut
FIG. 72 is a partial perspective view showing a coupling relationship between a material molecule separation processor and a fluid material molecule rising guide plate configured in the material molecule mixer unit according to the 29th embodiment of the present invention and an upper layer material molecule movement path
73 is a rotating body and a rotating body and a material molecule descending guide plate, a fluid material molecule rising guide plate, and a plurality of upper layers of materials, which are constituted in the interior of the material molecule separation processor and the material molecule mixer unit according to the 29th embodiment of the present invention. Partial perspective view showing the coupling relationship between the molecular passage and the injection pipe
FIG. 74 is a view of a material molecule descending guide plate and a fluid material molecule rising guide plate, a plurality of upper layer material molecule movement passages, and an injection pipe configured in the material molecule separation processor and the material molecule mixer unit according to the present invention. Partial perspective view showing bonding relationship
Fig. 75 is a perspective view of a material molecule separating machine constructed according to a thirtieth embodiment of the present invention
Figure 76 is an exploded perspective view of an eco-friendly material molecular separation processor configured according to a 30th embodiment of the present invention divided in half;
Fig. 77 is a perspective view of an eco-friendly material molecule separation machine showing a modified and configured state of a water-bill molecule separator constructed according to a thirtieth embodiment of the present invention;
Fig. 78 is an exploded perspective view of an eco-friendly material molecular separation machine showing a modified state of a 30th embodiment of the present invention by dividing it in half
FIG. 79 is a perspective view of an eco-friendly material molecule separating machine constructed according to a 31st embodiment of the present invention. FIG. 80 is an exploded perspective view showing an eco-friendly material molecule separating machine constructed in accordance with a 31st embodiment of the present invention.
FIG. 81 is an exploded perspective view showing a coupling relationship between a material molecule descending guide plate configured in an eco-friendly material molecule separation machine according to a thirty-first embodiment of the present invention.
FIG. 82 is an exploded perspective view showing the configuration of a fluid material molecule rising guide plate configured in an eco-friendly material molecule separation machine according to a 31st embodiment of the present invention;
83 is a perspective view of an eco-friendly material molecular separation machine constructed in accordance with a 32nd embodiment of the present invention
FIG. 84 is an exploded perspective view showing an eco-friendly material molecular separation processor configured according to a 32nd embodiment of the present invention divided in half
FIG. 85 is a perspective view of a multi-stage eco-friendly material molecule separation processor, showing a state in which the environment-friendly material molecule separation processor constructed in accordance with a 32nd embodiment of the present invention is installed in multiple stages to purify contaminated fluid material molecules or contaminated air.
Fig. 86 is a perspective view of an eco-friendly material molecular separation machine constructed according to a 33rd embodiment of the present invention
87 is an exploded perspective view showing an eco-friendly material molecular separation processor configured according to a 33rd embodiment of the present invention divided in half;
Fig. 88 is a perspective view of an eco-friendly material molecular separation machine constructed according to a 34th embodiment of the present invention
FIG. 89 is an exploded perspective view showing an eco-friendly material molecular separation processor configured according to a 34th embodiment of the present invention divided in half
Fig. 90 is a perspective view of an eco-friendly material molecular separation processor constructed in accordance with a 34th embodiment of the present invention in multiple stages
91 is an exploded perspective view showing an eco-friendly material molecular separation processor configured according to an eighth embodiment of the present invention by dividing it in half
Fig. 92 is a perspective view of an eco-friendly material molecular separation machine constructed according to a 35th embodiment of the present invention
FIG. 93 is an exploded perspective view showing an eco-friendly material molecular separation processor configured according to a 35th embodiment of the present invention divided in half
FIG. 94 is an exploded perspective view showing a part of an eco-friendly material molecular separation processor constructed according to a 35th embodiment of the present invention,
95 is a photograph of a phenomenon in which a substance explosion action, a substance pushing action, and a substance rejection action applied to each embodiment of the present invention occur inside a paper cup
Figure 96 is a photograph showing a modified form of a rotating strike body applied to each embodiment of the present invention
97 is a perspective view of an eco-friendly material molecular separation machine constructed in accordance with a 36th embodiment of the present invention
Fig. 98 is a sectional perspective view showing an embodiment modified to a gear type of a rotating body for rotating a rotating strike body and a connection means for connecting the rotating body applied to each embodiment of the present invention
Fig. 99 is a perspective view of a material molecule separating machine constructed according to a 37th embodiment of the present invention
100 is an exploded perspective view showing a material molecule separating processor configured according to a 37th embodiment of the present invention divided in half
101 is a perspective view illustrating a state in which a rotating body for rotating a rotating strike body constructed according to each embodiment of the present invention and a rotating body are connected in a gear type
FIG. 102 is an exploded perspective view showing a separate and coupled state of a rotating body and a rotating body for rotating a rotating strike body configured according to each embodiment of the present invention;
103 is a perspective view of a material and molecular separation machine constructed according to a 39th embodiment of the present invention
104 is an exploded perspective view showing a middle part of the upper part of a material molecule separating machine constructed according to a 39th embodiment of the present invention divided in half;
Fig. 105 is an exploded perspective view showing a material molecule separating processor constructed according to a thirty-ninth embodiment of the present invention by dividing the middle part in the horizontal direction in half;
Fig. 106 is an exploded perspective view showing a material molecule separating processor constructed according to a 39th embodiment of the present invention in a diagonal direction;
107 is a perspective view showing a material molecule separation machine constructed according to a 39th embodiment of the present invention from an upper end direction;
Fig. 108 is a perspective view of a material molecule separation machine constructed according to a 40th embodiment of the present invention
109 is an exploded perspective view showing a material molecule separating processing machine constructed according to a 40th embodiment of the present invention by dividing the middle part in the horizontal direction in half;
FIG. 110 is an exploded perspective view showing from an upward direction in a state in which one part of a material molecule separation processor configured according to a 40th embodiment of the present invention is cut;
Fig. 111 is an exploded perspective view showing from the right side in a cut-away state of one side of a material molecule separation machine constructed according to a 40th embodiment of the present invention;
Fig. 112 is a perspective view of a material molecule separation machine constructed according to claim 53 of the present invention
113 is an exploded perspective view showing a material separator configured according to claim 53 of the present invention divided in half
Fig. 114 is a perspective view of a material molecule separating machine configured according to claim 54 of the present invention
115 is an exploded perspective view showing a material separator configured according to claim 54 of the present invention divided in half
FIG. 116 is a perspective view of a multi-stage material molecule separation machine for separating fluid material molecules having a light specific gravity from fluid material molecules having a heavy specific gravity by installing a material separator configured according to claim 54 in multiple stages
Figure 117 is a perspective view of a material molecule separation processor configured according to claim 55 of the present invention
118 is an exploded perspective view showing a material separator configured according to claim 55 of the present invention divided in half
FIG. 119 is a perspective view of a multi-stage material molecule separator for separating fluid material molecules having a light specific gravity from fluid material molecules having a heavy specific gravity by installing a material separator configured according to claim 55 in multiple stages
FIG. 120 is a perspective view of a material molecule separating machine constructed according to claim 56 of the present invention
FIG. 121 is an exploded perspective view showing a material separator configured according to claim 56 of the present invention divided in half
FIG. 122 is a perspective view of an eco-friendly material molecule separating machine showing an embodiment of changing the material molecule separating processor configured according to claim 56 of the present invention
Figure 123 is an exploded perspective view showing an embodiment of a modified material separator configured according to claim 56 of the present invention divided in half
FIG. 124 is a perspective view of an eco-friendly material molecule separating machine showing the material molecule separating machine constructed according to claim 57 of the present invention
125 is an exploded perspective view showing a material separator configured according to claim 57 of the present invention divided in half
FIG. 126 is a perspective view of an eco-friendly material molecule separating machine showing an embodiment of changing the material molecule separating processor configured according to claim 57 of the present invention
Figure 127 is an exploded perspective view showing an embodiment of a modified material separator configured according to claim 57 of the present invention divided in half
128 is a perspective view showing a material separator configured according to claim 58 of the present invention
FIG. 129 is an exploded perspective view of an eco-friendly material molecule separating machine, showing the material molecule separating processor configured in accordance with claim 58 of the present invention divided in half
130 is a perspective view of a substance molecule branch configured in multiple stages according to claim 59 of the present invention
Figure 131 is a cross-sectional perspective view of a substance molecule branch constructed according to a 48th embodiment of the present invention
FIG. 132 is a cross-sectional perspective view of an eco-friendly material molecule separation machine applied to a floating facility configured to float inside a ship or a river or river or lake or lagoon according to the 49th embodiment of the present invention
Figure 133 is a cross-sectional perspective view of an eco-friendly material molecule separator applied to a 50th embodiment of the present invention
Figure 134 is a perspective view showing a material separator configured according to claim 63 according to a 51st embodiment of the present invention
FIG. 135 is an exploded perspective view of an eco-friendly material molecule separating machine showing a material molecule separating machine configured according to claim 63 according to a 51st embodiment of the present invention by dividing it in half
Figure 136 is a perspective view showing a material separator configured according to claim 64 according to a 52nd embodiment of the present invention
FIG. 137 is an exploded perspective view of an eco-friendly material molecule separating machine, showing a material molecule separating machine configured according to claim 64 according to a 52nd embodiment of the present invention by dividing it in half
138 is a perspective view showing a material separator configured according to claim 65 according to a 53rd embodiment of the present invention
FIG. 139 is an exploded perspective view of an eco-friendly material molecule separating machine showing a material molecule separating machine constructed in accordance with claim 65 according to a 53rd embodiment of the present invention by dividing it in half
140 is a perspective view showing a material separator configured according to claim 66 according to a 54th embodiment of the present invention
FIG. 141 is an exploded perspective view of an eco-friendly material molecule separating machine showing a material molecule separating processor configured according to claim 66 according to a 54th embodiment of the present invention by dividing it in half
142 is a perspective view showing a material separator constructed according to claim 67 according to a 55th embodiment of the present invention
FIG. 143 is an exploded perspective view of an eco-friendly material molecule separating machine showing a material molecule separating machine configured according to claim 67 according to a 55th embodiment of the present invention by dividing it in half
Figure 144 is a perspective view showing a material separator configured according to claim 68 according to a 56th embodiment of the present invention
FIG. 145 is an exploded perspective view of an eco-friendly material molecule separating machine showing a material molecule separating machine configured according to claim 68 according to a 56th embodiment of the present invention by dividing it in half
146 is a perspective view showing a material separator configured according to claim 69 according to a 57th embodiment of the present invention
FIG. 147 is an exploded perspective view of an eco-friendly material molecule separating and processing machine configured according to claim 69 according to a 57th embodiment of the present invention by dividing in half
148 is a perspective view showing a material separator configured according to claim 70 according to a 58th embodiment of the present invention
FIG. 149 is an exploded perspective view of an eco-friendly material molecule separating and processing machine configured according to claim 70 according to a 58th embodiment of the present invention by dividing in half
150 is a perspective view showing a material separator configured according to claim 71 according to a 59th embodiment of the present invention
FIG. 151 is an exploded perspective view of an eco-friendly material molecule separating machine showing a material molecule separating processor configured according to claim 71 according to a 59th embodiment of the present invention by dividing it in half
Figure 152 is a perspective view showing a material separator configured according to claim 72 according to a 60th embodiment of the present invention
FIG. 153 is an exploded perspective view of an eco-friendly material molecule separating machine showing a material molecule separating processor configured according to claim 72 according to a 60th embodiment of the present invention by dividing it in half
FIG. 154 is a partial perspective view illustrating a plan state of an upper end of a machine for separating and processing nature-friendly eco-friendly substances according to the 61st embodiment of the present invention;
Figure 155 is a photograph of a collision promoting member inserted into the interior of the nature-friendly eco-friendly material molecule separation processor constructed according to the 62nd embodiment of the present invention
156 is a perspective view showing a material separator configured according to claim 75 according to the 63rd embodiment of the present invention
FIG. 157 is an exploded perspective view of an eco-friendly material molecule separating and processing machine configured according to claim 75 according to a 66th embodiment of the present invention by dividing it in half
158 is a perspective view of a multi-stage eco-friendly material-molecule separating machine, showing a state in which a material molecule separating processor constructed according to claim 75 according to a 66th embodiment of the present invention is configured by installing multi-stages
159 and 160 are photographs of a rotating brush illustrating a modified embodiment of a rotating smasher configured to be inserted into an environment-friendly material molecular separation processor configured according to each embodiment of the present invention.
161 is a photograph showing an example of an uneven wall configured to be inserted into the interior of an eco-friendly material molecular separation processor configured according to each embodiment of the present invention
Figure 162 is a configuration to eject gaseous substance molecules and fluid substance molecules at various angles to the end or side portion of an injection pipe configured to be inserted into the interior of an eco-friendly substance molecule separator configured according to each embodiment of the present invention. A photograph illustrating the outlet
FIG. 163 is a perspective view showing a state in which an eco-friendly material molecular separation processor according to a fifth embodiment of the present invention is configured in another form
FIG. 164 is an exploded perspective view showing a state in which an eco-friendly material molecular separation processor according to a fifth embodiment of the present invention is configured in a different form, divided in half
165 is a perspective view showing a material separator configured according to claim 76 according to a 64th embodiment of the present invention, and FIG. 166 is a perspective view showing a material separator configured according to claim 76 according to the 64th embodiment of the present invention. A perspective view of an eco-friendly material molecule separation processor shown separately
167 is a perspective view showing a state in which an eco-friendly material molecular separation processor according to a 65th embodiment of the present invention is configured in another form
FIG. 168 is an exploded perspective view showing a state in which an environment-friendly material molecular separation processor according to a 65th embodiment of the present invention is configured in different forms, divided in half
169 is an exploded perspective view showing a material molecule separation processing unit, which is a component of an eco-friendly material molecule separation processing machine according to a 65th embodiment of the present invention, divided in half.
170 is composed of an upright injection pipe that is combined with an injection pipe that is a component of an eco-friendly material molecular separation machine according to the 65th embodiment of the present invention, and is composed of a plurality of ejection ports for ejecting liquids or gases. Partial perspective view showing the configuration of the air diffusion plate separated
171 is a perspective view showing an eco-friendly material molecule separation processor according to a 66th embodiment of the present invention
172 is an exploded perspective view showing an eco-friendly material molecule separation processor according to a 66th embodiment of the present invention by dividing it in half
173 is a photograph of a rotating strike body showing a structure capable of changing and configuring a rotating strike body configured according to each embodiment of the present invention
174 is a photograph of a rotating struck body in another form showing a structure capable of changing and configuring a rotating struck body configured according to each embodiment of the present invention
Figure 175 is a picture of clouds in the sky taken from the inside of an airplane
Figure 176 is a photograph of the discharge of river water discharged through the lower part of an eco-friendly movable beam for both use of a water purifier constructed by blocking a river.
Figure 177 is a photograph of a phenomenon discharged through a faucet
178 is a perspective view showing an environment-friendly material molecule separation processor according to a 66th embodiment of the present invention in a form consisting of multiple steps

The present invention uses a small amount of salt mixed in food waste using an eco-friendly water purifier and eco-friendly material molecule separation processor configured to separate fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity combined with all material molecules. Separation of material molecules for both eco-friendly and eco-friendly water purifiers that cleanly and naturally purify by separating and extracting fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity combined with contaminated air or contaminated fluid material molecules This is an invention related to a processing machine and a method for separating and processing nature-friendly eco-friendly materials.

In detail, separation of material molecules for both nature-friendly eco-friendly water purifiers that separates and extracts light-weight pollutant material molecules and heavy fluid material molecules combined with fluid material molecules such as water or gaseous material molecules such as air. It is an invention of a processing machine and an eco-friendly construction method using the same.

All substances, such as water, have a mass and a volume, and air also has a mass and a volume.

Therefore, all material molecules in the universe and on Earth are governed by gravity.

The present invention uses the action of gravity in reverse and uses the law of gravity that moves up and down according to the motion of mass and specific gravity and the corresponding action and reaction. The invention of the nature-friendly eco-friendly method for separating and extracting material molecules and the nature-friendly eco-friendly material molecule separation processor applied here is composed as follows.

Hereinafter, the present invention will be described in detail according to each of the exemplary embodiments presented and the accompanying drawings.

Among the terms applied to the present invention, water or unprocessed river water, water stored in rivers or reservoirs, or water stored in lakes or small ponds or puddles, or processed wastewater human meal or livestock general garbage and food waste and food All fluid substances used by humans or animals, such as water or tap water, milk, alcohol, favorite foods, additives, and beverages used when making food are collectively referred to as "fluid substance molecules".

In addition, the term substance molecule is a generic term for liquid substance molecules composed of fine fluid substance molecules.

A first embodiment constructed according to claim 1 will be described as follows.

1 is a perspective view of an eco-friendly material molecule separator according to a first embodiment of the present invention,

FIG. 2 is a cross-sectional perspective view showing an intermediate part of an eco-friendly material molecule separation machine according to the first to fourth embodiments of the present invention, and FIG. 6 is a furry shape inside the environment-friendly material molecule separation machine according to the present invention. It is a perspective view showing a modified embodiment of the rotational furry brush (5000) consisting of

As shown, in the environment-friendly material molecule separation processor according to the first embodiment of the present invention, the environment-friendly material molecule separation processor 8000 is configured in a rectangular shape;

A structure in which an injection line 8001 for injecting fluid substance molecules such as water is formed at the upper end of one side:

At the lower end of the other side, a discharge line 8028 for discharging fluid substance molecules such as water is configured to have a size smaller in a ratio of 10L to 99.99L than the ratio of 100L of the total amount of inflow flowing through the injection line 8001

A structure coupled to a discharge control valve 8029 that opens and closes the discharge line 8028 at one side of the discharge line 8028;

For example, when converted into an inflow amount of 1000L per 1 second to 1 hour through the injection line 8001 into the interior of the eco-friendly material molecule separation processor, 900L to 999.99L are discharged through the discharge line 8028 The remaining 0.001L to 999.99L are configured to generate an action of floating to the upper side of the environment-friendly material molecule separation processor 8000 and discharging it.

On the upper part of the eco-friendly material molecule separation processor 8000, contaminant material molecules with a light specific gravity rising to the top of the eco-friendly material molecule separation process machine 8000 are pushed out of the eco-friendly material molecule separation machine 8000 to remove them. A structure in which the pusher 9999 is configured to be coupled with the adjusting device 6002;

The role of the discharge control valve 8029 serves to control the discharge of fluid substance molecules such as water or river water or primary purified wastewater flowing into the environment-friendly substance molecule separator.

The structure of the adjusting device 6002 for operating the push rod 9999 can be changed in a wide variety of configurations.

In the present invention, the structure for controlling the push rod is shown as a rotary type coupled with a reducer, but a small weight of the environmentally friendly substance molecule separating processor is shown as a rotary type that is coupled with a reducer, while moving forward and backward by a pneumatic or hydraulic type, or a screw screw type or a racker type. It is natural that all of these design changes belong to the scope of the present invention, as it is possible to change the configuration so that the fluid material molecules having a light weight and the specific gravity are pushed out of the eco-friendly material molecule separation machine to be removed.

A structure in which a fluid material molecule separation guide plate 2000 is configured in one direction at the lower end of the eco-friendly material molecule separation processor 8000;

The structure of the fluid material molecule separation guide plate 2000 is inclined from the other direction to one direction so that water molecules with heavy specific gravity are collected in one direction, while the vertical shape is inclined from the rear to the front. Constructed structure; to be.

The reason for the configuration inclined in one direction rather than in a horizontally inclined form is that all fluid material molecules are governed by gravity, so fluid material molecules with a light specific gravity are pushed by heavy material molecules and automatically float upwards. It is a structure constructed to do

In detail, the structure of the fluid material molecule separation guide plate (2000) is formed in an inclined shape with a valley, so that water molecules with heavy specific gravity push out material molecules with light specific gravity and are inclined in one direction from the other direction to gather in one direction. The true form and the vertical form are inclined from the rear part to the front part; This is to collect water with heavy specific gravity easily in one direction and carefully select and collect a large number of fluid substances with heavy specific gravity.

The inclination angle is not limited to a specific shape because the composition can be changed as much as possible when configuring the fluid material molecule separation guide plate 2000.

A structure in which a plurality of material molecule separation induction films (8003,8007,8011,8015,8019,8023) are respectively configured in the environment-friendly material molecule separation processor 8000; to be

The number of components of the plurality of material and molecular separation induction films can be added as needed, so the number of components is not particularly limited.

The composition angle and composition number of the material molecule separation induction film can be adjusted as much as possible, and the composition number is not specified because the composition can be increased.

At the lower end of the material molecule separation induction film (8003,8007,8011,8015,8019,8023), the lower part of the material molecule moving passage (8004,8008,8012,8016, etc.) so that fluid material molecules such as water can move freely. 8020, 8024) are provided, respectively.

It is possible to add any number of configuration types and configuration numbers of the lower layer of material molecules, and can be configured by changing any number of configuration types.

A material molecule rising guide plate (8005,8009,8013,8017,8021,8025) with a certain distance, that is, 5cm to 10m, on the rear surface of the material molecule separation induction film (8003,8007,8011,8015,8019,8023) Each of these are combined to form respective passages (2,4,6,8,10,12) to induce the rise of material molecules.

The configuration angle, configuration form, and number of the material molecule rise guide plate and the material molecule rise guide path can be added and configured by changing the shape and configuration form.

The material molecule movement path (8006,8010,8014,8018,8022, upper layer) to facilitate the movement of fluid material molecules such as water on the upper side of the material molecule rising guide plate (8005,8009,8013,8017,8021,8025) 8026) is composed of each; is.

The configuration of the upper layer material molecule movement path can be changed as much as necessary, and its size can be changed as much as possible.

Between the lower end of the material molecule rise induction passage (2,4,6,8,10,12) and the fluid material molecule separation induction plate 2000, the eco-friendly material molecule is introduced into the interior of the separation processor 8000. A structure in which a circular tornado generating device 5002 that rotates and strikes fluid material molecules such as water is configured to face one side and the other side of the eco-friendly material molecule separation processor 8000, respectively;

If you are a relevant supplier, you can change the configuration of the circular tornado generator as much as you like.

The material molecule separation induction film, the material molecule lower layer movement passage, the material molecule rise guide plate, and the material molecule rise induction path are changed by different configurations, increasing the number of configurations, or varying the configuration height. It is natural that all of these design changes belong to the scope of the present invention because the configuration can be changed.

Between the circular tornado generating device 5002, a rising guide plate body 5001 that raises fluidic material molecules such as water in an upward direction is formed in a triangular shape in one side and the other side of the eco-friendly material molecule separation machine. Structure; is

The configuration of the rising guide plate body can be changed in a wide variety.

The structure of an eco-friendly material molecule separation processor 8000 in which an upper tornado generating device 3002, which generates a tornado in an upward direction, is coupled to a rotating body 1502 at the lower end of the circular tornado generating device 5002. In the state in which the discharge control valve 8029 is closed, unprocessed wastewater, river water, or fresh water is continuously injected into the interior of the eco-friendly material molecule separator 8000 through the injection line 8001 at a rate of 100WT%, and the The circular tornado generating device 5002 and the upper tornado generating device 3002 each configured in the environment-friendly material molecule separation processor 8000 are continuously rotated to the inside of the environment-friendly material molecule separation processor 8000. The above-mentioned substances that are continuously striking the incoming fluid material molecules, that is, wastewater, river water, or freshwater, so that light-weight pollutant molecules combined with wastewater, river water, or freshwater float upwards, and material molecules with heavy specific gravity are installed in multiple stages. Contaminated fluid material molecules by passing through the molecular separation induction film (8003,8007,8011,8015,8019,8023) and using the circular tornado generating device 5002 and the upper tornado generating device 3002 The fluidity introduced through the injection line 8001 configured on the top of the eco-friendly material molecule separation processor 8000 is processed so that the material molecules with light specific gravity and the material molecules with heavy specific gravity are separated up and down by rotating them. The eco-friendly material is automatically collected and used or recycled by discharging 95WT% to 99.99WT% through the discharge line 8028, which is configured to be smaller than that of the injection line 8001, out of 100WT% of the total inflow of substance molecules. Using the control device 6022 coupled with the pusher 9999, 0.001WT% to 5% of fluid material molecules with a light specific gravity floating on the upper side of the molecular separation processing machine 8000 are used as the eco-friendly material molecular separation processing machine ( 8000) removed by pushing out Nature-friendly water purification by separating and processing lightly specific pollutant molecules and heavy waters contained in contaminated river water, contaminated wastewater, or contaminated fresh water using a multi-stage eco-friendly material molecular separation processor We present the method and multi-stage eco-friendly material and molecular separation machine applied to it.

It is very simple to separate and process a fluid material molecule having a light specific gravity and a fluid material molecule having a heavy specific gravity using the eco-friendly material molecule separation machine configured as described above.

In other words, it is not limited to a specific fluid material molecule as all fluid material molecules composed of fluid material molecules in a liquid state can be processed separately.

The width of the material molecule rise induction path is not limited because it can be configured to be changed according to the material to be treated and the installation location.

Since the size of the upper layer material molecule movement path can be freely changed according to the location, the width of the upper layer material molecule movement path is not limited.

Components of the material molecule separation induction film, the material molecule lower layer movement passage, the material molecule rise guide plate, the material molecule rise induction passage, and the upper layer material molecule movement passage can be constructed by increasing or decreasing the number of installations. It is natural that all of the eco-friendly material molecular separation and processing machines constructed by increasing or decreasing the number of installations belong to the scope of the present invention.

The distance between the material molecule separation induction film (8003,8007,8011,8015,8019,8023) and the material molecule rise induction plate (8005,8009,8013,8017,8021,8025) is uniform and does not require a fixed area. It is a matter of course that all of the configurations that have changed the width are included in the scope of the present invention.

The outer wall of the rising guide plate body 5001 may be configured by forming a plurality of irregularities or adding protruding bumps in order to increase the effect of the material explosion effect that occurs when material molecules collide.

The structure of the circular tornado generating device can be changed in various ways.

For example, it can be changed to a turbo type that rotates more than 1 million times per minute and produces strong pressure. Therefore, it can be seen that the spherical shape of the circular tornado generating device applied to the present invention can be changed as much as possible by changing the existing impeller-type rotary striking device or tornado-type striking device.

The reason why the circular tornado generating device is configured in a shape facing each other from one side and the other side is that when a material molecule collision action occurs when a material molecule collides with each other and the molecular structure is destroyed by generating a strong negative-H needle phenomenon This is to separate the bound material molecules while processing the undissolved material molecules bound to the field into smaller-sized fine particles.

The reason why the horizontal rotation device is additionally configured on the upper part of the circular tornado generating device is that contaminant molecules with a light specific gravity that floats to the upper layer by the action of gravity are secondarily re-strikeed into smaller sized particulate matter molecules. It is for processing and giving

When contaminated river water, contaminated river water, wastewater or groundwater are continuously injected into the interior of the environment-friendly material molecule separation processor, the action of gravity generated by the fluid material molecule separation guide plate 2000 configured in an inclined shape As a result, the material molecule separation induction film and the material molecule rise guide plate, the material molecule movement path in the upper layer, the material molecule rise induction path, and the material molecule movement path in the lower layer are continuously connected to each other in the environment-friendly material molecule separation processing machine 8000. When the raw fluid material molecules passing through, that is, river water or river water or wastewater, collide with the circular tornado generating device 5002 and the transverse rotating device 2001 and are hit, the specific gravity combined with the heavy river water is Light material molecules come out from the water molecules with a heavy specific gravity, and at the same time, due to the action of gravity, they rise to the upper layer of the eco-friendly material molecule separation processor 8000, and at the same time, the pusher 9999 moves horizontally and rises upward. The resulting contaminants with a light specific gravity are pushed out of the eco-friendly material molecule separation processor 8000 to remove them, and river waters with a heavy specific gravity are removed by the action of gravity generated by the fluid material molecule separation guide plate 2000. The eco-friendly material molecule separation processor configured to be collected and used by discharging to the outside of the eco-friendly material molecule separation processor 8000 through the discharge line 8028 configured at the lower end of the other side of the material molecule separation processor 8000 ( 8000) to remove contaminant fluid molecules with light specific gravity combined with fluid water molecules with heavy specific gravity and process them into clean fluid material molecules. do

If contaminated fluid material molecules are circulated and processed using the eco-friendly material molecule separation machine constructed according to the present invention, even the water of the reservoir can be easily purified within a short time.

As an additional modified configuration, the specific gravity combined with pure and clean water molecules with a heavy specific gravity by hitting fluid material molecules such as water flowing into the interior of the eco-friendly material molecule separation processor is at the lower end of the eco-friendly material molecule separation processor. The circular striking device 2001, which is configured to generate a circular whirlwind that acts to separate light pollutant substance molecules and water molecules with heavy specific gravity, is combined with the rotating body 1502. Present structure

The structure constituting the circular striking device can be configured using an impeller blade applied to a motor pump, and another structure may be configured using a turbo device that generates a turbo wind in the upward direction. The device that rotates the device is a general electric motor or hydraulic motor that is commonly used, or multiple driven pulleys combined with one rotation generating device can be connected using a connecting rotating body such as a belt. Omit the city

Another additional component is a plurality of rotary shaggy brushes 5500 configured to be combined with a rotating device 5501 having a structure such as a motor in the interior of the eco-friendly material molecular separation processor as shown in FIG. 12. Contaminant substance molecules with a heavy specific gravity and a light specific gravity by hitting the raw water flowing into the environment-friendly material molecule separation processor 8000 or fluid material molecules combined with river water or wastewater We present an eco-friendly material and molecular separation machine configured to separate them.

As shown in Fig. 10, the structure of the rotating device 5501 that rotates the rotary furry brush 5500 can be changed in a wide variety using mechanical devices composed of hydraulic, pneumatic, or mechanical types. It is shown in the shape of a simple rotating device.

The reason is that the shape of the rotating body that is commonly used is applied by a simple electric motor method, or a rotating pulley in which a plurality of belts formed by combining each driven pulley with a hydraulic motor or one motor is combined with each rotary furry. It is shown in a simple form because it can be combined with the brush 5500 to form an eco-friendly material molecule separation processor.

Therefore, by changing the shape of the rotary furry brush 5500 configured in a furry shape or rotating the rotary furry brush 5500, the fluid substance molecules flowing into the inside of the eco-friendly substance molecular separation processor are removed. It is natural that all of the separate processing is within the scope of the present invention.

In addition, as shown in Figs. 6, 10, and 12, it is natural that all of these design changes belong to the scope of the present invention, since the configuration of the rotary furry brush 5000 can be changed as much as possible.

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

2 is a cross-sectional perspective view showing an intermediate part of an eco-friendly material molecule separation machine according to the first to fourth embodiments of the present invention, and FIG. 3 is a side view of the environment-friendly material molecule separation machine according to a second embodiment of the present invention. Figure 4 is a cross-sectional perspective view showing an enlarged cross-section, and Figure 4 is a cross-sectional perspective view of an eco-friendly material molecule separation machine according to a second embodiment of the present invention, and Figure 5 is an eco-friendly cross-sectional view according to the first to second embodiments of the present invention. It is a cross-sectional perspective view of a material molecule separation machine, and FIG. 10 is a horizontal direction photograph showing a state in which a circular tornado generating device and a rotating strike device applied to the present invention are configured in a furry shape,

Fig. 12 is a cross-sectional perspective view showing a state in which an upright rotating hair peach brush applied to the present invention is configured inside an eco-friendly material molecular separation processor

* As shown, the eco-friendly material molecule separation processor according to the second embodiment of the present invention has a rectangular shape similar to that of the first embodiment, and is configured in a shape inclined in one direction on the inner floor, while the front and rear directions of the inner floor are rearward. It is composed of a structure of a fluid material molecule separation guide plate (2000) that is inclined in the forward direction.

The reason for this configuration is to induce the fluid substance molecules with heavy specific gravity to push up or to the side of the pollutant substance molecules with light specific gravity so that they can be preferentially moved to the lower part.

A structure in which a plurality of fluid material molecule outlets 6001 for discharging pollutant material molecules having a light specific gravity are formed at one side of the top of the eco-friendly material molecule separation processor 8000;

A structure in which a collection line 6003 for collecting fluid material molecules having a light specific gravity is formed at the front of the fluid material molecule discharge port 6001

A structure for configuring an injection line 8001 on the upper side of the eco-friendly material molecule separation processor 8000;

A structure of a discharge line 8028 configured at a lower end of the eco-friendly material molecule separation processor 8000;

The structure of the discharge line 8028 is that the discharge capacity discharged through the discharge line 8028 is reduced to 95WT% ~ 99.99WT% when the inlet size of the injection line 8001 is assumed to be 100WT%. A structure to be configured as small as possible;

In the interior of the eco-friendly material molecule separation processor 8000, a plurality of material molecule separation induction film 8003, a plurality of material molecule rise guide plates 8005, a plurality of upper layer material molecule movement passages 8006 and a plurality of material molecule lower layers After configuring a moving passage 8004 and a plurality of material molecule rising induction passages (2,4,6,8,10,12,14,16) in multiple stages, the specific gravity outside the material molecule separation induction film 8003 These heavy water molecules move to the lower layer and contaminated material molecules with a light specific gravity are moved to the upper layer. After configuring each of the material molecule movement guide plates 8002, it is rotated at the lower end of the material molecule movement guide plate 8002. A structure in which a furry type rotary strike device 2001 is combined with the whole 2002, respectively;

After configuring an air generating device 1000 on one side of the lower end of the eco-friendly material molecule separation processor 8000, a piping line 1001 and a discharge nozzle 1002 coupled to the air generating device are connected to the eco-friendly material molecule separation processor 8000. It is a structure that is attached to the lower end of ).

The material discharged through the discharge nozzle is shown to discharge air, but in another embodiment, contaminated water may be purified by discharging water and contaminated water, sea water, or chemicals.

In addition, the air generating device is replaced with a water pump that pumps water, and then

Since unprocessed contaminated water can be discharged through the discharge nozzle to separate and process material molecules with heavy specific gravity and light material molecules combined with contaminated water, all of these design changes are within the scope of the present invention. It is natural to belong

The air generating device 1000 after the unprocessed river water or contaminated waste water or contaminated storage water stored in the reservoir through the injection line 8001 are continuously introduced into the interior of the eco-friendly material molecule separation processor 8000 The air produced by is continuously injected into the interior of the eco-friendly material molecule separation processor 8000 to continuously strike the fluid material molecules, and at the same time, the fluid material molecules are continuously injected using the furry type rotary striker 2001. Through the discharge line 6002, out of the total amount of 100 WT% of fluid material molecules introduced through the injection line 8001 while separating and processing the material molecules with a light specific gravity and the fluid material molecules with a heavy specific gravity After 90WT%~99.99WT% is discharged and used or recycled, the remaining 0.01%~10% of fluid material molecules with a light specific gravity are collected through the fluid material molecule outlet 6001 and the collection line 6003. Contaminated water molecules with heavy specific gravity and light contaminants combined with contaminated river water or contaminated wastewater or reservoirs by using an eco-friendly material molecular separator configured to be recycled or disposed of We present a nature-friendly eco-friendly material molecule separation machine that separates and processes sexual material molecules into clean water.

It is preferable that the shape of the rotary striker 2001 is made of stainless steel as shown in Fig. 8, but not in a straight wire shape, but in a furry shape using a cobbled irregular iron wire.

In addition, the circular tornado generating device and the rotation driving device for rotating the rotational striking device 2001 may be configured to combine multiple forward rotation pulleys coupled with a rotation motor. In addition, when rotating by using power, the circular tornado generating device and the rotating strike device 2001 are rotated by applying a rotational driving body that can be variously changed, so that the water of rivers with heavy specific gravity and pollutant substances with light specific gravity Can be processed to be separated by hitting them

A description will be given of a modified embodiment of claim 4 and claim 5 for another modified example.

11 illustrates a modified embodiment as follows using a cross-sectional perspective view of an eco-friendly material molecule separating machine configured according to claims 4 and 5 of the present invention.

A telescopic device for adjusting the length that is coupled with the pusher 9999 when configuring the pusher 9999 that acts to remove fluid material molecules with a light specific gravity rising to the top of the eco-friendly material molecule separation processor by the action of gravity ( 6603) and the control device 6022 are combined with a pusher configured to push from the left to the right, and contaminant molecules with a light specific gravity rising to the top of the eco-friendly material molecule separation processor are removed from the eco-friendly material molecule separation processor. By using the structure of a pusher that is configured to be pushed out and removed, an eco-friendly material molecule separation machine that processes fluid material molecules can be used.

In addition, when constructing a pusher 9999 on the top of the eco-friendly material molecule separation processor, a length adjustment expansion and contraction device 6603 and an adjustment device 6022 coupled to the pusher 9999 are combined to form the eco-friendly substance molecule separation processor ( 8000), an eco-friendly material and molecular separation machine that processes fluid material molecules by using the structure of a pusher configured to push and remove pollutant material molecules with a light weight from the front to the rear. Can be used

The configuration is changed so as to remove the fluidic material molecules having a light specific gravity by pushing the push rod in either direction, so that all of these design changes belong to the scope of the present invention, since the structure can be changed at any time. For granted

As another modification method, a rotational furry brush 5500 configured in a furry shape may be installed in the interior of the eco-friendly material molecule separation processor, so that the fluid material molecules can be subjected to blow processing.

In addition, since the structure of the control device can be changed to a screw screw type, a rack type, a solenoid valve type, a cylinder type, etc., a special structure is omitted.

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

13 is a perspective view of a multi-stage eco-friendly material molecular separation processor constructed according to a third embodiment of the present invention

The structure of the multi-stage eco-friendly material molecule separation processor (8000) is

The structure of the circular eco-friendly material molecule separation processor 9008 configured in multiple stages in a narrow upper portion and a wide lower portion;

A structure of an inlet line 9001 for introducing fluid material molecules such as water into the upper side of the circular eco-friendly material molecule separation processor 9008 configured in multiple stages;

The discharge line 9002 connected to the lower end of the circular eco-friendly material molecular separation processor 9008 consisting of multiple stages is 0.001% to 3% smaller than the size of the inflow passage of the inflow line 9001, each consisting of multiple stages Structure;

In detail, when the size of the inlet of the inlet line 9001 is assumed to be 100 WT%, the reason why the size of the discharge line 9002 is made smaller by 0.001% to 5% is that contaminated water or Contaminated river water or unprocessed wastewater is introduced into the circular eco-friendly material molecular separation processor 9008 at a rate of 100L per 1 second to 1 hour, and is continuously processed and at the same time 90L through the discharge line 9002 It is discharged at a rate of 99.999L, and the remaining 0.001L to 10L of fluid substance molecules are combined with the fluid substance molecules by using a separate discharge method that continuously discharges overflows to the upper end of the eco-friendly substance molecule separator 9008. In order to separate and extract fluid substance molecules with light specific gravity, the sizes of the inlet line and the outlet line are configured to be different.

A collection plate 9004 for collecting fluid material molecules overflowing the upper end of the circular eco-friendly material molecule separating processor 9008 configured in multiple stages is provided at the lower end of the circular eco-friendly material molecule separating processor 9008 configured in multiple stages. Structure configured to be coupled with the discharge pipe (9003);

It is a structure of a rotary striking plate body 9006 configured to be combined with a rotating body 9005 configured at the lower end of the circular eco-friendly material molecular separation processor 9008 consisting of multiple steps.

The shape of the rotating striking plate can be changed in a wide variety of configurations. For example, it is possible to change the configuration in the form of an impeller used for pumping water or an air-compressed turbo, or in the form of a rotary shaggy brush 5500 shown in FIGS. 10 and 12.

In addition, the components of the rotating body consist of a drive pulley that is connected to an electric motor, a hydraulic motor, etc., and each driven pulley is formed at the lower end of each of the rotary strike plate bodies, and then a belt is connected between the pulleys. It is possible

Therefore, it is natural that all of these design changes belong to the scope of the present invention.

After continuously injecting fluid material molecules such as river water, wastewater, or unprocessed water into the multi-stage circular eco-friendly material molecule separation processing machine 9008 configured as described above, the rotating plate body 9006 is rotated to The fluid material molecules flowing into the eco-friendly material molecule separation processor (9008) are continuously blow-processed to separate the light-weight fluid material molecules and the heavy-weight material molecules combined with the fluid material molecules. At the same time, the circular eco-friendly material molecule separation processor 9008 configured in multiple stages through the discharge line 9002, compared to 1000L based on the total amount of inflow flowing through the inflow line 9001 on a per second to 1 hour basis. ) Through the lower end of each step to continuously separate material molecules with heavy specific gravity from material molecules with light specific gravity, and at the same time, the remaining fluid material molecules of 0.001L to 100L can be removed from the circular eco-friendly material molecule separator 9008. Multi-stage eco-friendly material configured to process and extract fluid material molecules with heavy specific gravity combined with pollutant molecules by separating and extracting material molecules with light specific gravity and fluid material molecules with heavy specific gravity by discharging them through the upper part We present an eco-friendly material molecular separation processor that cleanly purifies contaminated water or seawater by circulating contaminated water or contaminated wastewater or water stored in a reservoir or lake using a molecular separation processor 8000

The third embodiment of the present invention can be modified in a wide variety of configurations.

For example, as shown in Fig. 14, the configuration of the circular eco-friendly material molecular separation processor 9008 configured in a circular shape can be changed to a narrow rhombic jar shape on the upper side and the lower side. It is natural to fall within the scope of the invention's rights.

The following describes a fourth embodiment of the present invention.

Fig. 15 is a perspective view of an eco-friendly material molecule separating machine constructed according to claim 8 according to a fourth embodiment of the present invention, and Fig. 2 is a perspective view of an eco-friendly material molecule separating machine constructed according to the first and fourth embodiments of the present invention. It is an intermediate cross-sectional perspective view showing the middle, and FIG. 14 is a perspective view of an eco-friendly material molecular separation machine configured according to claim 9, which is a modified configuration of the fourth embodiment of the present invention.

The structure of an eco-friendly material molecule separation processor 8000 having a narrow shape in the upper and lower portions and a rhombus shape larger than the size of the upper and lower portions in the middle;

The environment-friendly material molecule separation processor 8000 has an inclined shape from one direction to the other, and the front and rear directions are inclined from the rear to the front so that fluidic material molecules with heavy specific gravity can be easily discharged to the lower end. A structure of a fluid material molecule separation guide plate (2000);

In the interior of the eco-friendly material molecule separation processor 8000, a plurality of material molecule separation induction films 8003 and a plurality of material molecule rise induction plates 8005 are configured in a zigzag shape in an alignment;

The material molecule separation induction film 8003 and the plurality of material molecule rise guide plates 8005 include a material molecule movement passage 8006 in the upper layer, a passage passage 8004 in the lower layer of a plurality of material molecules, and a plurality of material molecule rise induction passages. A structure in which (2,4,6,8,10,12,14,16) are each configured in multiple stages;

A structure in which an injection line 8001 is formed on the upper side of the eco-friendly material molecule separation processor 8000;

A discharge line 8028 is configured under the environment-friendly material molecule separation processor 8000, and

At the lower end of the inside of the eco-friendly material molecule separation processor 8000, an upper tornado generating device 3002 that generates a tornado in the upward direction is combined with the rotating body 1502. Present structure

By adjusting the discharge control valve 8029 coupled with the discharge line configured at the lower end of one side of the eco-friendly material molecular separation processor configured as described above, 90WT% to 99.99WT% compared to 100WT% of the inflow amount are adjusted to the discharge line 8028. The upper tornado generating device 3002 in a state in which fluid material molecules such as water are continuously injected through the injection line 8001 into the environment-friendly material molecule separation processor 8000 and continuously discharged into the environment. By operating the environment-friendly material molecule separation processor, it continuously strikes fluidic material molecules such as water, and discharges 90WT% to 99.99WT% compared to 100WT% of the total inflow through the discharge line 8028. Eco-friendly material molecules configured to separately collect and process fluid material molecules with a light weight of 0.001 to 10 WT% of the remaining fluid material molecules that are discharged to the line 8028 for collection and use, and at the same time overflowing to the upper side of the eco-friendly material molecule separation processor We present a separate machine

The reason why the eco-friendly material molecule separating machine 8000 is configured in a diamond shape is that the fluid material molecules with heavy specific gravity push or set aside the fluid material molecules with light specific gravity and use the material cut-in and material push action that are first discharged to the lower end. This is to increase separation efficiency.

Therefore, the shape of the eco-friendly material molecule separation processor, which is configured to process fluid material molecules by configuring the upper and lower parts in a narrow shape while the middle is wider than the upper and lower parts, can be configured in a wide variety of configurations. It is a matter of course that all of the configurations with changes in form belong to the scope of the present invention.

In addition, the discharge rate of fluid substance molecules such as water, sea water or milk and beverage discharged through the discharge lines 8028,9002 is reduced to a ratio of a size other than 95WT% to 99.99WT%. Since any number of changes can be made, it is natural that all of these design changes belong to the scope of the present invention.

That is, when the total amount of water, beverage, or fluid substance molecules such as alcohol or milk flowing into the environment-friendly material molecule separator is converted to 100 WT%, the amount of discharged through the discharge line is 30 WT% to 95 WT%. It is natural that all of these changes belong to the scope of the present invention, as the specification of the discharge line can be changed and configured to discharge at the rate of change.

In addition, as shown in Fig. 14, the shape of the eco-friendly material molecule separation processor is formed in a circular shape, but the top and bottom are formed in a narrow rhombus shape, and then the fluid material molecules overflowing the top of the eco-friendly material molecule separation machine are collected. It is natural that all of these design changes belong to the scope of the present invention because the change configuration of the collection plate 9004 at the lower middle part of the eco-friendly material molecule separation processing machine can be changed at any number by the relevant supplier.

The following describes claim 6 configured according to a fifth embodiment of the present invention.

FIG. 16 is a perspective view of an eco-friendly material molecule separation machine according to a fifth embodiment of the present invention, and FIG. 17 is a cross-sectional perspective view showing an intermediate portion of the environment-friendly material molecule separation machine according to a fifth embodiment of the present invention, and FIG. 26 Is a cross-sectional view showing an intermediate horizontal cross section and a planar state of an eco-friendly material molecule separating machine constructed according to the fifth to sixth embodiments of the present invention, and FIG. 163 is an eco-friendly material molecule separating machine according to a fifth embodiment of the present invention. Is a perspective view showing a state configured in a different form, and FIG. 164 is an exploded perspective view showing a state in which the environment-friendly material molecule separation processor according to the fifth embodiment of the present invention is configured in different forms, divided in half, as follows. Is composed.

The shape of one side is a rectangle and the other side is a rectangle, and the size of the other side is 10% to 500% larger than that of the one side, but between one side and the other side, fluid material molecules with a light specific gravity are used. The structure of the eco-friendly material molecule separation processing machine 1100, which are respectively combined by material molecule push-inducing walls 1600 configured in a rhombus so as to be pushed to the fluid material molecules in the left and right directions and float in the upward direction; ;to be.

The reason for the formation of the material molecule push induction wall 1600 is that fluid material molecules with a heavy specific gravity are among the fluid material molecules that move from high to low places by the action of gravity. These light fluid material molecules are pushed out in the left and right directions and upwards, and a phenomenon in which they are preferentially discharged in the direction of the upward induction passage consisting of a plurality of material molecule separation induction films and material molecule rise guide plates on one side is induced. It is a structure constructed to give.

In detail, even though the contaminant molecules with light specific gravity and the material molecules with heavy specific gravity in the water are temporarily combined, such as the phenomenon that the stones with heavy specific gravity push the water and sink to the bottom of the river preferentially, if an impact is applied from the outside The fluid material molecules with light specific gravity and the fluid material molecules with heavy specific gravity are separated from each other by the separating action of the material molecules separated from each other, and the fluid material molecules with heavy specific gravity are collected in the downward direction and the specific gravity These light fluid material molecules induce a phenomenon in which they float upward, so that the fluid material molecules are separated from the fluid material molecules with heavy specific gravity and the fluid material molecules with light specific gravity contained in the contaminated fluid material molecules. It is to construct a rhombic shape of the induction wall (1600) of the material molecule that is introduced for the first time.

Therefore, it is natural that all of the different configurations of the installation angle of the material molecule jungle induction wall 1600 belong to the scope of the present invention.

A structure having a support 1501 on one side of the eco-friendly material molecule separation processor 1100 to support the eco-friendly material molecule separation processor 1100;

A structure of a fluid material molecule separation guide plate 2000 configured to be inclined in one direction on the inner floor of the eco-friendly material molecule separation processor 1100 and inclined in a front-rear direction from a rear to a front direction;

A structure in which an injection line 8001 for injecting fluid material molecules such as water into an upper portion of one side of the eco-friendly material molecule separation processor 1100 is configured:

A structure in which a discharge line 8028 for discharging fluid material molecules such as water is coupled to a discharge control valve 8029 at the lower end of the other side of the eco-friendly material molecule separation processor 1100;

Inside one side of the eco-friendly material molecule separation processor 1100, a plurality of material molecule separation induction films (1111, 1113, 1115, 1117, 1119) and a plurality of material molecule elevation guide plates (1112, 1114, 1116, 1118, 1120) A structure in which each upward induction passage (1800, 1701, 1702, 1703, 1704, 1705, 1706, 1707, 1708, 1709) is constructed using

The reason why a plurality of material molecule separators and a plurality of rising guide plates are overlapped is because the light specific gravity fluid material molecules combined with the heavy specific gravity fluid material molecules are easily shaken off and This is to separate fluid material molecules with light specific gravity.

Each upper layer material molecule transfer passage (1500, 1511, 1512, 1513, 1514) is formed at the lower end of the material molecule separation induction film (1111, 1113, 1115, 1117, 1119), so that fluid material molecules with a heavy specific gravity are placed on the upper side. It is a structure that induces the movement to be moved.

An upper material molecule passageway (1555,1556,1557,1558,1559) is formed on the upper side of the material molecule rising guide plate (1112,1114,1116,1118,1120), so that fluid material molecules having a heavy specific gravity can be moved in the downstream direction. A structure that induces movement; is

The eco-friendly material molecule is combined with a plurality of rotating striking bodies 1503 on the other side of the eco-friendly material molecule separation processing machine 1100, and a plurality of striking devices 1598 combined with a rotating body 1502 on the upper side. A structure configured to strike fluid material molecules flowing into the separation processing machine 1100;

An outlet for collecting and discharging fluid material molecules with a light weight floating to the upper side of the eco-friendly material molecule separation processor 1100 by the action of gravity at the upper edge of the upper side of the eco-friendly material molecule separation processor 1100 The structure in which the collecting port 250 coupled to the 220 is configured; to be.

A structure in which a hopper 8800 is formed in layers in the form of a rhombic funnel on the other side of the eco-friendly material molecule separation processor 1100 in the form of a funnel having a wide upper side and a narrow lower side;

The reason that the hopper is constructed in the form of a rhombus-shaped funnel with a wide upper side and a narrow lower side is to separate and discharge material molecules with heavy specific gravity and fluid material molecules with light specific gravity.

Since the upper side is wide and the lower side is narrow, the configuration of the hopper can be changed in a wide variety of configurations, so it is natural that all of these design changes belong to the scope of the present invention.

A structure in which a plurality of rotating striking bodies (8884) coupled with a rotating body (8881) are coupled to the inside of the hopper (8800);

The configuration of the rotating body that rotates the rotating striking body can be changed to an electric motor type or an air pressure rotation type in which the driving pulley and the driven pulley are recombined with the driving body.

In addition, since a wide variety of configurations are possible, detailed structures are omitted.

A structure in which discharge control valves 8886, 8887, and 8888 are respectively coupled to the lower portion of the hopper 8800;

A structure in which an inlet line 882 for introducing fluid material molecules such as water is coupled to an inflow amount control valve 883 on the upper side of the hopper 8900;

At one side of the hopper 8800, a hopper upper discharge port 885 is configured to discharge fluid material molecules having a light specific gravity floating upwards by a material pushing action to the outside of the hopper 8800.

That is, when it is assumed that 1000 L of fluid material molecules per hour are introduced into the hopper 8800 each configured through the inlet line 882, the fluid material molecules introduced into the hopper 8800 are The discharge control valve is to discharge 990L from the first hopper to the second hopper and discharge 980L from the second hopper to the third hopper again at the same time as it is continuously hit by the configured rotary striker 884 ( When 8886, 8887, 8888 are adjusted respectively, 10L of fluid substance molecules overflowing from each hopper (8800) are discharged to the outside through the upper discharge port (8885) formed in the hopper (8800). At the same time, 980L of fluid material molecules discharged through the lower end of the hopper flows into the environment-friendly material molecule separation processor 1100 configured at the lower end of the hopper 8800 and at the same time enters the material molecule separation processor 1100. It is a structure of an eco-friendly water purifier and an eco-friendly material molecule separation processor that processes so that it is transformed into fluid material molecules having a heavier specific gravity through the process of hitting again by the configured rotary striking body 1503.

It is an eco-friendly water purifier that is configured to pass through such a structure, and removes fluid material molecules with a light specific gravity contained in fluid material molecules such as water or sea water or fluid material molecules such as milk or liquor extracted through a molecular separation processor. We present a multi-stage material molecule separation processor for both nature-friendly and eco-friendly water purifiers that are constructed to extract and use only material molecules.

The reason for striking fluid material molecules is that fluid materials have a heavy specific gravity material molecule and a light specific gravity fluid material molecule that are combined with each other. As the molecules and fluid material molecules with light specific gravity are separated up and down by the action of gravity, material molecules with heavy specific gravity move to the lower layer, and contaminant fluid material molecules with light specific gravity have a separation effect of material molecules floating upward. To generate

That is, 10000L per hour are continuously injected into the hopper and the environment-friendly material molecule separator through the injection line 8001,8882, and 9000L per hour is discharged through the discharge line 8028. At the same time, when the fluid material molecules are continuously hit and processed using the rotary striker 229, 9000L is discharged through the discharge line 8028 in the downward direction to collect and use. , The remaining fluid material molecules with lighter specific gravity are contaminated by using a structure in which the eco-friendly material molecule is discharged to the outside of the eco-friendly material molecule separator through the upper discharge port 8885 and the fluid material molecule discharge port 251 configured in the hopper. We present an eco-friendly water purifier and material molecule separation machine that is configured to collect and use heavy material molecules and light fluid material molecules combined with the resulting fluid material molecules.

In other words, by the action of the material preservation instinct to maintain a unique component, all of the material molecules are separated from each other by the separation of material molecules separated from the combined structure by applying a slight impact from the outside. The separation of light fluid molecules separates from each other occurs.

At the same time, a phenomenon in which fluid material molecules with heavy specific gravity push the fluid material molecules with light specific gravity to the side or upwards, and the material pushing action and the material cut-off action are immediately exerted, causing the phenomenon that they are preferentially discharged in the downstream direction.

This material molecule separation function is presented as an eco-friendly water purifier and material molecule separation processor.

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

18 to the sixth embodiment of the present invention is a perspective view of an eco-friendly material molecule separation processor, Figure 19 is a cross-sectional perspective view showing the middle of the environment-friendly material molecule separation processor according to the sixth embodiment of the present invention, Figure 20 is Fig. 21 is an intermediate partial perspective view of an eco-friendly material molecule separation machine according to a sixth embodiment of the present invention, and Fig. 21 is a cut-away view of one front side of the environment-friendly material molecule separation machine according to the sixth embodiment of the present invention. It is a cut-away perspective view shown below and is composed as follows.

The shape of one side is a rectangle and the other side is a rectangle, and the size of the other side is 10% to 500% larger than that of the one side, but between one side and the other side, fluid material molecules with a light specific gravity are used. The structure of the eco-friendly material molecule separation processing machine 1100, which are respectively joined by the material molecule push-inducing wall 1600 configured in a rhombus shape so as to be pushed and floated by the fluid material molecules;

When constructing the material molecule separation processor 1100, the reason that the other side is larger than the one side is that fluid material molecules with heavy specific gravity push fluid material molecules with light specific gravity upward or sideways. It is to promote the material cut-out and material push action that are first discharged in the downstream direction of the lower position.

A structure having a support 1501 on one side of the eco-friendly material molecule separation processor 1100 to support the eco-friendly material molecule separation processor 1100;

A structure of a fluid material molecule separation guide plate 2000 configured to be inclined in one direction on the inner floor of the eco-friendly material molecule separation processor 1100 and inclined in a front-rear direction from a rear to a front direction;

A structure in which an injection line 8001 for injecting fluid material molecules such as water into an upper portion of one side of the eco-friendly material molecule separation processor 1100 is configured:

A structure in which a discharge line 8028 for discharging fluid material molecules such as water is coupled to a discharge control valve 8029 at the lower end of the other side of the eco-friendly material molecule separation processor 1100;

Inside one side of the eco-friendly material molecule separation processor 1100, a plurality of material molecule separation induction films (1111,1113,,1115,,1117,1119) and a plurality of material molecule rise guide plates (1112, 1114, 1116, 1118) 1120), each of the upward induction passages (1800, 1701, 1702, 1703, 1704, 1705, 1706, 1707, 1708, 1709) are constructed;

At the lower end of the material molecule separation induction film (1111,1113,,1115,,1117,1119), each upper layer material molecule transfer passage (1500, 1511, 1512, 1513, 1514) is configured to form a fluid material molecule having a heavy specific gravity. A structure that induces them to move upward;

Above the material molecule rising guide plate (1112,1114,1116,1118,1120), upper material molecule passages (1555, 1556, 1557, 1558, 1559) are formed to move fluid material molecules with heavy specific gravity in the downstream direction. A structure that induces movement;

The other side of the eco-friendly material molecule separation processor 1100 is configured to be combined with a plurality of rotating striking bodies 1503, and a plurality of striking devices 1598 configured to be combined with a rotating body 1502 are combined on the upper side of the eco-friendly material molecule. A structure configured to strike fluid material molecules flowing into the separation processor 1100;

A collection port 8800 coupled to an outlet 220 for collecting and discharging fluid material molecules floating above the eco-friendly material molecule separation processor 1100 at the upper edge of the upper side of the eco-friendly material molecule separation processor 1100 ) To separate and process contaminated fluid material molecules by using; an eco-friendly material molecule separation processor for both eco-friendly water purifiers.

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

FIG. 22 is a perspective view showing in a perspective view an eco-friendly material molecule separation processor configured according to a seventh embodiment of the present invention, and FIG. 23 is a middle view of an eco-friendly material molecule separation processor configured according to a seventh embodiment of the present invention. It is a cross-sectional perspective view cut in the horizontal direction, and FIG. 24 is a plan sectional perspective view showing a plan configuration state of an upper end of an eco-friendly material molecule separation processor constructed according to a seventh embodiment of the present invention, and FIG. As a photograph showing an installation example of a rotating striking device configured to be cross-inserted into the interior of an eco-friendly material molecule separation processor according to the embodiment of 7, it is configured as follows

An eco-friendly material molecule separator 1100 is configured in a rectangular shape;

A structure in which an injection line 8001 for injecting fluid substance molecules such as water is formed at the upper end of one side:

Water and sea water, liquor, milk, or beverage are injected through the injection line.

A structure in which a discharge line 8028 for discharging fluid substance molecules such as water is configured at the lower end of the other side;

A structure coupled to a discharge control valve 8029 that opens and closes the discharge line 8028 at one side of the discharge line 8028;

The emission control device does not provide special specifications as a wide variety of products are used.

The bottom of the eco-friendly material molecule separation processor 1100 is inclined 0.1% to 20% from the right to the left, and 0.1% to 20% is inclined from the rear to the front. (2000) is the structure that consists of; is.

The reason why it is made to be inclined in one direction and in one direction is to allow fluid material molecules to easily gather in one direction by the action of gravity.

A structure in which a fluid material molecule discharge port 251 for discharging fluid material molecules having a light specific gravity to the outside is formed around the upper circumference of the eco-friendly material molecule separation processor 1100;

When the capacity of the fluid material molecules injected into the environment-friendly material molecule separation machine is 100%, the remaining 1% is automatically discharged to the discharge line by adjusting the discharge control valve. It is a structure configured to be separated and discharged to the outside of the material molecule separation machine through the material molecule discharge port.

A structure in which a plurality of rotating shafts (223,228,232,231,331,332,333,334) coupled with a rotating body (8888) are intersected between the front and rear surfaces of the eco-friendly material molecule separation processor 1100 in one direction;

Between the rotation shafts (223,228,232,231,331,332,333,334) a structure in which a plurality of rotary striking bodies 229 are sequentially cross-linked.

As shown in FIGS. 9 and 10, the reason for cross-linking the rotary struck body is to increase the impact strength of the fluid substance molecules flowing through the rotary struck body, thereby strengthening the incomplete decomposition substances combined with the fluid substance molecules. This is to separate and process fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity by hitting them into upper and lower layers.

As described above, the cross-linking method of the rotating striker proposed in the present invention can be changed in various ways.

A structure in which a material molecule separation induction film 230 is formed across the front and rear directions at the position of the material molecule separation processor 1100 in the other direction;

A structure in which a lower part of the material molecule moving passage 233 is formed at a lower end of the material molecule separation induction film 230 in a form in which the lower end is opened so that fluid material molecules having a heavy specific gravity are discharged in a downstream direction;

A fluid material molecule rising passage 236 and a fluid material molecule discharging passage 238 are provided on the front side of the material molecule induction film 230 to discharge fluid material molecules having a heavy specific gravity in the downstream direction as they rise. A structure in which a material molecule rising guide plate 234 is configured between the front and rear surfaces of the eco-friendly material molecule separation processor 1100;

At the upper end of the material molecule guide plate 234, a material molecule transfer path 237 is formed in the upper layer to sequentially sequentially transfer fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity contained in the contaminated fluid material molecules. A material pushing action generated by the action of gravity, characterized by a nature-friendly eco-friendly water purifier and material molecule separator 1100 configured to separate and process fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity by passing through it. We present a multi-stage material molecule separation processor for both eco-friendly water purifiers that separates and processes contaminated fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity using the and material cut-out action.

The method of changing the configuration of the rotating strike body applied to the present invention can be changed to an impeller type or a turbo compression type applied to a pump, so it is natural that all of these design changes belong to the scope of the present invention.

Next, a description will be given of claim 9 constructed according to an eighth embodiment of the present invention.

FIG. 27 is a perspective view of an eco-friendly material molecule separating machine constructed according to an eighth embodiment of the present invention, and FIG. 91 is a separation showing the eco-friendly material molecule separating machine constructed according to an eighth embodiment of the present invention by dividing it in half. It is structured as follows as a perspective view

The structure of the eco-friendly material molecule separation processing machine 1100 is configured in multiple stages in the form of an inverted rhombus from the top to the bottom so that fluid material molecules with a light specific gravity are pushed by the fluid material molecules with a heavy specific gravity and float upward.

The reason why the eco-friendly material molecule separation machine is constructed with an inverted diamond shape of a smaller size from the top to the bottom is that fluid material molecules with heavy specific gravity push the fluid material molecules with light specific gravity upward and downward. To induce preferential discharge

The configuration so that the size decreases from the top to the bottom can be changed as much as possible by the relevant supplier.

A structure in which a material molecule separation guide plate 2000 is configured in a form in which the lower end of the material molecule separation machine is inclined from one side to the other side; The reason why the lower part is inclined is that the fluid material molecules with heavy specific gravity push the fluid material molecules with light specific gravity upward or sideways, and the fluid material molecules with the light specific gravity are pushed upwards or laterally, and they are configured to be inclined in order to preferentially discharge them toward the lower part

A plurality of material molecule descending guide plates 101,301,501,701 are formed in the material molecule separation processor 1100; A structure in which a plurality of lower material molecule movement passages 102,302,502,702 are configured to preferentially discharge fluid material molecules having a heavy specific gravity at the lower end of the material molecule descending guide plates 101,301,501,701;

In the next step of the material molecule movement passage (102,302,502,702), fluid material molecules with heavy specific gravity are discharged in the downstream direction, and fluid material molecules with light specific gravity are pushed upward and preferentially discharged to the downstream part. A material molecule separation compartment (100,200,300,400,500,600,700,800) is formed by a structure in which a fluid material molecule rising guide plate (201, 401, 601) is configured, and an upper material molecule movement passage (202,402,602) is respectively configured on the upper side of the fluid material molecule rising guide plate (201,401,601). ) A structure consisting of a number of steps in the form of a step;

A support plate body 1806, an elastic cushion material 1801, and a support column 1802 are respectively coupled to the lower end of the eco-friendly material molecule separation processor 1100 to face each other.

The purpose of the construction of the elastic cushion material is a structure constructed to correct the vibration of the material and molecular separation machine that vibrates in the upper and lower directions using a spring.

However, it is possible to change configuration to hydraulic cylinder type, pneumatic cylinder type, or rubber ball cushion type.

A crankshaft 1804 coupled with a rotating motor 1805 is formed between the support pillar and the support pillar 1802; A structure in which a rotary vibrator 1803 is coupled to the crankshaft 1804;

The vibrator is a structure constructed to generate vibration while unspecifically rotating while acting as a weight with weight.

When the crankshaft is rotated by the rotational force of the rotating motor, the vibrator with the weight of the crankshaft rotates and generates vibration. The generated vibration causes the environment-friendly material molecular separation machine to vibrate in the vertical direction. A weight on the crankshaft in order to induce the vertical separation of the heavy fluid material molecules and the low specific gravity fluid material molecules combined with the fluid material molecules flowing into the environment-friendly material molecule separation machine. Is to construct a vibrator with

However, the configuration method of the vibrating device that generates vibration is, in addition to the above method, when the weight is coupled to the rotation shaft in the horizontal direction, if it is configured to protrude about 20% to 50% in one direction, when the rotation shaft rotates. Since the weight that protrudes further in one direction rotates abnormally and continuously generates vibration, this design change method can be used to vibrate an eco-friendly material molecule separation machine to process fluid material molecules. It is natural to fall within the scope of the present invention.

A structure in which an injection line 8001 for injecting fluid material molecules such as water into the upper end of the other side of the eco-friendly material molecule separation processor 1100 is configured:

Separating the eco-friendly material molecules by compressing the pressure of the fluid material molecules to a pressure between 5 atm and 1000 atm using a compressor so that the passing pressure of the fluid material molecules injected through the injection line is increased When it is introduced into the interior of the processing machine, the fluid material molecules strongly collide with the wall of the material molecule separation machine, and the fluid material molecules with light specific gravity and the fluid material molecules with heavy specific gravity are easily combined with the fluid material molecules. By generating the effect of immediate separation in the vertical direction, contaminated fluid material molecules can be easily separated and processed within a short time.

A structure in which a discharge line 8028 for discharging fluid material molecules such as water is coupled to a discharge control valve 8029 at a lower end of one side of the eco-friendly material molecule separator 1100;

Contaminated fluid using a material molecule collection port 250 for collecting fluid material molecules with a light specific gravity and a material molecule separation processor including the fluid material molecule discharge port 251 at the upper edge of the material molecule separation processor We present an eco-friendly material molecule separation processor for both nature-friendly and eco-friendly water purifiers that is configured to separate and extract fluid material molecules with heavy specific gravity and contaminated fluid material molecules with light specific gravity combined with sexual material molecules.

The process of separating and extracting heavy fluid material molecules and low specific gravity fluid material molecules from contaminated fluid material molecules using the material molecule separation processor is an injection line 8001 configured in combination with the material molecule separation processor. ) Through continuous injection of fluid material molecules and at the same time rotating the crankshaft 1804 configured to be coupled to the rotary motor 1805, the reaction force of the rotary vibrator 1803 configured on the crankshaft 1804 90% to 99.99% through the discharge line compared to 100% of the total amount of fluid material molecules introduced through the injection line 8001 while vibrating the fluid material molecules introduced into the material molecule separation processor. After discharging, the remaining 0.01% to 10% is discharged through the material molecule collection port 250 and the fluid material molecule discharge port 251, and then collected and reprocessed or used. And an eco-friendly construction method using it

However, if various processing methods other than these processing methods are applied, it is possible to separate and process contaminated fluid material molecules combined with fluid material molecules, so it is natural that all of these design changes belong to the rights of the present invention.

Next, a ninth embodiment of the present invention will be described as follows.

FIG. 28 is a cross-sectional perspective view of an eco-friendly material molecule separating machine configured according to a ninth embodiment of the present invention, and is configured as follows.

The structure of the eco-friendly material molecule separation processor 1100 configured in multiple stages in the form of a circular staircase; to be.

The ninth embodiment proposes a method of configuring the shape of the eco-friendly material molecule separation machine into a circular shape, but the structure can be changed to a rectangle, rectangle, rhombus, hexagon, octagon, or inverted triangle, so the eco-friendly material molecule separation machine It does not specifically limit the configuration form of.

It is natural that all of these design changes belong to the rights of the present invention because the installation location of the substance molecule branch composed of multiple stages can be configured by increasing or decreasing the number of installations from 10 to 100 stages.

A structure of a fluid material molecule injection line 8001 configured in multiple stages on one side of the eco-friendly material molecule separation processor 1100 consisting of multiple stages;

As shown in FIG. 28, the location of the distal end of the injection line 8001 is about 20 cm to 200 cm from the top of the eco-friendly material molecule separation processor 1100 toward the lower end of the eco-friendly material molecule separation processor 1100. It consists of a deeply inserted structure.

The purpose of this configuration is to induce fluid material molecules with a heavy specific gravity to push the fluid material molecules with a light specific gravity upward and to easily descend to the lower end of the eco-friendly material molecule separator.

A structure of a fluid material molecule outlet 251 configured on the other side of the eco-friendly material molecule separation processor 1100 to discharge fluid material molecules having a light specific gravity;

The structure of a plurality of rotating striking bodies 1503 configured to be combined with the rotating body 1502 configured at the lower end of the material molecule separation processor 1100;

Rotating body refers to an electric motor or a rotating means that rotates by hydraulic or pneumatic pressure.

Since the construction method of the support that supports the upper part of the rotary striker can be changed in a wide variety of ways, the detailed structure is omitted.

The structure of the rotating striking body 1503 can be changed in a wide variety.

For example, it is possible to change the configuration of the rotary striking body by using a grinding blade configured to pulverize an object or fluid material molecule into a very small size.

At this time, it is possible to change the configuration so that the rotation direction of the rotary striker or the grinding blade rotates forward and reverse.

A discharge line 8028 for discharging fluid material molecules having a heavy specific gravity at the lower end of the eco-friendly material molecule separation processor 1100 is combined with the discharge control valve 8029 to be installed in multiple stages, and is a material molecule for both nature-friendly water purifiers. The method of processing contaminated fluid material molecules as a structure of a separation machine is accomplished through the following process.

In the state in which the discharge control valve is closed, the environment-friendly material molecule separation processor is configured in multiple stages through the injection line 8001, and is composed of multiple stages in a state in which all fluid material molecules such as water are filled. The discharge by controlling each of the discharge control valves 8029 configured at the lower end of the material separator while continuously inflowing about 1000 to 10000L of fluid material molecules into the interior of the eco-friendly material molecule separation processor. If only 900L to 9999L per hour are continuously introduced into the next step through the line 8028, the remaining 1L to 100L fluid substance molecules have a heavy specific gravity due to the action of gravity. As the fluid material molecules are pushed to the upper part, they rise to the top of the eco-friendly material molecule separation processor, and at the same time, the specific gravity continuously flowing through the material separator composed of multiple stages is increased by heavy fluid material molecules. As light fluid material molecules are pushed back to the upper layer, each multi-stage environment-friendly material molecule is separated through the fluid material molecule outlet 251 configured on the other side of the multi-stage environment-friendly material molecule separation processor 1100. It is a structure of a multi-stage eco-friendly material molecule separation processor configured to separate and use 900L to 9000L of fluid material molecules with a heavy specific gravity per hour while automatically discharged to the outside of the processor 1100 for collection and use or disposal.

The types of fluid material molecules introduced into the environment-friendly material molecule separation machine are very diverse, and thus are not limited to special components.

In addition, it is natural that all of these design changes belong to the scope of the present invention, as the numerical values of the amount to be introduced and the amount discharged can be changed and operated.

Next, a tenth embodiment of the present invention will be described as follows.

29 is an installation cross-sectional perspective view of an eco-friendly material molecule separation processor configured according to a tenth embodiment of the present invention, and is configured as follows.

The structure of the eco-friendly material molecule separation processor 1100 configured in a rectangular or circular structure; It is possible to change the configuration into a rectangular or square or rhombus or hexagonal or octagonal shape.

An injection line for injecting fluid substance molecules such as water, milk, or alcohol into a lower position of 30cm to 2m in the lower direction from the upper position of the other side of the eco-friendly material molecule separation processor 1100 to the upper side ( 8001) structure; to be

The reason why the injection line 8001, which injects fluid molecules such as water, milk, seawater, or alcohol, into a lower position about 30cm~2m from the upper side, is constructed at a lower position than the upper side is that all fluid substance molecules Among these fluid material molecules, there are fluid material molecules with a heavy specific gravity mixed with incompletely decomposed material molecules, and the fluid material molecules with a heavy specific gravity are those flowing into the material molecule separation machine. Immediately, a natural material molecular separation action occurs in which the material molecules are moved in the downward direction of the material molecule separation processing machine by the material cutting action and material pushing action that are naturally generated by the action of gravity, and the fluid material molecules with a light specific gravity rise upward. Thus, the injection line 8001 is configured at a lower position than at the upper position in order to naturally separate the fluid substance molecules with a heavy specific gravity and the fluid substance molecules with a light specific gravity.

In order to naturally separate contaminated fluid material molecules and fluid material molecules with heavy specific gravity by generating such material cut-out and material pushing action, it is located at a lower position than the upper side based on the upper position of the eco-friendly material molecule separator. Changing the location of the injection line configured to introduce fluid material molecules into the interior of the eco-friendly material molecule separation processor is possible for the relevant supplier to change the location as much as possible. It is natural to fall within the scope of the invention.

A structure of a fluid material molecule discharge port 251 for discharging fluid material molecules having a light specific gravity to the outside at an upper side of the eco-friendly material molecule separation processor 1100;

The structure of the rotary striking body 1505 configured to be coupled to a plurality of rotary bodies 1502, respectively, at an unspecified position inside the eco-friendly material molecule separation processor 1100;

Since the rotating body 1502 is fixed to the inside of the environment-friendly material molecule separation processing machine 1100 to be combined, a special structure is not suggested because the configuration can be changed as much as possible.

In addition, it is possible to change the configuration form and installation position of the rotary striker 1505 in a wide variety of configurations.

In addition, as shown in Fig. 34, when configuring the rotating striking body 1505, which is respectively coupled with a plurality of rotating bodies 1502, at an unspecified position inside the eco-friendly material molecular separation machine, it rotates from the lower direction to the upper direction. The material molecules are separated by constituting a rotating striking body 1505, a rotating striking body 1505 rotating from an upper direction to a lower direction, and a rotating striking body 1505 configured to rotate facing each other in a direction opposite to each other in the left and right directions. An eco-friendly water purifier configured to separate and process the heavy material molecules and the light fluid material molecules combined with the fluid material molecules by striking the fluid material molecules flowing into the processing machine or crushing them into ultra-fine particles. Combined material molecule separation machine can be constructed.

In addition, as shown in Fig. 18, a plurality of rotating bodies 1502 are configured at an unspecified position inside the eco-friendly material molecule separation processor 1100, and are respectively coupled to the lower end of the rotating body 1502 to rotate downward. As a result, it is possible to construct an eco-friendly water purifier and an eco-friendly material molecule separation processor that processes fluid material molecules by configuring a rotating striking body (1505) that is configured to rotate and hit the fluid material molecules flowing from the upper direction to the lower direction. have.

For example, it is possible to construct a rotary smasher using a crushing blade that crushes an object.

A structure of a discharge line 8028 coupled with a discharge control valve 8029 at one side of the lower end of the eco-friendly material molecule separation processor 1100; It is a structure of an eco-friendly material molecular separation processor for both nature-friendly and eco-friendly water purifiers consisting of.

The rotation body 1502 in a state in which the discharge control valve 8029 configured at the lower end of the eco-friendly material molecule separation processor configured as described above is closed, and all fluid material molecules are filled in the interior of the eco-friendly material molecule separation processor. ) And the rotary striker 1505 to continuously strike the fluidic material molecules filled in the interior of the eco-friendly material molecule separation processor 1100, and at the same time, The discharge control valve 8029 is opened only 5% to 10%, and at the same time, 2000L of fluid substance molecules per hour are continuously introduced into the inside of the fluid substance molecule separation processor, and the discharge line 8028 is opened. 1500L to 1900L per hour are discharged to the outside of the substance molecule ejector for collection and use, and the remaining fluid substance molecules with a light specific gravity of about 100L to 200L are passed through the fluid substance molecule outlet 251 through the substance molecule separation processor ( 1100) to be discharged to the outside and disposed of, or collected and reused.

Since the time, numerical value, and quantity fluctuations suggested in the tenth embodiment of the present invention can be changed as much as possible, only one embodiment is presented.

Therefore, it is natural that all of the changes in the time, numerical value, and quantity applied thereto by modifying the environment-friendly material molecule separation processor configured according to the present invention by the relevant supplier are within the scope of the present invention.

Next, an eleventh embodiment of the present invention will be described.

FIG. 30 is a cross-sectional perspective view showing an inner cross-section of an eco-friendly material molecule separation processor configured according to an eleventh embodiment of the present invention, and is configured as follows.

Structure of eco-friendly material molecule separation processor 1100 composed of a circular or rectangular shape

An injection line for injecting fluid substance molecules such as water or milk or alcohol into a lower position of 30 cm to 2 m in the lower direction from the upper position of the other side of the eco-friendly material molecule separation processor 1100 to the upper side. The structure that constitutes (8001);

A structure of a fluid material molecule discharge port 251 for discharging fluid material molecules having a light specific gravity to the outside at an upper side of the eco-friendly material molecule separation processor 1100;

The lower end of the eco-friendly material molecule separation processor is configured in a form in which 3 to 8 degrees is inclined in one direction, so that the fluid material molecules with heavy specific gravity flow in one direction. rescue;

A rotational friction plate 3000 configured to be coupled to the rotating body 1508 and having a protrusion formed at the end of the rotating body and the rotating shaft 1958 is configured; A structure in which a plurality of rotational friction plates 3000 including a plurality of rotation brushes 1509 are disposed in the middle of the rotation shaft 1958 in opposite directions facing the interior of the environment-friendly material molecule separation processor 1100;

The configuration of the rotary friction plate is a shape that faces and faces each other, and is rotated in the opposite direction or in the same direction with a thread to rotate and pulverize the fluid material molecules flowing into the material molecule separation machine. do

The method of constructing the rotating friction plates facing each other can be constructed using a turbo impeller type or a pump impeller type.

Next, a twelfth embodiment of the invention will be described.

FIG. 31 is a photograph of the configuration of a rotating strike body configured in the form of a cup brush according to the twelfth embodiment of the present invention, and is configured as follows.

The interior of the eco-friendly material molecule separation processor 1000 by installing a plurality of rotatable furry brushes 5500 configured in the form of cup brushes to face each other and then rotating them in different directions. We present an eco-friendly water purifier and material molecule separation machine that is configured to blow process the fluid material molecules flowing into the tank.

The rotating device that rotates the rotary striker can use an electric motor and a device that rotates with hydraulic or air force. As such, the rotating device can be changed in a variety of ways, so detailed structures are omitted.

As shown in Fig. 31, by configuring a hitting body composed of a cup brush type in the interior of the material molecule separation processing machine in a form facing each other, one rotating type furry brush 5500 is rotated to the left, and the other rotating type furry This brush 5500 is configured to be rotated in one direction, and it is possible to change the configuration to increase the hitting efficiency of the fluid material molecules flowing into the environment-friendly material molecule separation machine while being rotated in opposite directions. It is natural to fall within the scope of the present invention.

In addition, since the arrangement method and arrangement order of the cup brushes can be changed, it is natural that all of these design changes belong to the scope of the present invention.

In this way, the shape or rotation of the cup brush can be changed as long as the manufacturer can change the composition so that the fluid material molecules flowing into the environment-friendly material molecule separation machine are subjected to blow processing by configuring them in opposing states. It is a matter of course that all of the configuration of the friction plate is changed and constituted within the scope of the present invention.

According to the present invention, the rotating device for rotating the rotating strike body applied to each embodiment can be configured to combine chains or belts between a direct rotation type using a motor or the like, and a driving pulley and a driven puller configured to be coupled with the motor. Likewise, the structure of the rotating device can be changed in a wide variety, so the detailed structure is omitted.

The air injection line for injecting compressed air at a pressure of 1 to 1000 atmospheres into the interior of the eco-friendly material molecular separation processor is not shown because it can be configured by changing its position in a wide variety of ways.

The reason is that it is possible to configure air injection lines in various places of the eco-friendly material molecule separation processor.

In addition, the method of compressing fluid material molecules at a pressure of 1 to 1000 atmospheres and injecting them into the interior of the material molecule separation machine is to use an existing injection line, or add or change an injection line at a separate location. Because it is possible, the illustration of the additionally configured injection line is omitted.

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

Fig. 32 is a cross-sectional perspective view showing a cross section of a material molecule separating machine constructed according to a thirteenth embodiment of the present invention, and is constructed as follows.

A structure in which an injection line 8001 including a spray nozzle 8111 is configured across the horizontal direction at a position of a lower end of 20 cm to 100 cm from the top of the eco-friendly material molecule separation processor 8111; to be.

The reason for configuring the injection line 8001 below 20 cm to 100 cm from the top to the bottom is to induce the fluid material molecules with heavy specific gravity to push out the fluid material molecules with light specific gravity and to move easily toward the bottom. To do.

In addition, the reason that all the injection nozzles 8111 are configured at regular intervals over the entire length of the injection line 8001 is directly at the upper end of the vibration generating device configured in multiple stages throughout the horizontal direction of the material molecule separation processor. It is to increase the strength of the impact applied to the fluid material molecules by allowing the fluid material molecules to fall.

After configuring a plurality of horizontal supports (8012) in layers in the interior of the eco-friendly material molecular separation processor, and combining the vibration generating device (8113) configured to be coupled to the support ring (8110) at the lower end of the horizontal support (8112). Fluid material molecules are introduced into the interior of the eco-friendly material molecule separator 1100 through the injection line 8001 in which the injection nozzle 8111 is configured, and the fluid material molecules are blow-processed to combine with the fluid material molecules. We present an eco-friendly material molecule separation processor for both eco-friendly water purifiers that are constructed to process by hitting and processing material molecules with heavy specific gravity and fluid material molecules with light specific gravity.

Since the configuration of the vibration generating device includes a crankshaft vibration method and a vibrator type vibration method, and another method is an ultrasonic vibration shock method using electromagnetic waves, any one method is not specifically limited and presented.

In addition, the number of vibration generating devices is not particularly limited because it can be manufactured by increasing or decreasing the number according to the size of the inflow amount.

The construction method of the injection nozzle 8111 is configured both between one side and the other side of the material molecule separation processor, and directly flows into the upper portion of the vibration generating device 8113 to strongly impact the fluidic material molecules to increase the strength of the impact. It is desirable to configure it to be high.

The vibration generating device can be configured by applying an ultrasonic generator using electricity, and the vibration generating device using a crankshaft can be applied.

The configuration of the support ring 8110 and the vibration generating device 8113 applied to the present invention can be changed as long as the person concerned can change it.

Since the electrical wiring method combined with the vibration generating device can be changed in a wide variety, the illustration of the connection configuration method is omitted.

The following describes the fourteenth invention

FIG. 35 is a perspective view of an eco-friendly material molecule separating machine constructed according to a fourteenth embodiment of the present invention, and FIG. 36 is a cross-sectional view showing an eco-friendly material molecule separating machine constructed according to the fourteenth embodiment of the present invention. A cross-sectional perspective view, and FIG. 37 is a perspective view of one side showing a state in which a rotating hair peach brush is formed in an environment-friendly material molecular separation machine according to a fourteenth embodiment of the present invention, and is configured as follows.

The structure of the material molecule separation processing machine 1100 in which a plurality of material molecules inducing walls 1600 and material molecule diffusion inducing walls 1700 are combined in a shape of a rhombic shape between them while having a rectangular box structure. ;to be.

The reason why the material molecule inducing wall 1600 and the material molecule diffusion inducing wall 1700 are composed of a large number of materials is that material molecules with heavy specific gravity push up the fluid material molecules with light specific gravity to the upper side of the eco-friendly material molecule separator. It is a structure that is constructed to promote the discharged material cut-out and material push action in the downstream direction while pushing it left and right.

The configuration of the material molecule inducing wall 1600 and the material molecule diffusion inducing wall 1700 can be changed to a circular shape.

A structure in which a material molecule separation guide plate 2000 is configured to be inclined in one direction and inclined in a front direction to a rear direction at a lower end of the material molecule separation processor 1100; to be. The reason for the inclined configuration is that fluid material molecules with heavy specific gravity push fluid material molecules with light specific gravity upward or left and right, and are first discharged in the downstream direction, and fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity This is for easy and easy separation and processing.

In the interior of the eco-friendly material molecule separation processor 1100, a plurality of material molecule separation induction film 8003, a plurality of material molecule rise guide plates 8005, a plurality of upper layer material molecule transfer passages 8006 and a plurality of material molecule lower layers A structure in which a moving passage 8004 and a plurality of material molecule rise induction passages 2 are configured in multiple stages, respectively.

The reason for constructing the material molecules in the lower layer of the material separator with the lower layer moving passage 8004 and the upper layer moving passage 8006 in the upper portion is that fluid material molecules with heavy specific gravity are first discharged in the downstream direction. It is a structure that collects and organizes them for reuse.

In the interior of each of the material molecule rising guide passage 2 and the material molecule rising guide plate 8005, a rotational furry brush 5500 configured to face each other is combined with the rotating body 2002, respectively; to be.

The rotating body that rotates the rotatable furry brush 5500 refers to a driving body that is rotated by electric or hydraulic or pneumatic force.

In order to drive the rotatable furry brush 5500, a driving pulley and a driven pulley may be combined with the rotating furry brush 5500, respectively, and may be used using a connecting member such as a belt.

In addition, when rotating the rotatable furry brush 5500, which is formed in the shape of facing each other, it is operated so that the rotation directions are different from each other, so that it can be processed by hitting the fluid material molecules flowing into the interior of the eco-friendly material molecule separation machine. There can be.

The configuration method of the rotary blower configured inside the eco-friendly material molecule separation machine can be changed in a wide variety. Therefore, it is constructed by different methods of hitting the fluid material molecules flowing into the environment-friendly material molecule separation machine. It is natural that everyone falls within the scope of the present invention.

It is natural that all of these change methods belong to the scope of the present invention.

On the other side of the eco-friendly material molecule separator 1100, an injection line 8001 for introducing fluid material molecules such as water and milk or alcohol or sea water is formed; At the bottom of one side

Contaminated fluid with heavy specific gravity and light specific gravity combined with contaminated fluid material molecules by using a material molecule separation machine consisting of a discharge line 8028 coupled with the discharge control valve 8029 Controls the amount of discharge while continuously injecting 1000L of fluid substance molecules per hour through the injection line 8001 into the interior of the eco-friendly eco-friendly water purifier and eco-friendly material molecule separation processor configured to separate and extract the active substance molecules. When 900L to 999.9L per hour are discharged through the discharge line 8028 by adjusting the valve 8029, the remaining 0.1L to 100L fluid substance molecules composed of fluid substance molecules having a light specific gravity are the eco-friendly substances. Separating eco-friendly material molecules for both eco-friendly water purifiers, which is configured to separate and extract fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity combined with fluid material molecules by acting to discharge them to the outside through the upper side of the molecular separation processor Present the processing machine.

35, 36, and 37 have a structure in which the material molecule collection port and the fluid material molecule discharge port are combined, but the detailed structure is omitted.

Therefore, it is natural that all of the additional configurations of these structures belong to the scope of the present invention.

Water that flows into the interior by changing the configuration of the eco-friendly material molecule separation processor can be changed as much as possible if the method of configuring the eco-friendly material molecule separation processor presented in various ways as described above can be changed. All of the modified configurations to extract fluid material molecules with heavy specific gravity by striking fluid material molecules such as fruit, milk, alcohol, and seawater to separate the light fluid material molecules and the heavy fluid material molecules up and down. It is natural that it belongs to the scope of the present invention.

The following describes the fifteenth embodiment of the present invention.

Fig. 38 is a perspective view showing the shape of a rotary struck body configured inside the eco-friendly material molecule separation processor according to the present invention, and 39 is a shape of the rotary struck body constructed inside the eco-friendly material molecule separation machine according to the present invention It is a perspective view composed by changing the configuration as follows.

As shown in Fig.37, after the rotary striking body 200 configured to be coupled to the rotating shaft 100 in the interior of the eco-friendly material molecular separation processing machine 1100 is composed of a stone such as stone, a plurality of uneven grooves 222 in the stone material. We present a material molecule separation processing machine that is configured to blow-process fluid material molecules.

In addition, since the constituent materials of the rotating shaft can be composed of plastic, glass, or non-ferrous metal such as ceramic or stone, it is natural that all of these design changes fall within the scope of the present invention.

The concave-convex groove can be changed in various forms.

In addition, it can be configured in the form of a hollow hole with the front and rear surfaces completely open or the configuration can be changed into a hollow form.

Since the term stone can be composed of all mineral materials existing on the earth, all the rotating smashing bodies composed of different materials of the stone are included in the scope of the present invention.

In addition, as shown in FIG. 38, the rotating striking body 200, which is configured to be coupled to the rotating shaft in the interior of the eco-friendly material molecular separation processing machine, is placed at an angle by using a stone such as stone, and is in the form of a staggered shape on the rotating shaft 100. We present the fluid material molecules that are constructed and configured to strike the fluid material molecules.

Next, a description will be given of claim 28 according to a sixteenth embodiment of the present invention.

FIG. 40 is a perspective view of an eco-friendly material molecular separation machine configured according to a sixteenth embodiment of the present invention, and is configured as follows.

The structure of the material molecule separation processor 1100 consisting of multiple stages in a circular shape;

The configuration of the material molecule separation processor 1100 can be changed to a triangle, an inverted triangle, a cone, a hexagon, a square, an octagon, or a rectangle.

Or ▷◁ that is formed in response to the shape of a triangle.

Or, it is natural that all of these design changes belong to the scope of the present invention because a changeable configuration is possible as in the form of a peanut.

The structure of the rotating striking body 1503 configured to be coupled to the rotating body in the interior of the material molecule separation processing machine 1100;

The function of the rotating striking body is a structure configured to separate fluid material molecules having a heavy specific gravity and fluid material molecules having a low specific gravity combined with the fluid material molecules flowing into the environment-friendly material molecule separation machine. to be.

A structure in which an injection line 8001 for injecting fluid material molecules such as water, milk, or alcohol into the upper side of the material molecule separation processor 1100 is provided;

An upper conveying and discharging line 8098 connected to the upper end of the material molecule separating processor 1100, which is configured in multiple stages at the lower end of the material molecule separating processor 1100, is combined with the upper discharge control valve 8099. Structure;

A structure of a discharge line 8028 coupled with a discharge control valve 8029 at a lower end of the material molecule separation processor 1100 configured at the end of the eco-friendly material molecule separation processor 1100 configured in multiple stages;

A material that collects and discharges the light-weight fluid material molecules floating to the upper side of the environment-friendly material molecule separation processor 1100 by the action of gravity at the upper edge of the upper side of the eco-friendly material molecule separation processor 1100 A structure in which the molecule collection port 250 is configured in a ∪ shape with a lower portion of the upper upper rim of the eco-friendly material molecule separation processor 1100 as a starting point.

In other words, it is a structure that is constructed by erecting the form of the c letter.

In detail, it is a structure constructed to collect fluid material molecules having a light specific gravity that starts in the form of a ∪-shaped plate-shaped border from the top of the eco-friendly material molecule separation machine and overflows the top of the eco-friendly material molecule separation machine .

This structure is an important configuration for separating fluid material molecules with a light specific gravity from fluid material molecules with a heavy specific gravity, and corresponds to the main structure of the present invention, so it is very simple to change the configuration for a person concerned.

At one side of the material molecule collection port 250, a fluid material molecule discharge port 251 is provided to separate and process fluid material molecules with a light specific gravity from fluid material molecules with a heavy specific gravity. 1100)

As described above, fluid material molecules such as water are continuously injected at a rate of 100 wt% through the injection line 8001 configured on the upper side of the eco-friendly material molecule separation processor 1100 as described above. Using the rotating body 1502 and the rotating striking body 1503, it strikes the fluid material molecules continuously flowing into the interior of the eco-friendly material molecule separation processor, so that the fluid material molecules having a heavy specific gravity and the fluid material having a light specific gravity The upper transfer discharge line 8098 is processed to separate material molecules and at the same time adjusts the upper discharge control valve 8099 coupled with the upper transfer discharge line 8098 to obtain 90 to 99.99 wt% of the inflow amount compared to 100 wt%. In the next step, fluid material molecules such as water are reduced and discharged in stages so that the amount of discharge is reduced sequentially into the interior of the material molecule separation processor 1100, which is composed of multiple stages in the next step. The process of separating heavy fluid material molecules is configured at the end of the environment-friendly material molecule separation processor configured in multiple stages while separating and processing the fluid material molecules through the environment-friendly material molecule separation processor. After collecting and using fluid material molecules with a heavy specific gravity finally discharged through the discharge line 8028, the remaining fluid material molecules floating above the eco-friendly material molecule separating machine 1100 consisting of multiple stages Pure fluid material molecules having a heavy specific gravity by using the material molecule separation processor 1100 configured to discharge or collect the material to the outside through the material molecule collection port 250 and the fluid material molecule discharge port 251 We present an eco-friendly material molecule separation machine configured to separate and extract fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity combined with.

Next, a description will be given of claim 29 configured according to a seventeenth embodiment of the present invention.

FIG. 41 is a perspective view of an eco-friendly material molecule separating machine configured according to a seventeenth embodiment of the present invention, and FIG. 42 is a perspective view showing an eco-friendly material molecule separating processor configured according to a seventeenth embodiment of the present invention by dividing it in half And FIG. 45 is a perspective view showing an eco-friendly material molecule separation processor constructed according to a seventeenth embodiment of the present invention from a lower end to an upper side, and is configured as follows.

The lower part is a structure in which the lower layer separation compartment 5577 is configured to be wider than the width of the upper side; In the middle part, an intermediate separation compartment (5588) for inducing the material cut-off action, which acts to preferentially descend in the downward direction while pushing up the fluid material molecules with the light specific gravity upwards is formed in a triangular shape. Structure;

The structure of an eco-friendly material molecule separation processor 1100 in which the upper separation compartment 5599 is combined in a stepwise form in a multi-step shape in a rectangular and rectangular shape on the upper side of the intermediate separation compartment 5588 for inducing the material cutting action.

The reason why the size of the lower part is larger than the size of the upper part is that the fluid material molecules with heavy specific gravity push up the fluid material molecules with light specific gravity to the upper part and descend to the lower part by preferential discharge by the action of gravity. This is to facilitate the separation and collection of fluid material molecules with heavy specific gravity that are combined with pollutant material molecules with light specific gravity by promoting the cutting action.

This structure can be changed in the form of an inverted triangle or a jar that makes the middle part larger.

자 형태로 구성하고, 상기 물질분자 수집구(250)의 일측에는 유체성 물질분자 배출구(251)를 구성한 구조;이다A material molecule collection port 250 is provided around the upper end of the upper separation compartment 5599 for collecting fluid material molecules having a light overflowing specific gravity flowing from the upper end of the eco-friendly material molecule separation processor 1100.

It is configured in a shape of a ruler, and a fluid material molecule outlet 251 is formed at one side of the material molecule collection port 250;

A structure in which a material molecule separation guide plate 2000 is configured to be inclined in one direction and inclined in a front direction to a rear direction at a lower end of the material molecule separation processor 1100;

In the interior of the eco-friendly material molecule separation processor 1100, which is composed of the structure of the lower separation compartment 5577, the intermediate separation compartment 5588 for inducing the material cutting action, and the upper separation compartment 5599, there are a number of steps in the form of a step. It is a structure in which three material molecule descending guide plates 101,301,501,701,901 are formed.

A structure in which a plurality of lower part material molecule movement passages 102,302,502,702,902 are configured to preferentially discharge fluid material molecules having a heavy specific gravity at the lower end of the material molecule descending guide plate (101,301,501,701,901);

In the next step of the material molecule transfer passage (102,302,502,702,902), fluid material molecules with heavy specific gravity are discharged in the downstream direction, and fluid material molecules with light specific gravity are pushed upward and preferentially discharged to the downstream part. The material molecule separation compartment (100,200,300,400,500,600,700,800,900,991,992) is composed of a number of steps. Structure; is.

The material molecule separation compartment (100,200,300,400,500,600,700,800,900,991,992) in which fluid material molecules such as water, sea water, alcohol, milk, or beverage are configured in multiple stages through the injection line 8001 configured as described above in an eco-friendly material molecule separation processor At the same time, it is processed by being hit by the rotary striker 1503 configured at the lower end of the eco-friendly material molecule separation processor 1100, and at the same time, it floats upwards through the material molecule movement passages 102,302,502,702,902 by the action of gravity. The discharge line configured at the end of the eco-friendly material molecule separation processor 1100 through the upper material molecule movement passages 202,402,602,802,9911 configured in multiple stages at the upper end of the fluid material molecule rising guide plate 201,401,601,801,9912 ( 8028) is a structure configured to separate fluid material molecules with light specific gravity from fluid material molecules with heavy specific gravity as they are discharged to the outside.

The number of the material molecule separation compartment, the material molecule descending guide plate, the fluid material molecule rising guide plate, the upper material molecule movement passage and the lower material molecule movement passage change the shape according to the material to be processed or Since it is possible to change the configuration by varying the size or increasing the number, it is natural that all of the configurations modified by different configurations by the relevant provider fall within the scope of the present invention.

A structure in which an injection line 8001 for injecting fluid substance molecules such as water, milk, alcohol, beverage, medicine, or seawater into one side of the material molecule separation processor 1100;

Contaminated fluidity using a material molecule separation processor configured in combination with a discharge control valve 8029 is a discharge line 8028 that discharges fluid material molecules with a heavy specific gravity at the lower end of the eco-friendly material molecule separation processor 1100 We present an eco-friendly material molecule separation processor for both nature-friendly and eco-friendly water purifiers that is configured to separate and extract fluid material molecules with heavy specific gravity and contaminated fluid material molecules with light specific gravity combined with material molecules.

Since the striking devices for striking the fluid material molecules flowing into the environment-friendly material molecule separation machine are provided in each of the embodiments of the present invention, the structure is omitted in the seventeenth embodiment of the present invention.

The eco-friendly material molecule separation and processing machine using a rotary smasher (not shown) in a state in which 100 wt% of fluid material molecules are continuously introduced per hour through the injection line 8001 configured in the eco-friendly material molecule separation processor By continuously striking and processing the fluid substance molecules flowing into the (1100), the discharge control valve 8029 is adjusted to discharge 90wt% to 99.99wt% of the inflow amount through the discharge line 8028. After collection and use, the remaining fluid material molecules with a light weight of 0.01 to 10 wt% floating to the upper side of the eco-friendly material molecule separation processor 1100 are the material molecule collection port configured on the upper side of the eco-friendly material molecule separation processor ( 250) and a fluid material molecule discharge port 251 configured at one side of the machine to be discharged to the outside of the eco-friendly material molecule separation machine for collection and use or reprocessing.

It is shown briefly because it is very simple to change and configure the rotary smasher to be inserted into the eco-friendly material molecular separation machine configured as described above.

The configuration of the rotating blower configured according to each embodiment of the present invention may be configured as a circular or hexagonal or a square or an octagonal or a half-moon shape formed by splitting a circular pipe in half.

In addition, if a person in question applies the basic theory suggested in the present invention, the fluid material molecules with heavy specific gravity can be discharged downward by striking or crushing the fluid material molecules bound to the pollutant fluid material molecules. It is used among the devices that are modified to pulverize the fluid substance molecules flowing into the inside of the material molecule separation machine when the material molecule separation processor is changed and configured so that the fluid material molecules with a low specific gravity float upward while acting. All of these design changes can be made by using a blender blade or by installing a grinder configured to rotate facing each other in the form of a millstone, etc., in the entrance or inside the material and molecular separation machine. It is natural that it belongs to the scope of the present invention.

Next, a description will be given of claim 30 configured according to an 18th embodiment of the present invention.

FIG. 43 is a perspective view of an eco-friendly material molecule separating and processing machine constructed according to an 18th embodiment of the present invention, and FIG. 44 is a separation consisting of an eco-friendly material molecule separating and processing machine constructed according to an 18th embodiment of the present invention in half. It is constructed as follows as a perspective view.

The lower part is a structure in which the lower layer separation compartment 5577 is configured to be wider than the width of the upper side; In the middle part, an intermediate separation compartment (5588) for inducing the material cut-off action, which acts to preferentially descend in the downward direction while pushing up the fluid material molecules with the light specific gravity upwards is formed in a triangular shape. Structure;

The structure of an eco-friendly material molecule separation processor 1100 in which the upper separation compartment 5599 is formed in a horizontal shape in a rectangular and rectangular shape on the upper side of the intermediate separation compartment 5588 for inducing the material cutting action;

자 형태로 구성하고, 상기 물질분자 수집구(250)의 일측에는 유체성 물질분자 배출구(251)를 구성한 구조;A material molecule collection port 250 is provided around the upper end of the upper separation compartment 5599 for collecting fluid material molecules having a light overflowing specific gravity flowing from the upper end of the eco-friendly material molecule separation processor 1100.

A structure having a shape of a ruler, and a fluid material molecule outlet 251 at one side of the material molecule collection port 250;

A structure in which a material molecule separation guide plate 2000 is configured to be inclined in one direction and inclined in a front direction to a rear direction at a lower end of the material molecule separation processor 1100;

In the interior of the eco-friendly material molecule separation processor 1100, which consists of the structure of the lower layer separation compartment 5577, the intermediate separation compartment 5588 for inducing the material cut-off action, and the upper separation compartment 5599, a plurality of material molecules descend A structure in which guide plates 101,201,301,501,701,901 are configured;

A structure in which a plurality of lower material molecule movement passages 102,302,502,702,902 are configured to preferentially discharge fluid material molecules having a heavy specific gravity at the lower end of the material molecule descending guide plate (101,201,301,501,701,901);

Fluid that discharges fluid material molecules with a heavy specific gravity in the downstream direction at the rear part of the material molecule movement passages 102,302,502,702,902 and simultaneously pushes fluid material molecules with a light specific gravity upward and preferentially discharges them to the downstream part. A structure in which a sexual substance molecule rise guide plate (201,401,601,801,9912) is configured;

A structure in which a plurality of material molecule separation compartments (100,200,300,400,500,600,700,800,900,991,,992) are configured by a structure in which an upper material molecule movement path (202,402,602,802,9911) is formed on the upper side of the fluid material molecule rising guide plate (201,401,601,801,9912)

Fluid material molecules such as water or sea water or alcohol or milk or beverage in the material molecule separation compartment (100,200,300,400,500,600,700,800,900,991,992) configured in multiple stages through the injection line 8001 configured as described above in an eco-friendly material molecule separation processor In the state of continuous infusion

It is processed by striking the fluid material molecules by using the rotating striking body 1503 configured at the lower end of the eco-friendly material molecule separation processor 1100, and at the same time, the upper side through the material molecule movement passages 102,302,502,702,902 by the action of gravity. Fluid material molecules with a light specific gravity that floats are collected and processed using a fluid material molecule outlet 251 at one side of the material molecule collection port 250, and at the same time, the fluid material molecule rise guide plate 201,401,601,801,9912 ) Through the upper material molecule movement passage (202, 402, 602, 802, 9911) configured in multiple stages at the upper end of the environment through the discharge line 8028 configured at the end of the eco-friendly material molecule separation processor 1100. An eco-friendly material for both nature-friendly and eco-friendly water purifiers that is configured to separate and extract heavy fluid material molecules combined with contaminated fluid material molecules and contaminated fluid material molecules with light specific gravity using a material molecule separation processor We present a molecular separation machine.

Another modified example will be described.

As described above, a multi-layered material molecule transfer path (5858) is formed into layers in the form of a plurality of passages at the lower end of the upper material molecule transfer path (202,402,602,802,9911) configured inside the eco-friendly material molecule separation processing machine (1100). The discharge line 8028 and the upper end are configured through the upper material molecule moving passage 202,402,602,802,9911 and the multilayer material molecule moving passage 5858 configured in the next compartment according to the mass possessed by A structure in which the phenomenon of automatic separation according to specific gravity, gravity, and mass through the material molecule collection port 250 and the fluid material molecule discharge port 251 is provided in detail.

As shown in FIG. 59, the configuration of the multilayer material molecule movement passage 5858 can be changed in a wide variety of configurations, so the number of the multilayer material molecule movement passages 5858 is increased through such design change. It is a matter of course that all of the configurations or other configurations belong to the scope of the present invention.

The following describes claim 31 configured according to a 19th embodiment of the present invention.

Fig. 46 is a perspective view of an eco-friendly material molecule separating machine constructed according to a nineteenth embodiment of the present invention, and Fig. 47 is a separation constituting the eco-friendly material molecule separating machine constructed according to the nineteenth embodiment of the present invention by dividing it in half It is a perspective view, Figure 63 is a photograph of a substance explosion that occurs when a substance molecule and substance molecules come into contact when tap water is leaked, and Fig. 64 is a material generated when various substances and substances in the sea and land come into contact. This is a photograph of a cloud, which is a combination of gaseous moisture, which has risen to the atmosphere by the action of gravity while being decomposed into ultrafine particles by the explosion. It is composed as follows.

As shown in Fig. 63, when all substances come into contact with a substance molecule having another component, a substance explosion occurs immediately, and at the same time, it is converted into a gaseous substance molecule and then recombined to be reduced to the original component.

The evidence is the phenomenon that the sea water comes into contact with waves and bubbles are generated at the same time.

When a wave strikes, a substance molecule and a substance molecule come into contact with each other, and at the same time, a substance explosion action occurs, creating a gaseous substance molecule bubble.

Because the generated foam has a light specific gravity, it floats upwards by the action of gravity.

Some of its components rise up to the atmosphere by the action of gravity and turn into clouds and then into snow, rain, or hail.

This cycle of process is factual evidence recognized by Earth science.

Heavy metals are decomposed into material molecules with a light specific gravity by this material explosion, and heavy metals contained in contaminated soil are decomposed into material molecules with a light specific gravity by various actions such as material explosion, and are deposited or contained in the soil. .

As evidence of that, the reason why iron is released from tap water is that it is mixed with tap water because the specific gravity has become lighter than water due to corrosion of water pipes by various actions.

In addition, since the tap water component is composed of ten thousand different components, as shown in Fig. 63, when the substance molecules and substance molecules naturally come into contact with each other when it flows out through the faucet, a substance explosion action occurs, and countless foamy gases are generated. You can directly witness what is happening.

After opening a beer bottle, shaking it vigorously causes countless bubbles to form at the top of the bottle. This also proves that a substance explosion occurs when substance molecules come into contact with substance molecules.

In addition, as shown in Fig. 64, the clouds floating in the upper part of the atmosphere are formed by various actions such as a material explosion that occurs when water on the ground and sea water in the sea come into contact with each other. The material molecules that make up living things and the material, plants and animals are decomposed into ultra-fine particles, making their specific gravity lighter than water, and maintaining a floating state in the atmosphere by the action of gravity. It is the reason of the universe that it turns into snow, rain or hail by various actions generated by substances such as ultraviolet rays, gamma rays, and alpha rays emitted from the air, and then falls back to the ground and sea to become water molecules.

In detail, the ultrafine particles, which are the basic constituents of all living things, plants, animals, and all objects that are made up of material molecules come into contact with a particulate matter molecule with a light specific gravity and another particulate matter molecule. When it does, it occurs in catalytic action and material explosion, and at the same time, particulate fluid material molecules are transformed into foamy material molecules such as balloons by various invisible actions such as material explosion, and then floated into the atmosphere by the action of gravity. The empirical fact that the present inventors have been researching water for 30 years and invented about 1,600 species while inventing about 1,600 are empirical facts, and many patents have been registered while proving this logical truth. .

For example, it is the same phenomenon as the principle that when soap is dissolved in water and blown, a substance explosion occurs and a bubble-like substance such as a balloon is formed.

For example, the specific gravity of iron is composed of heavy metals that are 7.85 times heavier than water, but due to various actions such as substance explosion, substance friction, substance decomposition and substance oxidation, it undergoes ionization, which has a lower specific gravity than water molecules. Since it has turned into a compound of iron, rust, that is, a compound of iron, comes out of tap water.

In addition, the salt components mixed in the food waste are also mixed with the water that is added to the food waste, so if water is added to the food waste and diluted, a substance explosion occurs when the salt component and the water molecules come into contact. As the salt components change to a gaseous state, the specific gravity of the salt is temporarily lighter than water, and it is maintained in a floating state. After a period of 1 to 5 minutes, the salt components recombine with water. Because it is heavier than the specific gravity, the salt component could not be removed from the food waste.

However, while the salt components remain floating in the upper layer of the water, water with heavy specific gravity is continuously injected into the inside of the hopper 8080 into which the salt components and diluted food waste are continuously injected. 1523), when hitting food waste and water, food waste using a layering phenomenon in which heavy water and light food waste are automatically separated in the upper and lower directions due to the difference in specific gravity and the action of gravity. A material molecular separation machine that simply removes salt and cooking oil components contained in garbage is presented as follows. In detail, food waste, salt components, and water molecules with heavy specific gravity are collected by using a rotary blower (1523) while continuously injecting food waste and water molecules with heavy specific gravity into the inside of the hopper 8080. When processed by striking, the salt components diluted with water by the blow of the rotating blower 1523 are transformed into foamy bubbles, that is, foam components, that is, into material molecules with a specific gravity lighter than water molecules. We present a material molecule separation machine that is configured to remove trace salts contained in food ingredients by using the phenomenon of automatically floating to the upper side of the hopper while being pushed upward by water molecules with heavy specific gravity.

In detail, it is constructed to remove salt components or edible oil components contained in food waste by using the principle that the salt components combined with sea water are transformed into bubbles by the substance explosion action and float to the top of the sea water when a wave strikes in the sea. It is a technology related to an eco-friendly material molecule separation and processing machine.

In other words, since the edible oil component contained in food waste has a lighter specific gravity than water molecules, it is more simple to remove and extract.

In addition, the method of removing heavy metal components with a light specific gravity contained in the contaminated soil from the soil can be easily separated and extracted using a material molecule separation processor, which is composed as follows.

In detail, when all material molecules come into contact with ingredients other than their own, a temporary material explosion occurs and changes into air bubbles, that is, bubbles, and automatically floats upwards to prevent food waste and food waste. I would like to present an eco-friendly material molecular separation processor that is configured to separate and extract components contained in soil, etc.

The specific gravity of salt water is 1.028 times heavier than water. However, this figure is based on 10g salt and 90g distilled water.

However, since the amount of salt water in a small amount of food waste that is normally generated varies widely depending on the food, the number is unknown.

Therefore, it was almost impossible to remove the salt contained in food.

However, it is possible to remove a small amount of salt contained in food waste by reversely using the effect of material explosion, material pushing, and gravity, which act to easily and quickly remove a small amount of salt contained in food.

An eco-friendly material molecular separation machine according to the present invention that removes a small amount of salt components contained in food waste while removing heavy metals of light specific gravity from contaminated soil contaminated with heavy metals of light specific gravity will be described as follows.

The structure of the eco-friendly material molecular separation processor 1100, which is configured to separate salt contained in contaminated food waste or contaminated soil or heavy metals with a light specific gravity, has a conical shape at the top and a narrow funnel shape at the top. The structure of the eco-friendly material molecule separation processor 1100 configured in the form of a hopper 8080 including an outlet 8030 coupled to the material molecule separation induction unit 8070.

A structure in which a plurality of rotating striking bodies 1503, which are configured to be coupled with a rotating body 1502 such as a motor, are coupled around the material molecule separation induction part 8070;

The shape of the hopper can be freely changed, such as a rectangle or a rectangle, a rhombus, a hexagon, or an octagon.

A discharge port 8030 is configured at the lower side of the hopper 8080; A structure in which a discharge valve 8031 is coupled to the discharge port 8030;

Since the shape of the discharge valve can be changed in a wide variety of configurations, it is natural that all of the changed configurations belong to the scope of the present invention.

A structure in which a discharge line 8028 is coupled to a discharge control valve 8029 at one side of the lower end of the hopper 8080;

A rotating body 1522 such as a motor is coupled to the inside of the hopper 8080 by a cradle; A structure in which a rotary striker 1523 is coupled to a lower side of the rotary body 1522.

The structure of the holder for mounting the rotating body 1522 such as a motor is specified in Figs. 46 and 47, but the reference numeral is omitted.

The upper circumference of the hopper 8080 is 1cm to 30cm lower than the height of the upper end of the hopper 8080, and the upper end is 1cm to 30cm higher than the height of the hopper 8080. 250) is configured; At one side of the material molecule collection port 250, a fluid material molecule discharge port 251 for discharging the fluid material molecules floating above the hopper 8080 to the outside is constructed.

However, the height of the material molecule collection port 250 is not limited to a special value because it can be changed as much as possible.

The reason that the position of the material molecule collection port 250 is configured to be lower than the upper height of the hopper 8080 is that it is easy to facilitate fluid material molecules with a light specific gravity flowing through the upper end of the hopper 8080. It is to collect it.

In addition, the reason for configuring the upper height of the material molecule collection port 250 higher than the height of the upper end of the hopper 8080 is to easily collect fluid material molecules having a light specific gravity flowing through the upper end of the hopper. It is for the sake of.

Therefore, it is natural that all of the material molecule collection ports 250 having different shapes or different configuration positions belong to the scope of the present invention.

A structure in which an injection line 8001 for introducing a fluid material molecule such as water is coupled to one side of an upper portion of the hopper 8080;

A structure in which a horizontal transfer conveyor belt unit 7000 is coupled to the lower end of the discharge port 8030;

At one side of the hopper 8080, a conveyor belt unit 9000 is configured to be coupled with an inlet 9090 in an inclined form;

The structure of the conveyor loom unit 9000 configured to put food waste or sludge or human meal or livestock or contaminated soil into the inside of the hopper can be changed in various ways.

For example, it is possible to change the configuration to a vacuum pump transfer type or a screw transfer type, so it is natural that all of these design changes belong to the scope of the present invention.

The role of the inlet port is a structure configured to stably inject a certain amount of soil or sludge dredged using equipment such as a dump truck or a forkrain, or impurities such as general garbage or food waste into the inside of the hopper.

It is very simple to change the configuration so that food waste, contaminated soil, human meal, livestock meal, or sedimentary sludge in the sea, etc. are put into the inside of the inlet, if the company can apply conventional techniques.

The reason for configuring the conveyor belt unit 9000 on one side of the hopper is to stably put a certain amount of soil or mud such as general garbage or food waste or sludge or contaminated soil or contaminated sediment sludge into the inside of the hopper. This is to separate cooking oil and salt components contained in contaminated food waste, or heavy metals with a light specific gravity contained in soil or mud constituting contaminated sedimentary sludge.

However, the method of introducing contaminated sedimentary sludge or contaminated soil, livestock, human meal or food waste into the inside of the hopper 8080 may be changed so that it is introduced through a pipeline configured to be coupled with a vacuum pump.

It is natural that all of these design changes belong to the scope of the present invention.

In addition, the reason why the injection line 8001 is configured on one side of the hopper is that fluid material molecules such as water having a heavy specific gravity are introduced through the injection line 8001 and the conveyor belt unit 9000 Food waste or sludge flowing into the inside of the hopper 8080 or fluid material molecules such as salt or cooking oil contained in the general waste are induced to float to the upper side of the hopper, or contaminated soil or contaminated sedimentary sludge is removed. Contaminated mud is added with water and then processed by continuously striking food wastes using the rotary blower 1503, or contaminated mud forming water and soil or sedimentary sludge is continuously diluted. After that, 80wt% ~ 99.99wt% is adjusted to the discharge line 8028 by adjusting the discharge control valve 8029 coupled with the discharge line 8028 relative to 100wt% of the water inflow continuously flowing into the injection line 8001. When discharged through the material, the remaining fluid material molecules having a light specific gravity of 0.1 wt% to 20 wt% are transferred to the material molecule collection port 250 and the fluid material molecule through the upper end of the hopper 8080 by the action of gravity. An eco-friendly material molecule separation processor configured to remove fluid material molecules such as salt or cooking oil from contaminated soil or food waste by discharging it to the outside of the eco-friendly material molecule separation processor 1100 through the outlet 251 Is the structure of.

In detail, after 80% to 90% of food waste or contaminated soil is added to the inside of the hopper, an additional 5% to 10% of water is added to the rotating body 1502. When hitting water and food waste or contaminated soil flowing into the hopper 8080 using the striking body 1503, a substance explosion action occurs between water and food waste or water and contaminated soil. At the same time, salt components with light specific gravity and components with light specific gravity released from the contaminated soil automatically float to the upper side of the hopper.At this time, 20 than the amount of water previously injected into the hopper through the injection line. When %~30% is added additionally, water with a heavy weight added to the hopper is a salt component with a light weight added to the inside of the hopper, or a pollutant with a light weight that is released from contaminated soil with a light weight. Salt contained in contaminated soil or food waste by using the action of discharging molecules to the outside of the environment-friendly material molecule separation machine through the material molecule collection port 250 through the fluid material molecule discharge port 251 This is the structure of an eco-friendly material molecular separation processor that is configured to remove ingredients or edible oil ingredients.

Controlling the discharge amount control valve 8029 to control the amount of food waste and water discharged through the hopper can be changed as much as possible by a person concerned.

The achievements that can be obtained through the operation of the material molecule separation machine as described above include a fluid material molecule having a light specific gravity combined with contaminated soil or contaminated mud forming contaminated sediment sludge, and a pure material whose specific gravity is heavier than water. A process of continuously injecting soil and sedimentary sludge into the hopper 8080 and at the same time performing a process of continuously injecting clean water through the injection line 8001 and flowing into the hopper 8080 When discharging 80wt% to 99.99wt% to the outside through the discharge line 8028 by adjusting the discharge control valve 8029 coupled to the discharge line 8028 relative to 100wt% of water inflow, the remaining 0.1wt% The fluid material molecules with a light specific gravity of ~20 wt% are the eco-friendly material molecules through the material molecule collection port 250 and the fluid material molecule discharge port 251 through the upper end of the hopper 8080 by the action of gravity. It is the structure of the material molecule separation processing machine 1100 configured to separate and extract heavy metals having a light specific gravity combined with the contaminated soil by being discharged to the outside of the separation processing machine 1100.

The soils simultaneously discharged through the discharge line 8028 by the action of gravity collect the soil mixed with water in a separate collection container, and after the precipitation is completed, the water deposited in the collection container is removed, It is the structure of an eco-friendly material molecule separation processor that is configured to separate and reuse the soil.

After the process of processing as described above is performed for about 5 to 30 minutes, the injection line 8001 and the discharge control valve 8029 are both closed, and the inside of the discharge port 8030 is The discharge valve 8031 is gradually opened and processed food waste or processed soil or mud constituting the sedimentary sludge by putting it into the inside of the hopper 8080 is gradually discharged through the discharge port 8030 to be configured at the lower end. We present an eco-friendly material molecule separation processor configured to collect and process using a horizontal transfer conveyor belt unit 7000.

When the food waste is continuously hit by using the rotary striker 1523, a substance explosion occurs between the salt component and the cooking oil component combined with the water molecule and the food waste, and at the same time, the salt components and the cooking oil component At the same time as they are changed into foam components, their specific gravity becomes lighter than that of water and food waste due to material levitation, and they are floated to the upper side of the hopper 8080 by the action of gravity.

The fundamental reason for this kind of molecular levitation is that all substances undergo a substance explosion as soon as the ultrafine particles, which are their own components, come into contact, and at the same time, they change into gaseous components, and the hopper (8080) by the action of gravity. When comparing natural phenomena, when a wave hits in the sea, the seawater that has been converted into a gas by the material explosion effect that occurs when the material molecules that make up the seawater component come into contact with the material molecules change into bubbles of light specific gravity. It is possible to repeatedly witness the phenomenon that the material molecules and material molecules recombine into seawater after being floated to the upper layer of seawater by the action of gravity.

When standing on the beach hit by the waves due to this material explosion, you can directly witness the phenomenon of the fishy smell vibrating.

The phenomenon that the watery smell is vibrated on the beach is a phenomenon that the watery smell is more deeply generated because the substance explosion action that occurs when the substance molecules and substance molecules come into contact with the typhoon comes is strong.

When using the technology of claim 31 according to the 19th embodiment of the present invention using the substance explosion action and the substance pushing action described above, heavy metal components with light specific gravity contained in the contaminated soil and salt components contained in food waste It is logically understandable that field and cooking oil components can be easily separated and extracted from food waste.

The method of operating the conveyor belt unit 9000 and the transverse conveyor belt unit 7000 may be omitted because an automatic control technology can be applied.

Through the repetitive process as described above, it is an eco-friendly structure that separates and extracts fluid substance molecules such as salt or cooking oil mixed with food waste, or regenerates contaminated soil or mud constituting contaminated sediment sludge into pure soil It is an invention related to a material molecule separation processor.

In other words, it is the structure of an eco-friendly material molecule separation processor that is configured to separate and extract salt components or cooking oils mixed with food waste.

In other words, if the specific gravity of fluid material molecules separated and extracted from contaminated soil or sediment contaminated mud is reprocessed through a separate treatment process, the contaminated soil or contaminated sediment contaminated mud is simply reprocessed and recreated into pure soil. Present the skills that can be made.

In detail, when salt components or cooking oils mixed with food waste are diluted with water and blown and then mixed, they are automatically floated to the upper side of the hopper 8080 by the action of gravity, and additionally introduced specific gravity to heavy water molecules. An eco-friendly material configured to separate and extract to the outside of the hopper 8080 through the material molecule collection port 250 configured around the upper side of the hopper while the salt components and cooking oil components mixed with the food waste are pushed upward It is an invention related to a molecular separation processor.

When discharging water through the discharging line 8028 through this process, food wastes mixed with water and discharged simultaneously by the action of gravity are moved to a separate collection space, settled, and collected and recycled. It is possible to remove salt components and cooking oil contained in garbage.

The following describes claim 32 configured according to a twentieth embodiment of the present invention. FIG. 48 is a perspective view of an eco-friendly material molecule separating and processing machine constructed according to a twentieth embodiment of the present invention, and FIG. 49 is a separation consisting of an eco-friendly material molecule separating and processing machine constructed in accordance with a twentieth embodiment of the present invention Fig. 50 is a perspective view showing an eco-friendly material molecule separation processor constructed according to a twentieth embodiment of the present invention from a lower side to an upper side in a state in which it is separated in half, and Fig. 50 is a twentieth embodiment of the present invention The following is a half perspective view showing a state in which an intermediate separator that promotes the separation of fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity in a part of the interior of the eco-friendly material molecule separation processor configured according to the following. It is composed together.
The structure of the eco-friendly material molecule separation processor 1100 configured in a rectangular shape;
A structure in which a material molecule separation guide plate 2222 is formed in a form inclined toward one side and a multi-step step shape at the lower end of the eco-friendly material molecule separation processor 1100;
Each material molecule descending guide plate (101,301,501,701,901,9913) with an interval of 1mm to 200cm in the upward direction on the upper side of the material molecule separation guide plate 2222 configured in the environment-friendly material molecule separation processor 1100 It is a structure in which each material molecule separation compartment (100,200,300,400,500,600,700,800,900,991,992,993) is formed.
A structure in which a rotating striking body 9006 configured to be coupled with a rotating body 9005 acting to strike fluid material molecules or air at the lower end of the material molecule separation compartment 100,200,300,400,500,600,700,800,900,991,992,993, respectively;
A structure in which a fluid material molecule rising guide plate 201,401,601,801,9912 is formed between the material molecule separation compartments 100,200,300,400,500,600,700,800,900,991,992,993, respectively.
The size and configuration number of the material molecule descending guide plate, the material molecule separation compartment, and the fluid material molecule rising guide plate, respectively, can be configured by increasing or decreasing any number of times.
A structure in which an intermediate separator 991 is formed in each form between the material molecule separation compartment and the fluid material molecule rise guide plate.
The configuration of the intermediate separator may be changed to a shape of Cheon Tae-man.
The reason why the intermediate separator 991 is formed between the material molecule separation compartment and the fluid material molecule rise guide plate is that the fluid material molecules with heavy specific gravity and the fluid material molecules with light specific gravity can be easily used in the upper direction and the lower side. It is to induce separation while moving in the direction
A structure in which an intermediate separation membrane (9991) is formed in each shape between the material molecule separation compartment and the fluid material molecule rising guide plate;
A structure in which upper material molecule passages 202, 402, 602, 802, and 9911 are formed with an interval of 1 cm to 100 cm above the fluid material molecule rising guide plates 201, 401, 601, 801, and 9912;
By forming a gravity guide plate 9990 at a height of 1cm to 2m in the upper part with the material molecule separation guide plate 2222 as a starting point at the lower end of the fluid material molecule rising guide plate 201,401,601,801,9912 A structure in which the passages 2201 are configured, respectively.
A structure in which a material molecule induction film 996 is formed in a triangular shape on the upper side of the low-level water passage 2201.
The material molecule separation compartment (100,200,300,400,500,600,700,800,900,991,992,993) and the fluid material molecule rising guide plate (201,401,601,801,9912) has a structure in which each intermediate part movement passage 995 is formed.
The reason why the middle part movement passage 995 is configured is to act so that fluid material molecules having a heavy specific gravity push out fluid material molecules having a light specific gravity and move easily to the next compartment.
In addition, the contaminated air and the purified air are configured to act so that they can easily move upward.
The configuration of the intermediate part movement passage 995 may be composed of a layer on the material molecule separation compartment (100,200,300,400,500,600,700,800,900,991,992,993) and the fluid material molecule rising guide plate (201,401,601,801,9912).
In addition, the configuration can be changed in a shape such as a rectangle, triangle, square, rhombus, or diamond, and the configuration position can be changed as much as possible.
The size and configuration number of the intermediate separation membrane 991, the lower layer water passage 2201, and the upper layer material molecule passage may be increased or changed in shape.
As shown in Fig. 51, the structure of the material molecule induction film can be changed to a ∩-shaped shape, and since any change can be made according to the intention of the relevant vendor, all such design changes are the scope of the present invention. It is natural to belong to
On the upper part of the material molecule induction film 996, fluid material molecules with a heavy specific gravity are moved to the lower layer, and fluid material molecules with a light specific gravity are each configured with a material molecule transfer path 997 that acts to float upward. rescue;
A structure in which an injection pipe (7777) is formed between one side and the other side of the middle portion of the eco-friendly material molecule separation processor 1100;
The injection pipe (7777) has a structure comprising a plurality of ejection ports (7700) for supplying fluid material molecules or air;
A structure connected to the injection pipe 7777 by configuring a pump 7700 at a position 10% to 20% higher than the upper end position of the eco-friendly material molecule separator 1100 on one side of the injection pipe 7777 ;to be.
However, the configuration position of the pump can be changed any number of times.
A structure in which a second injection pipe (9901) is formed at the lower end of the injection pipe (7777);
The second injection pipe (9901) has a structure in which a plurality of second ejection ports (9902) are formed;
A structure in which a second pump 9900 configured to inject air or contaminated air or water or liquids is coupled to one side of the second injection pipe 9901; Eco-friendly material molecules combined with a nature-friendly, eco-friendly water purifier configured to separate fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity combined with fluid material molecules composed of air, water or liquid We present a separating machine.
The size and configuration number of the injection pipe 7777 and the second injection pipe 9901 may be increased or configured by different configuration types.
In addition, the configuration form of the pump is not particularly limited because it can be changed in a wide variety.
The soot combined with the contaminated air can be injected using the pump 7700 using the eco-friendly material molecular separation processor for both a nature-friendly eco-friendly water purifier configured as described above. In another embodiment, the second In a state in which water is continuously injected into the environment-friendly material molecule separation processor 1100 using a pump 9900, contaminated air is continuously injected using the pump 7700 to be combined with the contaminated air. It is possible to separate and process pollutant substance molecules.
It is natural that these modified embodiments also belong to the scope of the present invention.
Instead of the air pump, fluid material molecules are injected into the interior of the eco-friendly material molecule separator by using a different type of pump that injects fluid material molecules. Modified configuration is possible to separate and process material molecules

Next, a description will be given of claim 33 configured according to a twenty-first embodiment of the present invention.

FIG. 53 is a perspective view of a material molecule separating machine constructed according to a twenty-first embodiment of the present invention, and FIG. 54 is an exploded perspective view showing a material molecule separating machine constructed according to a twenty-first embodiment of the present invention by dividing it in half. It is composed as follows.

The structure of the material molecule separation processor 1100, which is composed of a plurality of pieces, is in the form of a hopper, the upper part is in a horizontal form, and the lower part is inclined from one side to the other, while at the same time separating material molecules so that it is inclined from the front to the rear. A structure in which the guide plate 2000 is configured;

자 형태로 구성하고, 상기 물질분자 수집구(250)의 일측에는 유체성 물질분자 배출구(251)를 구성한 구조;A material molecule collection port 250 is provided around the upper end of the eco-friendly material molecule separation processor 1100 to collect fluid material molecules with a light weight overflowing the upper end.

A structure having a shape of a ruler, and a fluid material molecule outlet 251 at one side of the material molecule collection port 250;

자의 형태로 구성되는 구조;An injection line 8001 through which fluid material molecules are introduced is provided at one side and a lower portion of the eco-friendly material molecule separation processor 1100.

A structure constructed in the form of a ruler;

A structure in which a connection pipe 1530 is coupled in a ∪ shape at the lower end of the eco-friendly material molecule separation processor 1100 configured in separate forms;

A structure of a discharge line 8028 coupled to a discharge control valve 8029 at a lower end of the material molecule separation processor 1100 configured at an end thereof; Separation of material molecules for both eco-friendly and eco-friendly water purifiers that are configured to separate fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity combined with fluid material molecules composed of air, water or liquid Present a processing machine

The following describes claim 34 configured according to a 22nd embodiment of the present invention.

52 is a schematic perspective view of an air ejection unit configured to be inserted into a material molecule separation processor according to a 22nd embodiment of the present invention, and is configured as follows.

A structure in which an air blowing unit 7007 provided with an air blowing port 7008 is inserted into the material molecule separation compartment;

The air blowing unit 7007 proposes a nature-friendly eco-friendly water purifier combined with a material molecule separation processor in which an air pump 7700 connected to an air injection pipe 7777 is combined.

The reason for this configuration is that the air supplied from the outside rapidly rises upward from the inside of the material molecule separation processing machine, and at the same time, the contaminant material molecules are combined with each other due to the opposite phenomenon, which is the substance binding action. It is to quickly injure and remove.

The configuration of the air blowing unit that blows air into the environment-friendly material molecular separation processor configured in each structure can be changed in a very wide variety.

Next, a description will be given of claim 35 configured according to a twenty-third embodiment of the present invention.
55 is a perspective view of a rotating strike body applied to claim 35 of the present invention.
A structure of a hinge shaft support (9011) configured on one side and the other side of the top of the eco-friendly material molecule separation processor (1100);
A structure of a crankshaft 9012 and a rotating body 9010 coupled to the white support shaft 9011;
A structure in which a vibration assembly (9013) coupled to the crankshaft (9012) is configured in the environment-friendly material molecular separation processor (1100);
After configuring the vibrator 9015 configured at the lower end of the vibration assembly 9013 inside the environment-friendly material molecular separation processor 1100, the rotating body 9010 is rotated.
By vibrating the crankshaft 9012, the vibration assembly 9013, and the vibrator 9015, which are configured to be coupled to the rotating body 9010, it strikes the fluid material molecules flowing into the interior of the eco-friendly material molecule separator. Thus, we present an eco-friendly material molecule separation machine configured to separate and process fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity combined with fluid material molecules.
The configuration of the rotating body 9010 can be changed by applying an electric motor operated by electric power or an actuator operated by hydraulic or pneumatic power.
The structure of the vibration assembly 9013 has been shown as an example using a spring, but it is changed by using a commonly used membrane, sponge, or nonwoven fabric, or a material in which holes in which fluid molecules such as water move are formed, such as mosquito nets. Configurable

The configuration of the vibrator 9015 can be configured by applying an object having a weight, and when the crankshaft rotates, it moves up and down and strikes fluid material molecules such as water flowing into the interior of the eco-friendly material molecule separation machine. Therefore, it is structured to play a role of striking so that fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity are separated naturally.

Next, a description will be given of claim 36 configured according to a twenty-fourth embodiment of the present invention.

FIG. 56 is a perspective view of an eco-friendly material molecule separating machine applied to a twenty-fourth embodiment of the present invention, and FIG. 57 is an exploded perspective view of an eco-friendly material molecule separating machine applied to the twenty-fourth embodiment of the present invention. It is composed as follows

The structure of the lower part of the material molecule separation machine configured to separate and process contaminated air or fluid material molecules is inclined in one direction and at the same time, the material molecule separation guide plate 2000 is combined to be inclined from the rear direction to the front direction. Structure; is.

In order to maintain the inclined shape from one side to the other, a support leg is formed on one side.

The structure of the eco-friendly material molecule separation processing machine 1100 in which the material molecule separation induction part 3301, which is a rhombic rectangle on the upper side of the material molecule separation guide plate 2000 and a triangular rhombus shape on the top, is combined.

The reason for this configuration is to easily separate fluid material molecules with heavy specific gravity from fluid material molecules with light specific gravity.

Between the upper one side and the other side of the material molecule separation guide plate 2000

The air injection pipe (7777) is configured, and the injection pipe (7777) has a structure in which a plurality of ejection ports (7700) are formed and then combined with a pump (7770).

Instead of an air pump, a general pump that injects fluid material molecules such as water can be applied to inject fluid material molecules such as water into the interior of the material molecule separation machine.

A structure in which a rotating striking body 1503 coupled with a plurality of rotating bodies 1502 is coupled in an opposite direction and an upward direction at the front rear and lower ends of the material molecule separation processor 1100.

The reason for configuring the rotating strike body to face each other in the opposite direction is that if the fluid material molecules are pumped while facing each other from one side and the other side, the fluid material molecules collide with each other and the specific gravity combined with the fluid material molecules is reduced. This is to induce the separation of light fluid material molecules and heavy fluid material molecules.

In addition, it is to easily separate the fluid material molecules with a heavy specific gravity from the fluid material molecules with a light specific gravity by rotating the rotary striker upward.

A structure in which a plurality of material molecule separation induction boxes 3300 are coupled to the upper end of the material molecule separation processor 1100 in the form of an inverted rhombus.

The reason for configuring the material molecule separation induction box 3300 in the form of an inverted rhombus is that fluid material molecules with heavy specific gravity push the fluid material molecules with light specific gravity upward and induce a material cut-off action that preferentially descends. Is for

자 형태로 구성하고, 상기 물질분자 수집구(250)의 일측에는 유체성 물질분자 배출구(251)를 구성한 구조;A material molecule collection port 250 is provided around the upper end of the material molecule separation processing machine 1100 to collect fluid material molecules with a light overflow from the upper end of the material molecule separation induction box 3300.

A structure having a shape of a ruler, and a fluid material molecule outlet 251 at one side of the material molecule collection port 250;

A structure of a discharge line 8028 coupled to a discharge control valve 8029 at one side of the lower end of the eco-friendly material molecule separation processor 1100;

A structure in which an injection line 8001 for introducing a fluid material molecule such as water is coupled to an upper side of the material molecule separation induction box 3300 formed on the other side of the material molecule separation processor 1100; It is configured to separate and extract fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity by striking fluid material molecules combined with fluid material molecules with air generated by the rotor and the air pump. Present the material and molecular separation machine

The size of the injection line 8001 is a structure in which 1% to 10% or more is larger than the size of the discharge line 8028.

The reason is that the amount of fluid substance molecules injected through the injection line 8001 is assumed to be 100 wt%, and when the flow is introduced, the discharge amount discharged through the discharge line 8028 is discharged from 90 wt% to 99.99 wt%. When given, the remaining 0.1wt% to 10wt% of fluid material molecules overflow the upper end of the material molecule separation induction box 3300 and go to the outside through the material molecule collection port 250 and the fluid material molecule discharge port 251. We present an eco-friendly material molecule separation machine that is constructed so that fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity are separated and processed while being separated and discharged.

Next, a description will be given of claim 37 according to a twenty-fifth embodiment of the present invention.

The structure of the eco-friendly material molecule separation processor 1100 that is in the shape of a rectangle and has a rectangular shape;

In the interior of the material molecule separation processing machine 1100, a plurality of the fluid material molecule rise guide plates 201,401,601,801,9912 and the material molecule movement passages 202,402,602,802,9911 in the upper layer, and

A structure in which a plurality of material molecule descending guide plates (101,301,501,701,901,9913) and a plurality of the material molecule separation compartments (100,200,300,400,500,600,700,800,900,991,992,993) are respectively configured;

Each component can be configured by increasing the number or changing the size.

A structure in which the rotary striking body 9006 configured to be coupled with the rotary body 9005 acting to strike fluid material molecules or air at the lower end of the eco-friendly material molecule separation processor;

The injection pipe (7777) has a structure in which a plurality of ejection ports (7700) for supplying fluid material molecules or air;

A structure in which a pump 7700 is configured at a position 10% to 20% higher than a position of an upper end of the eco-friendly material molecule separation processor 1100 on one side of the injection pipe 7777;

A structure in which a second injection pipe (9901) is formed at the lower end of the injection pipe (7777);

The second injection pipe (9901) has a structure in which a plurality of second ejection ports (9902) are formed;

At one side of the second injection pipe 9901, the pump 7700 and the inside of the material molecule separation processor 1100 coupled with a second pump 9900 configured to inject air or contaminated air or water or liquids A process of filling the interior of the material molecule separation processor 1100 with water using the injection pipe 7777 and the ejection port 7700;

A process of continuously injecting air into the material molecule separation processor 1100 by using the second pump 9900, the second injection pipe 9901, and the second ejection port 9902;

By controlling the discharge control valve 8029 coupled with the discharge line 8028, 0.01wt% to 10wt% of the water injected through the pump 7700 is added to the eco-friendly material molecule separation processor 1100. A process of continuously discharging to the outside through the combined discharging line 8028;

0.02wt% to 20wt% more than the amount of water discharged to the outside through the discharge line 8028 and consumed by 0.01wt% to 5wt% compared to 100wt% of water flowing into the material molecule separation processor 1100 A process of continuously replenishing and injecting water into the interior of the material molecule separation processor 1100 through the pump 7700;

The remaining 0.01wt% to 10wt% of water that cannot be discharged through the discharge line 8028 and overflows to the upper side of the eco-friendly material molecule separator 1100 is supplied to the material molecule collection port 250 and the fluid material molecule discharge port. We propose a nature-friendly eco-friendly processing method that cleanly purifies contaminated air by collecting and processing through (251).

In detail, the structure of the eco-friendly material molecule separation processor 1100 in which a plurality of ejection ports 7700 are formed in the injection pipe 777 configured in the eco-friendly material molecule separation processor 1100 and then combined with a pump 7700 ;

A structure in which a second injection pipe (9901) is formed at the lower end of the injection pipe (7777) configured in the eco-friendly material molecular separation processor (1100);

The second injection pipe (9901) has a structure in which a plurality of second ejection ports (9902) are formed;

A structure in which a plurality of rotating striking bodies 1503 are formed on one side and the other side of the environment-friendly material molecule separation processor 1100.

Pure fluid material molecules or pure fluid material molecules combined with contaminated air or contaminated fluid material molecules by configuring an injection pipe and a second injection pipe or a third injection pipe or a fourth injection pipe in the eco-friendly material molecule separation machine Since it is possible to change the configuration to extract the air, it is natural that all of these design changes belong to the scope of the present invention.

A second pump 9900 configured to inject fluid water molecules or air or contaminated air or water or liquids into one side of the second injection pipe 9901 into the interior of the eco-friendly material molecule separation processor 1100 By injecting fluid material molecules or contaminated air or air, and simultaneously hitting contaminated air or fluid material molecules flowing into the interior of the eco-friendly material molecule separation processor 1100 by using the rotary striker 1503 At the same time as processing, water is introduced into the interior of the material molecule separation processor 1100 through the pump 7700, and contamination that flows into the environment-friendly material molecule separation processor 1100 through the second pump 9900 Water flowing into the inside of the eco-friendly material molecule separation processor 1100 through the pump 7700 and the fluid material molecules with a light specific gravity and contaminants with a light specific gravity released from the contaminated air. By pushing up to the top of the eco-friendly material molecule separation processor 1100, contaminated air or contaminated fluid material molecules or fluid material molecules or contaminant molecules with a light specific gravity combined with contaminated air are separated and extracted. And clean processing suggests a nature-friendly eco-friendly separation processing method.

In detail, contaminated air or contaminated fluid material molecules are continuously introduced into the interior of the environment-friendly material molecule separation processor using the pump, and the second pump is used to clean the interior of the environment-friendly material molecule separation processor. When water is continuously introduced, fluid material molecules with light specific gravity and contaminated air with light specific gravity are floated to the upper side of the eco-friendly material molecule separator and separated by the action of gravity, and clean material molecules continuously introduced. As they are discharged downward, they propose an eco-friendly method that continuously separates and processes contaminant molecules with light specific gravity and fluid material molecules with heavy specific gravity.

The following describes a twenty-sixth embodiment constituted by claim 38 of the present invention.

A fluid material with a light specific gravity combined with fluid material molecules by using a multi-layer material molecule transfer path 5858 consisting of layers in the form of a plurality of passages through the upper layer material molecule movement path configured in the eco-friendly material molecule separation processor We present an eco-friendly material molecule separation machine that is configured to separate molecules and fluid material molecules with heavy specific gravity.

The reason why the multilayer material molecule movement passage 5858 is composed of layers is that all material molecules have different effects of gravity depending on their mass. Therefore, using the difference between specific gravity and mass, fluid material molecules with heavy specific gravity and light specific gravity In order to easily separate the fluid material molecules, the multi-layer material molecule movement passage 5858 is configured in layers.

Fig. 59 is a perspective view showing a state in which the configuration of a multilayer material molecule movement passage 3333 shown inside the material molecule separation processing machine is composed of layers in different shapes such as circular, pentagonal, or diamond

Next, a twenty-seventh embodiment constructed according to claim 39 of the present invention will be described.

60 is a schematic perspective view of a fluid material molecule rising guide plate constructed according to a 27th embodiment of the present invention, and FIG. 61 is a schematic perspective view of a material molecule descending guide plate constructed according to the 27th embodiment of the present invention. Is composed of

The structure of the plurality of material molecule descending guide plates 101,301,501,701,901,9913 and the plurality of fluid material molecule rising guide plates 201,401,601,801,9912 configured inside the material molecule separation processor 1100 is configured in the form of a double layer And a structure configured with an ejection port 555 for ejecting fluid material molecules or air on one side;

At one side of the ejection port 555, an eco-friendly material molecular separation machine comprising a pump 558 coupled with a supply pipe 556 is presented.

The reason for configuring the structure of the material molecule descending guide plate and the fluid material molecule rising guide plate, each of which is made up of a plurality of materials inside the material molecule separation processor, is in the form of a double layer, and the ejection port 555 is configured is the pump (558) is used to continuously supply air or fluid material molecules into the interior of the material molecule separation processing machine 1100, so that the specific gravity combined with the fluid material molecules or contaminated air is light, or the specific gravity This is to induce light fluid material molecules to be easily separated into an upper layer and a lower layer.

After configuring a pipe that is coupled with an air supply device in the middle of the material molecule descending guide plate (101,301,501,701,901,9913) and the plurality of fluid material molecule rising guide plates (201,401,601,801,9912), It is natural that the method of configuring the air outlet is also within the scope of the present invention.

The following describes claim 40, which is constructed in accordance with the 28th chapter of the present invention.

Fig. 62 is a half perspective view showing an interior of a material molecule separating machine constructed in accordance with a 28th embodiment of the present invention, and is constructed as follows.

A structure in which a multilayer space 2020 is formed by using a plurality of partitions 2010 at a lower end of the eco-friendly material molecule separation processor 1100;

The partition 2010 has a structure in which each movable hole 2030 is formed in the upper and lower directions;

A structure configured by combining a pump 5570 coupled with a supply pipe 5560 on the other side of the multilayer space 2020;

The installation location of the pump is a structure that is installed at a place about 10% to 30% higher than the upper side of the eco-friendly material molecule separation processor.

A structure in which a material molecule separation guide plate 2000 is formed on the upper side of the double-layer space 2020 in a shape inclined in one direction and inclined in a rear to front direction;

On the upper side of the material molecule separation induction plate 2000

A plurality of the fluid material molecule rising guide plate (201,401,601,801,9912) and the upper layer material molecule movement passage (202,402,602,802,9911),

A structure in which a plurality of the material molecule descending guide plates (101,301,501,701,901,9913) and a plurality of the material molecule separation compartments (100,200,300,400,500,600,700,800,900,991,992,993) are each configured; proposes an eco-friendly material molecule separation processing machine consisting of

A structure constituting the material molecule collection port 250 and the fluid material molecule discharge port 251 on the upper part of the material molecule separation processor is omitted.

In addition, the structure and description of the injection line and discharge line have been omitted.

The following describes claim 42 configured according to a 29th embodiment of the present invention.

FIG. 65 is a perspective view of an eco-friendly material molecule separating machine applied to a 29th embodiment of the present invention, and FIG. 66 is an exploded perspective view of an eco-friendly material molecule separating machine applied to the 29th embodiment of the present invention. 67 is a perspective view of an eco-friendly material molecule separating machine showing a modified state of the 29th embodiment of the present invention, and FIG. 68 is a perspective view of the eco-friendly material molecule separating machine showing a modified state of the 29th embodiment of the present invention. It is an exploded perspective view divided in half, and FIG. 69 is a part showing a coupling relationship between a rotating body, a rotating striking body, an injection pipe, and a second injection pipe applied to the material molecule separation machine according to the 29th embodiment of the present invention FIG. 70 is a partial perspective view showing a coupling structure of a material molecule separation processor and a fluid material molecule rising guide plate configured in the interior of the material molecule mixer unit according to a 29th embodiment of the present invention, and FIG. It is a top perspective view as viewed from the top of the material molecule separation processor in a state in which one side of the material molecule separation processor configured according to the invention 29 is cut, and FIG. 72 is a material molecule separation processor and a material molecule mixer unit configured according to the invention 29 Is a partial perspective view showing the coupling relationship between the fluid material molecule rising guide plate and the upper layer material molecule movement path, and FIG. 73 is an interior of the material molecule separation processor and the material molecule mixer unit configured according to the 29th embodiment of the present invention. It is a partial perspective view showing the coupling relationship between the rotating body, the rotating striking body, the material molecule descending guide plate, the fluid material molecule rising guide plate, and the plurality of upper layer material molecule moving passages and the injection pipe, and FIG. Part showing the coupling relationship between the material molecule descending guide plate and the fluid material molecule rising guide plate and the plurality of upper layer material molecule flow paths and the injection pipe, which are constructed inside the material molecule separation processor and the material molecule mixer unit constructed in accordance with 29 It is constructed as follows as a perspective view.

The upper structure of the eco-friendly material molecule separation processor 1100, which has a horizontal shape, a rectangular shape, and a rectangular shape;

A structure in which a material molecule mixer unit 2288 configured in a rhombic shape and inclined in a direction from one side to the other is formed at the lower end of the material molecule separation processor 1100.

The reason that the size of the material molecule mixer unit 2288 is made larger than the size of the eco-friendly material molecule separation processor configured on the upper side is that fluid material molecules or material molecules with a lighter specific gravity released from contaminated air This is to induce them to easily float upwards while being pushed by these heavy fluid material molecules.

The structure of the material molecule mixer unit 2288 can be changed into a rhombus shape or an octagonal shape or a hexagonal shape.

A structure in which an injection line 8001 for injecting fluid material molecules such as water is coupled to an upper portion of one side of the material molecule separation processor 1100.

Air may be injected or contaminated air may be injected through the injection line.

A material molecule collection port 250 and a fluid material molecule discharge port 251 are formed at an upper edge of the material molecule separation processor 1100.

The reason that the material molecule collection port is formed on the upper side of the material molecule separation machine is a structure configured to collect fluid material molecules with a light specific gravity.

A structure in which a discharge line 8028 coupled with a discharge control valve 8029 is configured at the lower end of the other side of the material molecule separation processor 1100.

The size of the discharge line is configured to be about 0.1 to 5% smaller than the size of the injection line.

A structure in which a discharge line coupled with a discharge control valve is configured at the lower end of the other side of the material molecule separation machine;

A plurality of material molecule descending guide plates (101,301,501,701,901,9913,9915) are configured in the form of inclined multi-steps in the interior of the material molecule separation processor;

A structure in which a plurality of material molecule passages (102, 302, 502, 702, 902, 1012, and 1022) are combined in the form of inclined multi-stages at the lower end of the material molecule descending guide plate (101,301,501,701,901,9913,9915);

In the next compartment of the material molecule descending guide plate (101,301,501,701,901,9913,9915), each material molecule separation compartment (100,200,300,400,500,600,700,800,900,991,992,993.994,995) is a structure in which the material molecule mixer unit 2288 and the material molecule mixer unit 2288 are inclined in a multi-step form;

In the next compartment of the material molecule separation compartment (100,200,300,400,500,600,700,800,900,991,992,993.994,995,996), there are a plurality of fluid material molecule rising guide plates (201,401,601,801,9912,9914,9917) and a plurality of upper material molecule passages (202,402,602,802,9911,9916). A structure configured to be combined in an inclined form, respectively;

In the interior of the material molecule mixer unit 2288, a rotating striking body 1503, which is configured to be combined with a plurality of rotating bodies 1502 acting to strike fluid material molecules or air, face each other in a diagonal direction. A structure configured in each direction;

;to be.

The installation interval can be configured by arbitrarily adjusting the size and width according to the material to be treated.

The composition of the material molecule descending guide plate and the material molecule separation compartment can be configured by increasing or decreasing the number according to the material to be processed and the properties of the material.

The size can be changed as much as possible depending on the material to be treated.

Therefore, after the material molecule descending guide plate, the material molecule separation compartment, the fluid material molecule rising guide plate, and the upper layer material molecule movement passages are constructed by different shapes and sizes or different installation numbers, the fluid material molecules and contaminated air It is natural that all of the environment-friendly material and molecular separation processors configured to purify the particles belong to the scope of the present invention.

In the material molecule mixer unit 2288, a rotating striking body 1503 configured to be coupled with a rotating body 1502 acting to strike fluid material molecules or air is opposed to each other in a form facing each other in each direction. Each constructed structure; is.

The reason for constructing the rotating striker 1503 in a face-to-face shape is to induce fluid material molecules with a light specific gravity to rise directly to the top of the eco-friendly material molecule separator. Another reason is that the undissolved specific gravity is This is to stimulate the action of striking light fluid material molecules and decomposing them into fine ultrafine particles.

An injection pipe (7777) is formed in the material molecule mixer unit (2288);

The injection pipe (7777) has a structure in which a plurality of ejection ports (7700) are provided to supply fluid material molecules or air.

The substances introduced into the interior of the eco-friendly material molecular separation processor 1100 through the injection pipe 7777 are very diverse, such as water, contaminated wastewater, beverages such as milk or alcohol, seawater or food waste, or livestock or human meal. It is not limited to a special material because it can be changed and injected.

A structure in which a pump 7700 is configured at a position 10% to 20% higher than the upper end position of the eco-friendly material molecule separator 1100 on one side of the injection pipe 7777.

Materials that are connected to the pump and introduced into the interior of the eco-friendly material molecular separation processor through the injection pipe are sewage treatment plants, waterworks treatment plants, general plants, thermal power plants, steel mills, chemical plants, pig farms, poultry plants, and wastewater or pollution. Connection configuration is possible to inject air

A structure in which a second injection pipe (9901) is formed at the lower end of the injection pipe (7777);

A structure in which a second injection pipe (9901) is coupled inside the material molecule mixer unit (2288);

The second injection pipe (9901) has a structure in which a plurality of second ejection ports (9902) are formed;

At one side of the second injection pipe 9901, an eco-friendly material molecular separation processor configured to be coupled with a second pump 9900 configured to inject air or contaminated air or water or liquids is presented.

Contaminated material or contaminated air is injected into the material molecule separation machine through the second pump and the second injection pipe configured according to the 29th embodiment of the present invention, The method of separating and processing material molecules can be varied in a wide variety of configurations.

Therefore, it is natural that all of the changes of the environment-friendly material molecule separation machine by using the third pipe or the fourth to tenth pipes in addition to the first and second injection pipes belong to the scope of the present invention.

A process of purifying contaminated air using the eco-friendly material molecule separation processor will be described.

A process of filling the interior of the material molecule separation processor 1100 with water using the pump 7700, the injection pipe 777, and the ejection port 7700 inside the material molecule separation processor 1100;

A process of continuously injecting clean air or contaminated air using the second pump 9900, the second injection pipe 9901 and the second outlet 9902 configured in the material molecule separation processor 1100 and;

By controlling the discharge control valve 8029 coupled with the discharge line 8028, 0.01wt% to 10wt% of the water injected through the pump 7700 is added to the eco-friendly material molecule separation processor 1100. A process of continuously discharging to the outside through the combined discharging line 8028;

0.02wt% to 20wt% more than the amount of water discharged to the outside through the discharge line 8028 and consumed by 0.01wt% to 5wt% compared to 100wt% of water flowing into the material molecule separation processor 1100 A process of continuously replenishing and injecting water into the interior of the material molecule separation processor 1100 through the pump 7700;

The remaining 0.01wt% to 10wt% of water that cannot be discharged through the discharge line 8028 and overflows to the upper side of the eco-friendly material molecule separator 1100 is supplied to the material molecule collection port 250 and the fluid material molecule discharge port. It can be applied to cleanly purify contaminated air by collecting and processing through (251).

In detail, the structure of the eco-friendly material molecule separation processor 1100 in which a plurality of ejection ports 7700 are formed in the injection pipe 777 configured in the eco-friendly material molecule separation processor 1100 and then combined with a pump 7700 ;to be.

A structure in which a second injection pipe (9901) is formed at the lower end of the injection pipe (7777) configured in the eco-friendly material molecular separation processor (1100);

The second injection pipe (9901) has a structure in which a plurality of second ejection ports (9902) are formed;

A rotating striking body configured to be combined with a plurality of rotating bodies 1502 in the upper and lower diagonal directions and one and the other diagonal directions of the substance molecule mixer unit 2288 configured at the lower end of the eco-friendly substance molecule separation processor 1100 It is a structure in which (1503) is formed in opposite directions facing each other.

In detail, if contaminated fluid material molecules are injected into the interior of the eco-friendly material molecule separation machine through the injection line 8001 while the rotating striking body 1503 configured to be coupled with the rotating body 1502 is operated, In the material molecule separation compartment (100,200,300,400,500,600,700,800,900,991,992,993.994,995) primarily by the action of gravity, fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity are automatically separated in the up and down directions, and at the same time by the action of gravity. It is separated in the up and down directions by fluid material molecules that are continuously introduced. In detail, a material molecule separation action in which fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity are automatically separated in the vertical direction becomes more active.

At the same time, by the striking action of the rotary striking body 1503 and the blow of the air ejected from the ejection port 7700, the upper and lower separation actions are made more active.

At the same time, material molecules having a high specific gravity released from the contaminated fluid material molecules are inclined along the inclined surface of the material molecule mixer unit 2288, and the fluid material molecule rising guide plate 201,401,601,801,9912, configured in multiple steps, 9914), after passing through a plurality of upper layer material molecule passages (202,402,602,802,9911,9916), the material molecule descending guide plate (101,301,501,701,901,9913,9915), which has a multi-stage structure inclined After passing again, after passing through a number of material molecule separation bins (100,200,300,400,500,600,700,800,900,991,992,993.994,995) continuously, they are finally discharged through the discharge line 8028 configured at the end, and at the same time, pollutant fluid material molecules with a light specific gravity The eco-friendly material is discharged to the outside of the eco-friendly material molecule separation processor through the material molecule collection port 250 and the fluid material molecule discharge port 251 configured on the upper side of the eco-friendly material molecule separation processor, and is configured to collect and process separately. We present a nature-friendly eco-friendly separation method using a material molecule separation processing machine.

Pure fluid material molecules combined with contaminated air or contaminated fluid material molecules by additionally configuring an injection pipe and a second injection pipe or a third injection pipe or a fourth injection pipe in the eco-friendly material molecule separation machine Alternatively, since the configuration can be changed to extract pure air, it is natural that all of these design changes belong to the scope of the present invention.

A second pump 9900 configured to inject fluid water molecules or air or contaminated air or water or liquids into one side of the second injection pipe 9901 into the interior of the eco-friendly material molecule separation processor 1100 By injecting fluid material molecules or contaminated air or air, and simultaneously hitting contaminated air or fluid material molecules flowing into the interior of the eco-friendly material molecule separation processor 1100 by using the rotary striker 1503 At the same time as processing, water is introduced into the interior of the material molecule separation processor 1100 through the pump 7700, and contamination that flows into the environment-friendly material molecule separation processor 1100 through the second pump 9900 It is possible to separate the low specific gravity fluid material molecules and the light specific gravity contaminants that are released from the contaminated air.

In other words, we propose a material molecule separation machine that can be used to separate and extract contaminated air or contaminated fluid material molecules or fluid material molecules or contaminant molecules with a light specific gravity combined with contaminated air for clean processing.

After the pump and the second pump are combined with the pollutant molecule ejection port that discharges the second pump from the factory, wastewater treatment plant, or water supply treatment plant, contaminated air or contaminated fluid material molecules are injected into the interior of the eco-friendly material molecule separator for separation processing It is a matter of course that all of them fall within the scope of the present invention.

Next, a description will be given of claim 42 configured according to a 30th embodiment of the present invention.

FIG. 75 is a perspective view of a material molecule separating and processing machine constructed according to a 30th embodiment of the present invention, and FIG. 76 is a separation consisting of an eco-friendly material molecule separating and processing machine constructed according to a 30th embodiment of the present invention. It is a perspective view, and FIG. 77 is a perspective view of an eco-friendly material molecule separating machine, and FIG. 78 is a perspective view of an eco-friendly material molecule separating machine configured according to a 30th embodiment of the present invention. It is an exploded perspective view of an eco-friendly material molecular separation machine showing a modified state by dividing it in half, and is configured as follows.

The structure of the material molecule mixer unit 2288 is configured to be inclined to the upper side of the eco-friendly material molecule separation processing machine configured in an inclined shape while the upper end is a horizontal structure;

The structure of the material molecule descending guide plate (101,301,501,701,901,9913,9915) configured in multiple stages along the slope of the eco-friendly material molecule separation processor and the material molecule mixer unit (2288);

The structure of the material molecule movement path (102,302,502,702,902,1012,1022) configured at the lower end of the material molecule descending guide plate (101,301,501,701,901,9913,9915);

A structure of a plurality of material molecule separation compartments (100,200,300,400,500,600,700,800,900,991,992,993.994,995,996) formed between the material molecule descending guide plates (101,301,501,701,901,9913,9915);

The structure of a fluid material molecule rising guide plate (201,401,601,801,9912,9914,9917) consisting of multiple stages in each of the following stages of the material molecule separation compartment (100,200,300,400,500,600,700,800,900,991,992,993.994,995,996);

This is the structure of the upper layer material molecule movement passages 202,402,602,802,9911,9916 each configured on the upper side of the fluidic material molecule rising guide plates 201,401,601,801,9912,9914,9917.

In the interior of the material molecule mixer unit 2288, which is combined with the lower end of the eco-friendly material molecule separation processor 1100, the fluid material molecules with a light specific gravity are lowered to the upper side while exhibiting an action of lowering the fluid material molecules having a heavy specific gravity. As shown in Fig.76 and Fig.78, the upper and lower guide plate body 3386 for material molecules acting to float

It presents the structure of an eco-friendly material molecule separation processor that is configured in a multi-stage inclined form to separate and extract fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity.

The reason why the material molecule separation guide plate 388 is configured for each compartment in a triangular shape in the interior of the material molecule mixer unit 2288 inclined from one side to the other side This is to induce the light fluid material molecules to be easily separated in the up and down directions.

The lower side is wide and the upper side is not in the shape of a narrow rhombus or triangular shape, but it is natural that all of these design changes belong to the scope of the present invention, as the effect to be exerted in the present invention can be obtained even if it is installed slightly at an angle.

In the interior of the material molecule separation guide plate body (3388), a plurality of multi-layer material molecule movement passages (3333) are formed, so that fluid material molecules having a heavy specific gravity can move from one direction to the other or downstream by the action of gravity. Changeable configuration is possible to facilitate

In addition, by inserting a plurality of multilayer material molecule passages 3333 into the fluid material molecule rising guide plate (201,401,601,801,9912,9914,9917), it is also seen to easily separate and extract fluid material molecules with heavy specific gravity. It is natural to fall within the scope of the present invention.

The following describes claim 43 constituted according to a thirty-first embodiment of the present invention.

FIG. 79 is a perspective view of an eco-friendly material molecule separating and processing machine constructed according to a 31st embodiment of the present invention, and FIG. 80 is a separation showing the eco-friendly material molecule separating and processing machine constructed in accordance with a 31st embodiment of the present invention. FIG. 81 is an exploded perspective view showing the coupling relationship of the material molecule descending guide plates configured in the eco-friendly material molecule separation machine according to the 31st embodiment of the present invention, and FIG. 82 It is a separated perspective view showing the configuration of the fluid material molecule rise guide plate composed of the eco-friendly material molecule separation machine, and is composed as follows.

Each basic pedestal is configured on the floor, and a material molecule processing unit 2299 is configured in a circular shape inclined from one direction to the other on the upper side of the basic pedestal.

A structure in which a plurality of rotating striking bodies 1503 are combined with a rotating body around the circular circumference of the material molecule processing unit 2299;

Although it is preferable to install the rotary striker in opposite directions facing each other, it is possible to change the configuration so that the directions are different from each other.

Also, it can be configured so that the directions of rotation are staggered.

The material molecule processing unit can be modified in a wide variety of configurations, such as a square, a rhombus, or a cross-section of a star.

A structure of an eco-friendly material molecule separation processor 1100 configured to be combined with the material molecule processing unit 2299 in a rectangular box shape;

A structure in which a material molecule collection port 250 for collecting fluid material molecules having a light specific gravity and a fluid material molecule discharge port 251 are formed around the upper circumference of the eco-friendly material molecule separation processor 1100.

It is preferable to configure it to be 1% to 30% higher than the height of the upper side of the eco-friendly material molecular separation processor, but the configuration can be changed as much as possible.

A structure in which an injection pipe (7777) is formed through the left and right sides of the material molecule processing unit (2299);

The structure of the eco-friendly material molecule separation processor 1100 in which a plurality of ejection ports 7700 are formed in the injection pipe 7775 and then combined with a pump 7700.

In the state in which the rotary striker 1503 is operated, fluid material molecules such as water are injected through the injection line 8001, and at the same time, the environment-friendly material molecule separation process is contaminated through the pump and the injection pipe. It is natural that all of these design modification methods fall within the scope of the present invention, since fluid material molecules such as contaminated air or contaminated wastewater can be simultaneously injected to extract material molecules with a light specific gravity contained in contaminated air.

A structure in which an injection line 8001 is formed on one side of the material molecule separation processor 1100;

A structure in which a discharge line 8028 coupled with a discharge control valve 8029 is configured in the other direction of the material molecule separation processor 1100;

By inducing the action of gravity between the inner one side and the other side of the eco-friendly material molecule separation processor 1100, the fluid material molecules with heavy specific gravity are lowered, while the fluid material molecules with light specific gravity act to float upward. A structure in which the material molecule separation guide rods 1188 and 1199 are inserted in the form of a square or circular rod.

By using the action of gravity in reverse, the fluid substance molecules or gaseous substances with light specific gravity act to float upward, and the fluid substance molecules or gaseous substance molecules with heavy specific gravity act to move downward. The shape and configuration of the material molecule separation guide rods 1188 and 1199 can be changed in a wide variety.

For example, since the configuration can be changed in a form inclined from one direction to the other, it is natural that all such design changes belong to the scope of the present invention.

Inside the eco-friendly material molecule separation processor 1100, a plurality of material molecules fall through the material molecule separation guide rods 1188 and 1199 and the injection pipe 7777 in the form of a wide lower end and a narrow triangle at the upper end. A structure in which a guide plate (101,301,501,701,901,9913) and a plurality of fluid material molecule rising guide plates (201,401,601,801,9912,9914) are formed to form respective material molecule separation compartments (100,200,300,400,500,600,700,800,900,991,992,993.994).

The reason why the upper part is in a narrow shape and the lower part in a wide triangle shape is to generate a greater effect of gravity.

In detail, since all gaseous and fluid material molecules are governed by gravity, material molecules with light specific gravity are pushed upward by material molecules with heavy specific gravity and move upward while material molecules with heavy specific gravity are lower. This structure is constructed to reliably separate and extract fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity by more reliably using the basic principles of the material pushing action and the material cutting action that are first discharged in the direction.

It is natural that all of the present inventions belong to the scope of the present invention since the configuration of the 31st embodiment of the present invention is modified to enhance the action of gravity.

A structure in which each material molecule movement path 102,302,502,702,902,1012 is configured at the lower end of the material molecule descending guide plate (101,301,501,701,901,9913).

The configuration of the material molecule descending guide plate can be configured by increasing or decreasing the number as much as possible.

The structure of an eco-friendly material molecule separation processing machine in which each upper material molecule movement path 202,402,602,802,9911,9916 is formed at the upper end of the fluid material molecule rising guide plate 201,401,601,801,9912,9914 is presented.

The following describes claim 44 constituted according to a 32nd embodiment of the present invention.

83 is a perspective view of an eco-friendly material molecular separation machine constructed in accordance with a 32nd embodiment of the present invention;

FIG. 84 is an exploded perspective view showing an eco-friendly material molecule separating processor configured in accordance with a 32nd embodiment of the present invention, and FIG. 85 is an eco-friendly material molecule separating processor configured in accordance with a 32nd embodiment of the present invention. This is a perspective view of a multi-stage eco-friendly material molecule separation processor showing a state of purifying contaminated fluid material molecules or contaminated air by installing in multiple stages, and is constructed as follows.

The lower part has a material molecule separation guide plate 2000 inclined from one side to the other side; A structure in which a material molecule separating unit 2299 is formed on the upper side of the material molecule separating guide plate 2000 in a rectangular shape and a horizontal upper end thereof;

The upper end of the material molecule separating unit 2299 has a rhombic shape at the lower end and the upper end has a horizontal upper end structure of the material molecule separating unit 2299;

In the interior of the material molecule separation unit 2299, a plurality of material molecule descending guide plates 101 and 301 including a material molecule movement path 102 and a plurality of material molecule movement paths 202 are configured respectively. The structure of the material molecule separation processor 1100 to which the plate 101 is combined;

In the interior of the material molecule separation processing machine 1100, a plurality of material molecule descending guide plates 101 and 301 including a material molecule movement path 102 and a plurality of material molecule movement paths 202 are configured respectively. The structure of the material molecule separation processor 1100 in which the guide plate 101 is configured, respectively;

A structure in which a material molecule collection port 250 for collecting fluid material molecules having a light specific gravity and a fluid material molecule discharge port 251 are formed around the upper circumference of the eco-friendly material molecule separation processor 1100;

A structure in which an injection pipe (7777) is formed through the left and right sides of the material molecule separation machine;

The structure of the eco-friendly material molecule separation processor 1100 in which a plurality of ejection ports 7700 are formed inside the injection pipe 7700 and then combined with a pump 7700;

A structure in which a plurality of rotating striking bodies 1503 configured to be coupled to a rotating body 1502 are opposed to each other at one side, the other side, and a lower end of the material molecule separation processor;

A structure in which an injection line 8001 is formed on one side of the material molecule separation processor 1100;

In the other direction of the material molecule separation processor 1100, a material molecule separation processor 1100 comprising a discharge line 8028 coupled with a discharge control valve 8029 is configured in a multi-stage layer to form contaminated fluid material molecules or contamination. We present an eco-friendly material molecular separation machine that is configured to purify the filtered air.

Contamination by using the rotary striker 1503 while continuously injecting contaminated fluid material molecules through the injection line 8001 into the material molecule separation processing machine 1100 configured in layers as described above. Separation of material molecules constituted in the next step through the discharge line 8028 to 90% to 99.99% of 100% of the total amount of inflow flowing through the injection line 8001 while continuously striking the formed fluid material molecules By sequentially discharging to the inside of the processing machine for collection and use, 0.01% to 10% of fluid material molecules with a light remaining specific gravity are sequentially collected through the material molecule collection port 250 and the fluid material molecule discharge port 251 This is a technology related to a multi-stage eco-friendly material molecule separation machine that is configured to separate and extract fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity that are combined with the fluid material molecules by processing.

In addition, air is continuously injected into the interior of the material molecule separation machine through the ejection port 7700 configured in the injection pipe 777 coupled with the pump 7700, thereby contaminating fluid material molecules by blow processing. Clean air and contaminated air combined with contaminated air can be separated and processed by separating and processing the resulting fluid material molecules and heavy fluid material molecules or by injecting contaminated air.

The number of material molecule separation and processing machines that are composed of layers in multiple stages can be increased or decreased as much as possible.

The following describes claim 45 constituted according to a 33rd embodiment of the present invention.
Fig. 86 is a perspective view of an eco-friendly material molecular separation machine constructed according to a 33rd embodiment of the present invention;
FIG. 87 is an exploded perspective view showing an eco-friendly material molecular separation machine configured according to a 33rd embodiment of the present invention by dividing it in half, and is configured as follows.
A basic pedestal is formed on the bottom, and the upper side of the basic pedestal is in the form of a multi-layered and flying saucer, and the middle portion is wide and the upper and lower portions are narrow. Structure consisting of lower bonding;
A structure in which a rotating striking body 1503 configured to be coupled to a plurality of rotating bodies 1502 is formed in an opposite direction facing each other in the vertical direction of the material molecule separation unit 3332;
In the lower layer of the material molecule separation unit 3322, a discharge line 8028 coupled with the discharge control valve 8029 is configured in the shape of a letter so as to preferentially discharge fluid material molecules having a heavy specific gravity;
A structure including a material molecule collection port 250 for collecting fluid material molecules having a light specific gravity and a fluid material molecule discharge port 251 around the upper circumference of the material molecule separation unit 3322;
A structure in which an injection pipe (7777) is formed through the vertical direction in the material molecule separation unit (3332);
The structure of the eco-friendly material molecule separation processor 1100 in which a plurality of ejection ports 7700 are formed in the injection pipe 7775 and then combined with a pump 7700 at the upper end;
An injection line 8001 is formed on one side of the material molecule separation unit 3332 to continuously inject fluid material molecules, and then into the interior of the material molecule separation unit 3332 using the rotary striker 1503. By continuously striking the incoming fluid material molecules and at the same time continuously injecting air through the injection pipe (7777) and the ejection port (7700) coupled to the pump (7770) to continuously strike the fluid material molecules. At the same time as processing, 90% to 99.99% of the total amount of fluid substance molecules introduced through the injection line 8001 is continuously discharged through the discharge line 8028, and the remaining 0.01% to 10% is discharged. Separately and discharged through the material molecule collection port 250 and the fluid material molecule outlet 251 to separate and extract fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity combined with fluid material molecules We present an eco-friendly material and molecular separation machine configured to
In detail, since all fluid and gaseous substances are governed by gravity, fluid substance molecules with heavy specific gravity tend to move downward, while fluid substance molecules with light specific gravity tend to move upward. There is this.
Using the action of gravity, we provide a technology that separates the light-weight fluid material molecules and the heavy-weight fluid material molecules combined with the pollutant material molecules.

The following describes claim 46 configured according to a 34th embodiment of the present invention.

88 is a perspective view of an eco-friendly material molecular separation machine constructed according to a 34th embodiment of the present invention;

FIG. 89 is an exploded perspective view showing an eco-friendly material molecule separating machine configured in accordance with a 34th embodiment of the present invention; FIG. 90 is an eco-friendly material molecule separating machine configured in accordance with a 34th embodiment of the present invention. It is a perspective view composed of multi-level layers and is composed as follows.

A structure in which the material molecule separation processor 1100 is configured in the form of a material molecule separation unit 3355 in a horizontal shape while the upper end thereof has a rectangular shape;

A structure comprising a material molecule collection port 250 for collecting fluid material molecules having a light specific gravity and a fluid material molecule discharge port 251 around the upper circumference of the material molecule separation unit 3355;

A structure in which a plurality of rotating striking bodies 1503 configured to be coupled to the rotating body 1503 in a shape facing each other around the material molecule separation unit 3355 are configured;

A structure in which an injection line 8001 is coupled to an injection amount control valve 8088 at an upper side of the material molecule separation unit 3355;

At the lower end of the material molecule separating unit 3355, a material molecule separation processing machine consisting of a discharge line 8028 coupled with a discharge control valve 8029 is configured in a multi-layered form in multiple stages, and the specific gravity combined with the fluid material molecules We present a material molecule separating machine consisting of multiple layers of layers to separate these heavy fluid material molecules from the light fluid material molecules.

The following describes claim 47 configured according to a thirty-fifth embodiment of the present invention.

Fig. 92 is a perspective view of an eco-friendly material molecular separation machine constructed according to a 35th embodiment of the present invention;

FIG. 93 is an exploded perspective view showing an eco-friendly material molecule separating machine configured according to a 35th embodiment of the present invention, and FIG. 94 is an exploded perspective view showing an eco-friendly material molecule separating machine configured according to a 35th embodiment of the present invention. It is configured as follows as an exploded perspective view showing partially opened.

Each basic pedestal is configured on the floor, and a material molecule processing unit 2299 is formed on the upper side of the basic pedestal in the shape of a rhombus inclined from one direction to the other;

A structure in which a plurality of rotating striking bodies 1503 are coupled with a rotating body 1502 in a direction opposite to each other around the material molecule processing unit 2299;

A structure of an eco-friendly material molecule separation processor 1100 configured to be combined with the upper side of the material molecule processing unit 2299 in a rectangular box shape;

A structure in which a material molecule collection port 250 for collecting fluid material molecules having a light specific gravity and a fluid material molecule discharge port 251 are formed around the upper circumference of the eco-friendly material molecule separation processor 1100;

A structure in which an injection pipe (7777) is formed through the left and right sides of the material molecule processing unit (2299);

The structure of the eco-friendly material molecule separation processor 1100 in which a plurality of ejection ports 7700 are formed inside the injection pipe 7700 and then combined with a pump 7700;

A structure in which a second pump 9900, a second injection pipe 9901, and a second ejection port 9902 are formed in the material molecule separation processor 1100;

A structure in which an injection line 8001 is formed on one side of the material molecule separation processor 1100;

A structure in which a discharge line 8028 coupled with a discharge control valve 8029 is formed in the other direction of the material molecule separation processor 1100;

A plurality of material molecule descending guide plates 101,301,501,701,901,9913,9915 are formed in the environment-friendly material molecule separation processor 1100; A structure in which a plurality of lower part material molecule movement passages 102,302,502,702,902,1012,1022 are respectively configured to preferentially discharge fluid material molecules with heavy specific gravity in the downstream direction at the lower end of the material molecule descending guide plate (101,301,501,701,901,9913,9915) ;

In the next step of the lower material molecule movement passage (102,302,502,702,902,1012,1022), fluid material molecules with heavy specific gravity are discharged in the downstream direction, and fluid material molecules with light specific gravity are pushed upward and preferentially to the downstream. The fluid material molecule rising guide plates 201,401,601,801,9912,9914 that act to be discharged are configured, respectively, and the upper material molecule movement passages 202,402,602,802, above the fluid material molecule rising guide plates 201,401,601,801,9912,9914, The structure of an eco-friendly material molecule separation and processing machine in which a plurality of material molecule separation compartments (100,200,300,400,500,600,700,800,900,991,992,993.994,995) are formed in the form of an inclined stepped type by the structure of each of 9911,9916);

On the upper side of the material molecule separation compartment 100,200,300,400,500,600 configured to be combined with a plurality of material molecule descending guide plates 101,301,501 and the fluid material molecule rising guide plates 201,401,601 configured on one side of the eco-friendly material molecule separation processor 1100 The structure of each collection roof (7733) that collects gaseous substance molecules;

A structure in which a separating container 7711 is formed at one side of the material molecule separation processor 1100, each of which has a separating compartment 7766;

Between the upper side of the collection roof (7733) and the separation compartment (7766), a structure in which a transfer pipe (7722) for transferring gaseous substance molecules or fluid substance molecules is formed, respectively;

A structure in which each injection pipe (7712) is formed on the upper part of the separation compartment (7766);

At one side of the separation compartment 7766, a structure of a material molecule separation processing machine comprising a discharge pipe 7713 for discharging gaseous substance molecules or fluid substance molecules flowing into each of the separation compartments 7766 to the outside is provided. present.

While the separator 7711 is filled with fluid material molecules such as water, fluid material molecules such as water are continuously introduced into the material molecule branch through the injection line 8001 and at the same time, the Contaminated air through the second pump 9900, the second injection pipe 9901, and the second ejection port 9902 simultaneously flows into the interior of the eco-friendly material molecule separation processor, and at the same time, the rotary striker 1503 Contaminated material molecules combined with air by striking fluid material molecules such as water flowing into the material molecule separation processor through the material molecule separation processor and at the same time striking contaminated air flowing into the material molecule separation processor When the gaseous substance molecules and fluid substance molecules raised by the action of gravity are forcibly separated from each other, the separation vessel 7711 is transferred through the transfer pipe 7722, and then the separation tube 7711 is transferred through the transfer pipe 7722. Provides an eco-friendly material molecule separation processor configured to collect and use or reprocess air or fluid material molecules transferred to the separation container 7711 and the separation compartment 7766 to the outside through the discharge pipe 7713 do.

In addition, there are a number of methods of modifying the configuration of a material molecule separation machine that is configured to extract contaminated fluid material molecules or fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity from contaminated air. Since there are so many methods, the modified embodiment is omitted.

The following describes claim 48 configured according to the 36th embodiment of the present invention.

95 is a photograph of a phenomenon in which a substance explosion action, a substance pushing action, and a substance rejection action applied to each embodiment of the present invention occur inside a paper cup, and FIG. 96 is a photograph showing a phenomenon in which each embodiment of the present invention occurs. It is a photograph showing a modified form of the applied rotary striker, and FIG. 97 is a perspective view of an eco-friendly material molecular separation machine constructed according to a 36th embodiment of the present invention, and is configured as follows.

Eco-friendly material molecule separation processing machine (1100) consisting of a structure of a material molecule processing unit (2299) in which the material molecule separation guide plate (2000) is combined with the upper part in a circular horizontal shape while the lower part is inclined from one side to the other. Structure of;

A structure comprising a material molecule collection port 250 for collecting fluid material molecules having a light specific gravity and a fluid material molecule discharge port 251 around the upper circumference of the material molecule processing unit 2299;

A structure in which an injection line 8001 is formed on one side of the material molecule processing unit 2299;

A structure in which a discharge line 8028 coupled with a discharge control valve 8029 is configured in the other direction of the material molecule processing unit 2299;

A structure in which a plurality of rotating striking bodies 1503 are coupled with a rotating body 1502 in a direction opposite to each other around the material molecule processing unit 2299;

In the interior of the material molecule processing unit 2299, a plurality of separation membranes 7033 that act to move fluid materials with a light specific gravity in an upward direction while inducing the fluid material molecules with a heavy specific gravity to move in a downward direction are layered. A structure consisting of; is.

The number of separation membranes 7033 composed of layers can be increased or decreased as much as possible.

In the interior of the separation membrane 7033, a material molecule separation machine is provided in which a plurality of induction holes 7755 for guiding fluid material molecules to be moved in an upward direction or downward direction are provided.

As shown in Fig. 97, the guiding hole 7755 may have a wider upper side or a wider lower side.

In addition, it is possible to change the configuration so that the configurations of the upper and lower directions are intersected by a combination of the upper and lower triangles. Therefore, the material molecule separating and processing machines constructed by different configurations of the induction holes all belong to the scope of the present invention. It is natural.

Since the material molecule descending guide plate and the fluid material molecule rising guide plate can be configured by increasing or decreasing the number, all material molecule separation and processing machines constructed by reducing or increasing the number are the scope of the present invention. It is natural to belong to.

The following describes Example 37 according to claim 49 of the present invention.

99 is a perspective view of a material molecule separating machine constructed according to a 37th embodiment of the present invention, and FIG. 100 is an exploded perspective view showing a material molecule separating machine constructed according to the 37th embodiment of the present invention by dividing it in half. It is composed as follows

The lower part is the structure of the material molecule separation processing machine 1100 which is formed in a circular shape at the upper end of the material molecule separation guide plate 2000 which is inclined from one side to the other. It is possible to change the configuration into a rhombus, hexagonal or octagonal shape.

A structure in which a material molecule collection port 250 for collecting fluid material molecules having a light specific gravity is inclined from one side to the other side around the upper circumference of the material molecule separation processor 1100.

The reason for configuring the material molecule collection port on the upper side is to collect fluid material molecules with a light specific gravity that float in the upward direction of the material molecule separation machine by the action of gravity.

A structure in which a fluid material molecule discharge port 251 is provided at the other side of the material molecule collection port 250 to discharge fluid material molecules having a light specific gravity;

A structure in which a discharge line 8028 coupled with a discharge control valve 8029 is configured on the other side of the lower end of the material molecule separation processor 1100;

In the interior of the material molecule separation and processing machine 1100, a rotational strike body 1503 for striking fluid material molecules is provided in the form of a threshing machine;

The configuration of the rotating strike body can be changed in a wide variety of ways.

A structure in which a rotating means (1551) for rotating the rotating striking body (1503) is configured outside the material molecule separation processing machine (1100).

The structure of the rotating means that rotates the rotating strike body is a structure for striking fluid material molecules such as contaminated water flowing into the interior of the material molecule separation machine by artificially rotating the rotating strike body. Do

In the interior of the material molecule separation processor 1100, a floor area ratio control means has a structure like a rubber balloon that acts to increase or increase the area ratio of fluid material molecules such as water flowing into the interior of the material molecule separation processor 1100 ( 1004) a structure to which it is bonded; and

A structure in which an air pump 1005 acting to increase or decrease the volume of the floor area ratio adjusting means 1004 is coupled to the outside of the material molecule separation processor 1100;

The structure of the floor area ratio adjusting means 1004 refers to a structure in which a structure composed of a rod balloon type is installed inside the material molecule separation processor 1100.

In detail, while the environment-friendly material molecule separation machine is filled with fluid material molecules such as milk, alcohol, or water, the rotating means is used to rotate the rotary struck body configured inside the environment-friendly material molecule separation machine. The air pump 1005 combined with the floor area ratio control means 1004 is used to process the fluid material molecules with a light specific gravity and the fluid material molecules with a heavy specific gravity by striking the fluid material molecules. Thus, by injecting air into the floor area ratio adjusting means 1004 made of a material such as an air balloon, fluid material molecules having a light specific gravity among the fluid material molecules filled in the environment-friendly material molecule separation processing machine 1100 are removed. After discharging to the outside of the material molecule separation processor 1100 through the material molecule collection port 250 and the fluid material molecule discharge port 251, fluid material molecules having a heavy specific gravity are passed through the discharge line 8028. We present a material and molecular separation machine configured to be collected and used.

What is the amount of discharge of fluid material molecules with a low specific gravity discharged to the outside of the material molecule separation processor 1100 through the material molecule collection port 250 and the fluid material molecule discharge port 251 through this processing process? Because it can be processed while adjusting freely, no special value is provided.

The floor area ratio adjusting means 1004 configured according to the 37th embodiment of the present invention may be changed to a bar balloon type.

In this way, the structure of the floor area ratio control means for discharging and discharging the fluid substance molecules with a light specific gravity by raising the floor area ratio of the fluid substance molecules stored inside the material molecule separation machine can be changed in a wide variety.

Therefore, it is natural that all of the changes made by the concerned company to the structure of the material molecule separation processing machine by using this theory fall within the scope of the present invention.

In addition, the structure of the air pump can be configured in a syringe type and can be changed in a wide variety of configurations.

Next, a description will be given of claim 50 according to a 38th embodiment of the present invention.
The nature of extracting a salt mixture with a heavy specific gravity by separating and extracting fluid material molecules with a light specific gravity mixed in a salt mixture made by diluting salt and water by inversely using the action of gravity generated by the eco-friendly material molecule separation processor. The method of separation and processing of friendly, eco-friendly materials and molecules is explained as follows.
Separating the eco-friendly material molecules through an injection line 8001 configured in the eco-friendly material molecule separation processor 1100 to a salt mixture made by diluting 70 wt% to 99 wt% of salt made by processing seawater and 1 wt% to 30 wt% of water After continuously flowing into the inside of the processing machine 1100, the process of continuously hitting the salt mixture using a rotating blower and a rotating body is performed, and at the same time, the discharge control valve 8029 is closed, and the eco-friendly material molecule separation processing machine 1100 ), the eco-friendly material molecule separation processing machine (out of 100 wt% of the total inflow amount of salt water continuously flowing into the interior of the eco-friendly material molecule separation processor 1100) in a state full of salt water to overflow the interior and the material molecule collection port 250 1100) by adjusting the discharge control valve 8029 configured at the lower end of the discharge line 8028 to discharge 70wt% to 99wt%, collect and reuse or reprocess the work process, and at the same time the remaining weight is light 1wt% ~30wt% of excess fluid material molecules are transferred to the eco-friendly material molecule separation processor 1100 through the material molecule collection port 250 and the material molecule discharge port 251 configured on the upper side of the environment-friendly material molecule separation processor 1100. ), which is discharged to the outside and collected, disposed of, disposed of, or reused.

The following describes claim 51 configured according to a 39th embodiment of the present invention.
FIG. 103 is a perspective view of an eco-friendly material molecule separating machine constructed according to a 39th embodiment of the present invention, and FIG. 104 is a perspective view of an eco-friendly material molecule separating machine constructed according to a 39th embodiment of the present invention. FIG. 105 is an exploded perspective view showing an eco-friendly material molecule separation processor configured according to a 39th embodiment of the present invention by dividing the middle part in the horizontal direction in half, and FIG. Fig. 107 is an exploded perspective view showing an eco-friendly material molecule separation processor constructed according to an embodiment of the present invention in a diagonal direction, and FIG. 107 is a perspective view showing an eco-friendly material molecule separation processor constructed according to the 39th embodiment of the present invention from the upper end direction Is composed as follows
As shown in FIG. 103, a structure in which an eco-friendly material molecule separator 1100 is configured in a rectangular shape.
However, the upper part is narrow and the lower part can be changed into a wide triangle or hexagonal shape, or a circle or rhombus.
A structure in which an injection line 8001 for injecting fluid material molecules such as water is formed at the upper end of one side:
At the lower end of the other side, a discharge line 8028 for discharging fluid substance molecules such as water is combined with the discharge control valve 8029.
Discharge line and discharge control valve can be configured by applying devices that have been used in the past.
A structure in which a fluid material molecule separation guide plate 2000 is configured at a lower end of the eco-friendly material molecule separation processor 1100;
The structure of the fluid material molecule separation guide plate 2000 is tilted in one direction from the other direction so that water molecules with heavy specific gravity push the fluid material molecules with light specific gravity in a lower direction and collect in one direction by the action of gravity. A structure in which a true shape and a vertical shape is inclined from the rear to the front portion; to be.
In detail, it is a structure for separating material molecules with heavy specific gravity from fluid material molecules with light specific gravity by using the natural action of all oil-based material molecules flowing down from a high place to a low place by the action of gravity.
Therefore, it is natural that all of the configuration angles configured to be inclined from one side to the other side belong to the right burm of the present invention.
A material molecule collection port 250 for collecting fluid material molecules having a light specific gravity and a fluid material molecule discharge port for discharging the collected fluid material molecules to the outside ( 251), respectively; to be.
The reason for configuring the material molecule collection port 250 on the upper side of the environment-friendly material molecule separation processor is 100wt% of the total inflow amount of fluid material molecules through the injection line 8001 configured at one side of the environment-friendly material molecule separation processor When flowing in, 90wt% to 99.99wt% of the total inflow amount is discharged through the discharge line 8028, and then the remaining 0.01wt% to 10wt% of fluid substance molecules are collected through the substance molecule collection port 250. Structure for
In the interior of the eco-friendly material molecule separation processor 1100, a structure in which a plurality of material molecule rise induction films 5050 are each configured in a triangular shape.
The reason why a plurality of material molecules rise induction film 5050 is formed in a triangular shape inside the eco-friendly material molecule separation processor 1100 is that all fluid material molecules flow from a high place to a low place by the action of gravity. It is a structure for separating fluid material molecules with a light specific gravity from fluid material molecules with a heavy specific gravity by using the natural action of the mask.
At the upper end of the material molecule rising induction film 5050, it is configured in the form of a space, thereby exerting the action of lowering the fluid material molecules having a heavy specific gravity such as water, and at the same time moving the fluid material molecules having a heavy specific gravity upward. It acts as a movement path (200,400,600,800,911.993) while acting to move it to the rear portion of the material molecule rising induction film 5050, and at the same time, fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity are easily combined. We present an eco-friendly material molecule separation processor that is configured to separate fluid material molecules with heavy specific gravity from fluid material molecules with light specific gravity by combining material molecule separation guide plates 88888 that act to prevent them from being separated in a ∧ shape.
The reason for configuring the material molecule separation guide plate 88888 in a ∧ shape on the upper end of the material molecule rising induction film 5050 configured inside the eco-friendly material molecule separation processor 1100 is due to the action of gravity and Substance bonds that are recombined by the viscous force of fluid material molecules when light-weight fluid material molecules and heavy fluid material molecules are separated separately into the upper and lower spaces by the difference in mass. It is a structure that is constructed to block the action at the source.
Therefore, it is natural that all of the material molecule separation guide plates configured in a shape other than the ∧ shape inside the eco-friendly material molecule separation processing machine fall within the scope of the present invention.

Although the rotating strut body is separately configured at one side and the other side or the lower end of the eco-friendly material molecule separation processor 1100, a detailed structure and a description thereof are omitted since the detailed structure is shown in each of the above embodiments.

The following describes claim 52, which is constructed according to a 40th embodiment of the present invention.
FIG. 108 is a perspective view of an eco-friendly material molecule separating machine constructed according to a 40th embodiment of the present invention, and FIG. 109 is a perspective view of an eco-friendly material molecule separating machine constructed according to a 40th embodiment of the present invention. Fig. 110 is an exploded perspective view showing the separated and shown in the upper direction in a cut-away state of one part of an eco-friendly material molecule separation processor configured according to a 40th embodiment of the present invention, and Fig. 111 is an exploded perspective view showing the present invention As a separate perspective view shown from the right side in a cut-off state of one side of the eco-friendly material molecule separation processor configured according to the 40th embodiment, it is configured as follows.
An eco-friendly material molecule separator 1100 is configured in a rectangular shape;
A structure in which an injection line 8001 for injecting fluid material molecules such as water is formed at the upper end of one side:
A structure in which a discharge line 8028 for discharging fluid substance molecules such as water is coupled to the discharge control valve 8029 at the lower end of the other side;
A structure in which a fluid material molecule separation guide plate 2000 is configured at a lower end of the eco-friendly material molecule separation processor 1100;
The structure of the fluid material molecule separation guide plate 2000 is tilted in one direction from the other direction so that water molecules with heavy specific gravity push the fluid material molecules with light specific gravity in a lower direction and collect in one direction by the action of gravity. A structure in which a true shape and a vertical shape is inclined from the rear to the front portion;
A material molecule collection port 250 for collecting fluid material molecules having a light specific gravity and a fluid material molecule discharge port for discharging the collected fluid material molecules to the outside ( 251), respectively;
A structure in which a plurality of material molecule rising induction films 5060 each having an air supply space 5062 configured in a triangular shape with an empty inside are formed in the environment-friendly material molecule separation processor 1100;
A structure in which a plurality of air outlets 5061 are respectively coupled to the material molecule rising induction film 5060;
At the upper end of the material molecule rising induction film 5060, it is configured in the form of a compartment, thereby exhibiting an action of lowering or discharging fluid material molecules having a heavy specific gravity such as water, and simultaneously moving fluid material molecules having a heavy specific gravity upward. While moving to the upper side or the rear part of the material molecule rising induction film 5060, it acts as a moving passage (200,400,600,800,911.993), and at the same time, it acts as a moving passage (200,400,600,800,911.993). A structure in which a material molecule separation guide plate (88888) that acts to prevent molecules from being easily bonded is bonded to each other in a ∧ shape;
The material molecule separation guide plate 88888, each configured in the environment-friendly material molecule separation processor 1100, acts to lower air or fluid material molecules with a heavy specific gravity or to increase fluid material molecules with a light specific gravity. A structure in which a plurality of ejection ports 8803 are each configured;
A fluid material molecule such as water by penetrating the lower end of the material molecule rising induction film 5060 and the lower end of the air supply space 5062, respectively configured at one side and the other lower end of the eco-friendly material molecule separation processor 1100 A structure in which a lower injection pipe 8801 for injecting gases such as fields or air is installed;
In the lower injection pipe 8801, an outlet 8802 for ejecting fluid material molecules such as air or water is configured to move fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity in the vertical direction. We present an eco-friendly material molecular separation machine that works to separate
When 100wt% of the total inflow amount of fluid substance molecules is introduced through the injection line 8001 configured at one side of the eco-friendly substance molecule separation processor configured as described above, 90wt% of the total inflow amount through the discharge line 8028 After discharging ~99.99wt%, we present an eco-friendly material molecule separator configured to collect the remaining 0.01wt%~10wt% of fluid material molecules through the material molecule collection port 250.

The following describes a 41st embodiment constituting the present invention claims.

FIG. 112 is a perspective view of a material separator configured according to claim 53 of the present invention, and FIG. 113 is an exploded perspective view showing the material separator configured according to claim 53 of the present invention divided in half.

A structure in which one side and the other side of the lower part are in the form of an inverted triangle and inclined from one direction to the other, and the fluid material molecule separation guide plate 2000 is configured;

The structure of the eco-friendly material molecule separation processing machine 1100, which comprises a material molecule collection port 250 configured in a horizontal shape and a fluid material molecule discharge port 251 for discharging the collected fluid material molecules to the outside. ;

An injection pipe (7777) coupled with a pump (7770) is formed between one side and the other side of the fluid material molecule separation guide plate (2000);

A structure in which a plurality of ejection boxes 7715 for ejecting air or liquid are coupled between the injection pipes 7777;

The reason why the ejection box 7715 is configured between one side and the other of the lower end of the eco-friendly material molecule separation processor 1100 is that the air or fluid material molecules ejected from the ejection box 7715 collide with each other, causing material friction. It is to promote the action and molecular collision of substances.

Air or fluid material molecules are continuously supplied through the ejection box 7715 configured to be coupled with the injection pipe 7777 through the pump 7700 and at the same time, the fluidity through the injection line 8001 0.01% to 10% surplus fluid material molecules separated and extracted using a double separation method that continuously injects material molecules and discharges 90% to 99.99% of the total amount injected through the discharge line 8028. It is a structure of an eco-friendly material molecule separation processor configured to separate and extract the particles using the material molecule collection port 250 and the fluid material molecule discharge port 251 that discharges the collected fluid material molecules to the outside.

A structure in which a discharge line 8028 for discharging fluid material molecules such as water is coupled to a discharge control valve 8029 at one side of the eco-friendly material molecule separation processor 1100;

A structure in which an injection line 8001 is coupled to an upper portion of the other side of the eco-friendly material molecule separation processor 1100;

A plurality of primary material molecule descending guide plates 409.411, 413, 415, 417, and 419 are each configured in the interior of the eco-friendly material molecule separation processor 1100. However, these structures can be configured by increasing or decreasing the number of installations.

A structure in which each lower part material molecule movement passages 102, 352, 552, 752, 952, 1152 that act to preferentially discharge fluid material molecules having a heavy specific gravity at the lower end of the primary material molecule descending guide plate (409.411,413,415,417,419) are combined; to be. However, these structures can be configured by increasing or decreasing the number of installations.

In the next step of the first material molecule descending guide plate (409.411,413,415,417,419)

It is a structure in which a material molecule separation compartment (100,200,500,800,992,995,999) is formed by combining the fluid material molecule rising guide plates (201,401,601,801,1011,1101). However, these structures can be configured by increasing or decreasing the number of installations.

A structure in which upper material molecule transfer passages 202, 402, 602, 802, 9912, and 9916 are respectively configured on the upper side of the fluid material molecule rising guide plates 201, 401, 601, 801, 1011, and 1101 to move fluid material molecules with a heavy specific gravity. These structures can be configured by increasing or decreasing the number of installations.

In the next step of the fluid material molecule rising guide plate (201,401,601,801,1011,1101), the secondary material molecule descending guide plate (410,414,416,418,420) is combined to form a second lower layer material molecule movement path (300,600,900,993,1010); However, it can be configured by increasing or decreasing the number of installations.

At the lower end of the secondary material molecule descending guide plate (410,414,416,418,420), fluid material molecules with heavy specific gravity are lowered and flowed so as to rise, and at the same time, the second lower material molecule movement acts to raise fluid material molecules with light specific gravity. Water and air are simultaneously injected into the interior of the eco-friendly material molecule separation processor 1100 in which passages (252,452,652,852,1052,1252) are combined to separate and extract fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity. We present nature-friendly eco-friendly construction methods

The following describes claim 54, which is constructed according to a 42nd embodiment of the present invention.

114 is a perspective view of a material molecule separating and processing machine constructed according to claim 54 of the present invention,

115 is an exploded perspective view showing a material separator configured according to claim 54 of the present invention divided in half, and FIG. 116 is a multi-stage installation of a material separator configured according to claim 54 of the present invention, It is a perspective view of a multi-stage material molecule separation machine that separates fluid material molecules with a heavy specific gravity, and is composed as follows.

The structure of the eco-friendly material molecule separation processor 1100, which is formed in a cylindrical shape by being combined with the fluid material molecule separation guide plate 2000, which has a horizontal structure at the top and an inclined shape from one side to the other; Or hexagonal or rhombic shape can be changed.

A structure in which a material molecule collection port 250 and a fluid material molecule discharge port 251 for discharging the collected fluid material molecules to the outside are respectively configured at the upper end of the eco-friendly material molecule separation processor 1100;

A structure in which a discharge line 8028 for discharging fluid material molecules such as water is coupled to a discharge control valve 8029 at the other side of the lower end of the eco-friendly material molecule separation processor 1100;

In the interior of the eco-friendly material molecule separation processor 1100, a rising passage 1819 that acts to lower fluid material molecules with a heavy specific gravity while raising fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity are A structure in which the material molecule movement induction pipe 1818 consisting of the material molecule movement passage 1820 that acts to move in one direction is 5cm to 50cm higher than the height of the eco-friendly material molecule separation processor 1100 ;to be. The configuration number of the material molecule movement induction pipe configured inside the eco-friendly material molecule separation processor can be changed as much as possible. Therefore, it is natural that all of these design changes belong to the scope of the present invention.

A structure in which an injection line 8001 for injecting fluid material molecules is formed on the other side of the environment-friendly material molecule separation processor 1100;

The discharge line 8028 and the discharge control valve 8029 configured at the lower end of the eco-friendly material molecule separation processor 1100 are stepped on the upper part of the eco-friendly material molecule separation processor 1100, which is continuously configured in a stepwise manner in the next step. We propose an eco-friendly material molecule separator 1100 configured in multiple stages to separate and extract fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity by combining in multiple stages.

It is possible to change the number of floors in a multi-level staircase.

When 100wt% of fluid substance molecules are injected through the injection line 8001 configured on the upper side of the eco-friendly material molecule separation processor 1100 configured as described above, compared to 100% of the injection amount through the discharge line 8028 When 90 to 99.99% is discharged, the remaining 0.01% to 10% of fluid material molecules overflow into the material molecule collection port 250 and are discharged to the outside through the fluid material molecule discharge port 251. We propose an eco-friendly method for separating and extracting fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity using the phosphorus discharge process.

When configuring the eco-friendly material molecule separator 1100 having a cylindrical shape, it is possible to change the configuration so that it can be used when folded and unfolded by combining materials such as a fire hose.

The reason is that it can be applied when showing a demonstration while traveling a long distance.

Next, a description will be given of claim 55 configured according to a 43rd embodiment of the present invention.

FIG. 117 is a perspective view of a material separator configured according to claim 55 of the present invention, FIG. 118 is an exploded perspective view showing a material separator configured according to claim 55 of the present invention divided in half, and FIG. This is a perspective view of a multi-stage material molecule separating machine that separates fluid material molecules with a light specific gravity from fluid material molecules with a heavy specific gravity by installing multi-stage material separators configured according to the following.

The lower structure is a structure in which the fluid material molecule separation guide plate 2000 is formed in a shape inclined from one direction to the other.

The angle of inclination is not particularly limited because the configuration can be changed at will.

A structure in which an eco-friendly material molecule separation processor 1100 is configured in a rectangular box shape at the upper end of the fluid material molecule separation guide plate 2000; however, the configuration can be changed at will, whether it is a hexagonal or an octagonal shape. Also, the height of the configuration can be changed as much as necessary.

A material molecule collection port 250 for collecting fluid material molecules having a light specific gravity and a fluid material molecule discharge port 251 for discharging the collected fluid material molecules to the outside at the upper side of the eco-friendly material molecule separator 1100 ) Each structure;

A structure in which a low water discharge pipe 419 coupled with a pump 315 for pumping and discharging low water with a heavy specific gravity to the upper portion of the eco-friendly material molecular separation processor 1100 is combined. The reason for constructing this structure is to separate the heavy fluid material molecules from the heavy fluid material molecules by preferentially discharging the fluid material molecules with heavy specific gravity in the lower layer by the action of gravity. It is a structure for extraction.

However, it is possible to change the configuration to separate and extract each of the components separated into layers by separately configuring several low layer water pipes of different heights into layers.

As shown in FIG.119, an eco-friendly method of separating fluid material molecules with a light specific gravity from fluid material molecules with a heavy specific gravity by installing an eco-friendly material molecule separation processor 1100 in multiple stages is constructed as follows.

Multi-step so that the low-water discharge pipe 419 configured in the eco-friendly material molecule separation processor 1100 configured as described above is combined with the upper direction of the eco-friendly material molecule separation processor 1100 configured in a continuous stepwise manner in the next step. A structure in which an injection line 8001 is installed at the uppermost end of the eco-friendly material molecule separation processor 1100 installed in the uppermost direction installed in multiple stages after installation.

In other words, after injecting fluid material molecules into the interior of the environment-friendly material molecule separation processor 1100 through one line, the discharge formed at the lower end of the environment-friendly material molecule separation processor 1100 configured at the bottom end A fluid having a heavy specific gravity by controlling the amount of discharge discharged through the line 8028 and at the same time adjusting the discharge amount discharged through the pump 315 configured at the upper end of the eco-friendly material molecule separation processor 1100 installed in a stepwise manner. This is an invention related to an eco-friendly method for separating sexual substance molecules and fluid substance molecules with light specific gravity.

In detail, a discharge line 8028 coupled with a discharge control valve 8029 is formed at one lower end of the environment-friendly material molecule separation processor 1100 installed at the bottom end of the environment-friendly material molecule separation processor 1100, and the injection 100wt% of the total amount of fluid material molecules injected through the line 8001 is injected into the eco-friendly material molecule separation processor 1100 configured at the top, and at the same time, through the pump 315 and the low water discharge pipe 419 Pumping 95wt% to 99.99wt% of fluid material molecules having a heavy weight in the lower part of the eco-friendly material molecule separation processor 1100 into the interior of the eco-friendly material molecule separation processor 1100 configured in the next step. At the same time, the remaining fluid material molecules overflowing to the top of the eco-friendly material molecule separation processor 1100 are the material molecule collection port 250 and the fluid material molecule discharge port 251 for discharging the collected fluid material molecules to the outside. ) To be discharged to the outside and disposed of or recycled, and at the same time, a fluid substance molecule having a heavy specific gravity finally discharged through the discharge line 8028 configured at the lower end of the eco-friendly substance molecule separation processor 1100 The multi-stage low-bed water pumping separation to separate fluid material molecules with light specific gravity from fluid material molecules with light specific gravity using the eco-friendly material molecule separation processor 1100 configured to be discharged through the discharge line 8028 and used. We propose a nature-friendly eco-friendly method that separates and extracts contaminated fluid material molecules using a method.

The following describes claim 56, which is constructed according to a 56th embodiment of the present invention.

FIG. 120 is a perspective view of a material separator configured according to claim 56 of the present invention, FIG. 121 is an exploded perspective view showing the material separator configured according to claim 56 of the present invention divided in half, and FIG. Fig. 123 is a perspective view of an eco-friendly material and molecular separation processor showing an embodiment of changing the material and molecular separation processor configured according to the present invention. As an exploded perspective view, it is configured as follows.

The lower part has a structure of an inverted triangle and has a structure inclined from one direction to the other, and the fluid material molecule separation guide plate 2000 is configured;

An eco-friendly material in the form of a zigzag box at the upper end of the fluid material molecule separation guide plate 2000 so that fluid material molecules having a heavy specific gravity move quickly to the lower end by the action of gravity. A structure in which the molecular separation processor 1100 is configured;

The upper side of the eco-friendly material molecule separation processor 1100 has one side and the other side in a horizontal shape; A material molecule collection port 250 for collecting fluid material molecules having a light specific gravity is formed in a horizontal shape on the upper side of the eco-friendly material molecule separation processor 1100; At one side of the material molecule collection port 250, a fluid material molecule discharge port 251 for discharging the fluid material molecules collected by the material molecule collection port 250 to the outside is formed.

In addition, by installing a plurality of partitions in the material molecule collection port 250, it is possible to change the configuration to enable collection according to each specific gravity.

The number of the fluid material molecule outlet 251 may be additionally configured separately for each compartment configured in the material molecule collection port 250

A structure in which a discharge line 8028 for discharging fluid material molecules such as water is coupled to a discharge control valve 8029 at one side of the eco-friendly material molecule separation processor 1100;

A structure in which an injection line 8001 is coupled to an upper portion of the other side of the eco-friendly material molecule separation processor 1100;

A structure in which a plurality of material molecule descending guide plates (101,301,501,701,901,9913,9915) are respectively configured in the environment-friendly material molecule separation processor 1100;

A structure in which each lower part material molecule movement passages 102, 302, 502, 702, 902, and 1012 are coupled to the lower part of the material molecule descending guide plate (101,301,501,701,901,9913,9915), which serves to preferentially discharge fluid material molecules with heavy specific gravity;

In the next step of the lower material molecule movement passage (102,302,702,902,1012)

By combining the fluid substance molecule rising guide plate (201,401,601,801,9912,9914)

The structure of the material molecule separation compartment (200,300,400,500,600,700,800,900,991,992,993,994,995,998), respectively; is.

The number of components of the fluid material molecule rising guide plate and the material molecule separation compartment can be increased or decreased as much as possible.

A structure in which upper material molecule movement passages 202,402,602,802,9911,9916,9921 for moving fluid material molecules with a heavy specific gravity are respectively configured on the upper side of the fluid material molecule rising guide plates 201,401,601,801,9912,9914;

The number of configurations of the fluid material molecule rising guide plate and the upper layer material molecule movement path can be changed.

The material molecule separation compartment (10,300,500,700,900,992,994,998) configured inside the eco-friendly material molecule separation processor 1100 acts to increase fluid material molecules with a light specific gravity while lowering fluid material molecules with a light specific gravity. A structure in which an upright injection pipe 771 is configured with a narrow lower end and a wide upper end and a spout 772 at the end.

As all fluid material molecules are under the control of gravity, fluid material molecules with a light specific gravity rise to the upper part of the fluid material molecules with a heavy specific gravity, and fluid material molecules with a heavy specific gravity are fluid materials with a light specific gravity due to the heavy mass. The upright injection pipe 771, which has a wide upper part and a narrow lower part, has the characteristics of generating a material cutting action and a material pushing action that pushes molecules and descends to the lower part. It is to be inserted into the molecular separation machine.

However, it is natural that such a design change also falls within the scope of the present invention, as a person concerned can additionally configure a plurality of air outlets in the injection pipe.

The upper end of the upright injection pipe 771 is coupled to a horizontal injection pipe 773 connected to each of the upright injection pipes 771; at one end of the horizontal injection pipe 773 is coupled with a pump 7700 Structure; to be.

The structure is configured to forcibly inject contaminated air, general air, or contaminated fluid material molecules into the environment-friendly material molecule separation processor 1100 through the pump 7700.

However, without using a pump, contaminated air or contaminated fluid material molecules naturally introduced into the interior of the eco-friendly material molecule separation processor 1100 through the upright injection pipe 771 and the horizontal injection pipe 773 Therefore, it is natural that all of these design changes fall within the scope of the present invention, since it is possible to separate and extract material molecules having a light specific gravity and material molecules having a heavy specific gravity.

Fluid material molecules are treated by injecting fluid material molecules into the interior of the eco-friendly material molecule separation processor 1100 configured as described above, or water and air are simultaneously injected to separate fluid material molecules with heavy specific gravity from fluid material molecules with light specific gravity. We present a nature-friendly, eco-friendly method of extraction

However, as shown in FIGS. 122 and 123, a horizontal injection pipe 773 connected to and coupled to an upright injection pipe 771 in which a plurality of ejection openings 774 is unspecifically configured is used as the interior of the eco-friendly material molecular separation processor 1100. The constituting structure can be additionally configured or changed.

In addition, a method of injecting and processing air or contaminated air or contaminated fluid material molecules through the horizontal injection pipe 773 connected to and coupled to the upright injection pipe 771 is possible by any person skilled in the art. It is possible to change the configuration so that the ejection pressure that is ejected by closing the end of the upright injection pipe 771 is increased.

In detail, all of the technologies applied by modifying each material molecule separation method according to the present invention, which are configured to purify contaminated air by injecting contaminated air into the interior of the eco-friendly material molecule separation processor or by injecting clean air It is natural to fall within the scope of the invention.

That is, as shown in Figs. 122 and 123, it is possible to additionally construct an upright injection pipe 771 and a horizontal injection pipe 773 configured to inject water and air into the interior of the eco-friendly material molecule separation processor 1100. It is natural that all of these design changes fall within the scope of the present invention, as any change can be made.

The following describes a 45th embodiment according to claim 57 of the present invention.

FIG. 124 is a perspective view of an eco-friendly material molecule separation processor showing a material molecule separation processor constructed according to claim 57 of the present invention, and FIG. 125 is an exploded perspective view showing the material separator configured according to claim 57 of the present invention divided in half. , FIG. 126 is a perspective view of an eco-friendly material molecule separation machine showing an embodiment of a modified material molecule separation processor configured according to claim 57 of the present invention, and FIG. 127 is a modified configuration of the material separator configured according to claim 57 of the present invention As an exploded perspective view showing an embodiment divided in half, it is configured as follows.

A structure in which a fluid material molecule separation guide plate 2000 is formed in a shape of an inverted triangle while having an inclined shape in one direction from the other side;

A structure in which an eco-friendly material molecule separation processor 1100 is configured in a rectangular shape with one side and the other side in a horizontal shape and a rectangular shape at the upper end of the fluid material molecule separation guide plate 2000;

On the upper side of the eco-friendly material molecule separation and processing machine 1100, a material molecule collection port 250 for collecting fluid material molecules having a light specific gravity in a horizontal shape is configured; at one side of the material molecule collection port 250 A structure in which fluid material molecule discharge ports 251 are respectively configured for discharging the fluid material molecules to the outside;

A structure in which a discharge line 8028 for discharging fluid material molecules such as water is coupled to a discharge control valve 8029 at one side of the eco-friendly material molecule separation processor 1100;

A structure in which an injection line 8001 is coupled to an upper portion of the other side of the eco-friendly material molecule separation processor 1100;

In the interior of the eco-friendly material molecule separation processor 1100, a number of fluid material molecules having a heavy specific gravity move quickly to the lower end in one direction by the action of gravity to exert a material cut-off action and a material push action. A structure in which a material molecule descending guide plate (101,301,501,701,901,9013) is configured, respectively;

A structure in which each lower part material molecule movement passages 102, 302, 502, 702, 902, and 1012 are coupled to the lower part of the material molecule descending guide plate (101,301,501,701,901,9913), which serves to preferentially discharge fluid material molecules having a heavy specific gravity;

In the next step of the lower material molecule movement passage (102,302,502,702,902,1012)

By combining the fluid substance molecule rise guide plate (201,401,601,801,9912)

A structure in which a material molecule separation compartment (100,200,300,400,500,600,700,800,900,991,992,993) is configured, respectively;

A structure in which upper material molecule movement passages 202, 402, 602, 802, and 9911 are respectively configured to move fluid material molecules having a heavy specific gravity on the upper side of the fluid material molecule rising guide plates 201, 401, 601, 801, and 9912.

However, the material molecule descending guide plate (101,301,501,701,901,9913) formed between one side and the other side of the eco-friendly material molecule separation processor 1100, the lower part material molecule movement passage (102,302,502,702,902,1012) and the fluid material molecule rising guide plate (201,401,601,801,9912) and the number of components of the substance molecule separation compartment (200,300,400,500,600,700,800,900,991,992,993,994) can be configured or increased as much as possible.Therefore, it is natural that all of the different sizes or different configuration numbers belong to the scope of the present invention. will be

The material molecule descending guide plate (101,301,501,701,901,9913) formed between one side and the other side of the eco-friendly material molecule separation processor 1100, the lower part material molecule movement passage (102,302,502,702,902,1012) and the fluid material molecule rising guide plate ( 201,401,601,801,9912) and the material molecule separation compartment (200,300,400,500,600,700,800,900,991,992,993,994), a plurality of material molecule movement guide plates (7725) each consisting of a plurality of ejection ports (7735) are combined to overlap in a layered layer in the form of \/shape ;to be.

When the material molecule movement guide plate 7725 is combined and configured, spaces are formed at the front and rear edges and both edges of the eco-friendly material molecule separation processor 1100.

The reason is to induce fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity to move upward or downward easily.

The reason for configuring a plurality of material molecule movement guide plates 7725 inside the eco-friendly material molecule separation processor 1100 is to induce the fluid material molecules with heavy specific gravity to move in the downward direction quickly by the action of gravity. Is to organize for

The inclined angle of inclination of the material molecule movement guide plate 7725 can be changed as much as possible.

For example, as shown in FIGS. 126 and 127, the material molecule movement guide plate 7725 may be configured in a horizontal shape. Therefore, it is natural that all of these designs belong to the rights of the present invention.

In addition, since the number of configurations of the material molecule movement guide plate 7725 can be increased or decreased as much as possible, it is natural that all of these design changes belong to the scope of the present invention.

One side of the material molecule movement guide plate 7725 may be configured to combine an injection line for injecting air or fluid material molecules, or a separate pump may be combined to inject fluid material molecules such as air or water. Because there is no coupling relationship shown, it is natural that all of these configurations belong to the scope of the present invention.

Fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity by injecting fluid material molecules into the interior of the eco-friendly material molecule separator 1100 constructed as described above, or simultaneously injecting fluid material molecules and air We present a nature-friendly, eco-friendly material molecular separation machine that is configured to separate and extract them.

A 46th embodiment constructed according to claim 58 of the present invention will be described.

FIG. 128 is a perspective view showing a material separator configured in accordance with claim 58 of the present invention, and FIG. 129 is an exploded perspective view of an eco-friendly material molecule separation processor configured in accordance with claim 58 of the present invention by dividing it in half. It is composed as follows.

A structure in which a fluid material molecule separation guide plate 2000 is configured in a shape similar to that of a peanut inclined and tilted in one direction from the other side;

The upper end of the fluid material molecule separation guide plate 2000 has a structure in which an eco-friendly material molecule separation processor 1100 is configured in the form of a peanut in which one side and the other side are horizontal and tilted.

The reason that the upper side of the material molecule separator is formed in the form of a slanted peanut is that all material molecules are fluid material molecules with heavy specific gravity or gaseous material molecules with heavy specific gravity depending on gravity, mass and specific gravity. It is a structure to repel fluid substance molecules and to induce a material cut-off action and a material push action, which are preferentially moved downward, to occur.

Therefore, it is natural that all of the configurations with different tilt angles belong to the scope of the present invention.

A structure in which a material molecule collection port 250 is configured to collect fluid material molecules having a light specific gravity in a horizontal shape on the upper side of the eco-friendly material molecule separation processor 1100.

However, a plurality of partitions may be additionally configured and used in the material molecule collection port 250.

It is natural that such design changes also fall within the scope of the present invention.

A structure in which a fluid material molecule discharge port 251 is provided at one side of the material molecule collection port 250 for discharging the collected fluid material molecules to the outside;

A structure in which a discharge line 8028 for discharging fluid material molecules such as water is coupled to a discharge control valve 8029 at one side of the eco-friendly material molecule separation processor 1100;

A structure in which an injection line 8001 is coupled to an upper portion of the other side of the eco-friendly material molecule separation processor 1100;

In the interior of the eco-friendly material molecule separation processor 1100, a number of fluid material molecules having a heavy specific gravity move quickly to the lower end in one direction by the action of gravity to exert a material cut-off action and a material push action. A structure in which the material molecule descending guide plates 101,301,501,701 are each configured;

A structure in which each lower part material molecule movement passages 102, 302, 502, and 702 that act to preferentially discharge fluid substance molecules having a heavy specific gravity at the lower end of the material molecule descending guide plates 101,301,501,701;

In the next step of the lower material molecule movement passage (102,302,502,702)

A structure in which a material molecule separation compartment (100,200,300,400,500,600,700,800) is formed by combining the fluid material molecule rising guide plates (201,401,601);

A structure in which upper material molecule transfer passages 202, 402, 602 for moving fluid material molecules having a heavy specific gravity are formed above the fluid material molecule rising guide plates 201, 401, 601;

The material molecule descending guide plate 101,301,501,701 formed between one side and the other side of the eco-friendly material molecule separation processor 1100, the lower material molecule movement passage 102,302,502,702, the fluid material molecule rising guide plate 201,401,601, and the above Between the material molecule separation compartments (100,200,300,400,500,600,700,800), a plurality of injection pipes (7777) each having a plurality of ejection ports (7700) at an unspecified position are layered across one side and the other side of the eco-friendly material molecule separation processor (1100). It is a structure erected as a.

When the injection pipe (7777) is configured in a horizontal direction, a pump configured to inject air or fluid material molecules or contaminated fluid material molecules or a structure constituting a separate injection line to one side or the other side The detailed structure was omitted.

Fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity by injecting fluid material molecules into the interior of the eco-friendly material molecule separator 1100 constructed as described above, or simultaneously injecting fluid material molecules and air The nature-friendly, eco-friendly material molecular separation processor is configured to separate and extract present

The following describes claim 59 constituted according to a 47th embodiment of the present invention.

130 is a perspective view of a substance molecule branch configured in multiple stages according to a 47th embodiment of the present invention, and is configured as follows.

As shown in Fig. 130, when configuring the material molecule separation processor, it is configured to overlap in multiple stages in a zigzag form, so that the fluid material molecules having a light specific gravity and a heavy specific gravity combined with fluid material molecules such as water We present a nature-friendly eco-friendly material molecule separation machine that separates and extracts fluid material molecules using a narrow space.

As described above, the reason why the nature-friendly eco-friendly material molecule separation machine is constructed so as to overlap according to the 47th embodiment is to facilitate separation by promoting the separation of fluid material molecules subject to gravity.

Since it is very simple to change and configure the nature-friendly eco-friendly material molecule separation processor configured as described above, all the configurations of the nature-friendly eco-friendly material molecule separation processer configured by increasing or decreasing the number of components are within the scope of the present invention. It is natural to belong

The following describes claim 59 constituted according to the 48th embodiment of the present invention.

131 is a cross-sectional perspective view of a substance molecule branch constructed according to a 48th embodiment of the present invention, and is constructed as follows.

In the interior of the eco-friendly material molecule separation processor 1100, a plurality of the material molecule descending guide plates 101,301,501,701,901,9913, the lower material molecule movement path 102,302,502,702,902,1012, and the fluid material molecule rising guide plate (201,401,601,801,9912) ) And the material molecule separation compartment (200,300,400,500,600,700,800,900,991,992,993,994);

However, since these structures can be constructed by increasing or decreasing the number, the number and size of the composition are not limited.

A material molecule collection port 250 is configured on the upper side of the eco-friendly material molecule separation processor 1100;

When configuring the fluid material molecule outlet 251 that discharges the fluid material molecules collected on one side of the material molecule collection port 250 to the outside, a plurality of partitions are collected inside the material molecule collection port 250 After the sphere (585858) is additionally configured, a separate fluid substance molecule outlet (251) is additionally configured for each partition collecting port (585858) to separately collect fluid substance molecules with light specific gravity. present.

The reason why a plurality of partition collecting ports 585858 are additionally configured inside the substance molecule collecting port 250 is to collect separately for each component because the floating components floating upwards are different depending on the action of gravity, specific gravity, and mass.

The construction height of the partition collecting port 585858 is higher than the upper height of the eco-friendly material molecule separation processor 1100.

However, since the configuration height and size of the partition collecting port 585858 can be changed as much as possible, the size and height are not limited.

The following describes claim 61 configured according to the 49th embodiment of the present invention.

FIG. 132 is a cross-sectional perspective view of an eco-friendly material molecule separation machine applied to a floating facility configured to float inside a ship or a river or river or lake or lagoon according to the 49th embodiment of the present invention, and is configured as follows.

The structure of the floating facility 2200, such as a ship or ship, configured to attract a floating state to a lake, lagoon, river, sea, etc.;

A structure of a floating facility 2200 such as a ship configured to be operated by a solar collecting plate 8105 configured on one side of the floating facility 2200 and a storage battery 8106 for controlling the collected electricity;

The structure of the eco-friendly material molecule separation processor 1100 configured inside the floating facility 2200; is a structure as shown in FIG. 132, but can be changed to the structure suggested in each embodiment of the present invention.

The structure of a plurality of intake pipes 8101, 8102, and 8103 configured to have different heights of intake ports between the upper side of the eco-friendly material molecule separation processor 1100 and the bottom layer 8207 of the lower end of the floating facility 2200. The configuration of the water intake pipe can be changed in a wide variety. In addition, it is possible to increase the number of components or change the configuration so that the height is different.

Places such as lakes, dams, rivers, and seas by using the eco-friendly material molecule separator 1100 coupled with the structure of the water intake pump 8104 configured on the upper side of the water intake pipes 8101, 8102, and 8103 each The fluid material molecules with light specific gravity and the fluid material molecules with heavy specific gravity are separated and collected using the intake pipes 8101,8102,8103 and the intake pump 8104 by the action of gravity in After injecting each of the fluid material molecules with different components into the interior of the eco-friendly material molecule separation processing machine 1100, the material pushing action and material scraping generated by fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity We present a nature-friendly eco-friendly water purification method that separates and extracts heavy fluid material molecules and light fluid material molecules using action and material explosion.

In detail, the 49th embodiment of the present invention is a technology for removing harmful substances such as green algae generated in reservoirs and lakes or dams.

The following describes claim 62 configured according to a 50th embodiment of the present invention.

FIG. 133 is a cross-sectional perspective view of an eco-friendly material molecule separator applied to a 50th embodiment of the present invention, and is configured as follows.

A heating element 255 that generates heat by using sunlight or general electricity is installed on one side of the eco-friendly material molecule separation processor presented in each embodiment of the present invention to flow into the interior of the eco-friendly material molecule separation processor 1100. Contaminated fluid material molecules with light specific gravity and fluids with heavy specific gravity by promoting material explosion and material adhesion that occur when these fluid material molecules contact each other by raising the temperature of fluid material molecules. We present a nature-friendly eco-friendly material molecule separation and processing machine configured to easily separate and extract sexual material molecules.

The following describes claim 63 configured according to the 51st embodiment of the present invention as follows.

134 is a perspective view showing a material separator configured according to claim 63 according to a 51st embodiment of the present invention, and FIG. 135 is a perspective view showing a material separator configured according to claim 63 according to the 51st embodiment of the present invention. It is a separate perspective view of the eco-friendly material molecule separation processor shown separately and is composed as follows.

The structure of the lower part is a structure in which a fluid material molecule separation guide plate 2000 is configured in a form inclined from one side to the other side;

A structure in which a lower end processing unit 370 is configured in the form of an inverted triangular trumpet on an upper portion of the fluid material molecule separation guide plate 2000;

A structure in which a spout plate 380 including a plurality of spouts 390 is coupled to the inner upper side of the lower end processing unit 370 so that air or fluid material molecules move in the upward and downward directions;

A structure in which a discharge line 8028 coupled with a discharge control valve 8029 is configured at the other lower end of the lower part processing unit 370;

A structure in which an injection pipe (7777) coupled with a pump (7770) for supplying air or fluid material molecules is configured at one lower end of the lower end processing unit (370);

Between the ejection plate 380 configured on the upper side of the lower part processing unit 370 and the fluid material molecule separation guide plate 2000, each of the material molecule descending guide plates 101 and 301 and the lower part material molecule movement passage ( 102,302), a fluid material molecule rising guide plate (2012), and a material molecule separation compartment (10.200,300);

The structures of the material molecule descending guide plates 101 and 301, the lower material molecule movement passages 102 and 302, the fluid material molecule rising guide plate 2012, and the material molecule separation compartments 10.200,300 have a high specific gravity. The fluid material molecules with a light specific gravity are moved upward along the inclined surface of the fluid material molecule separation guide plate 2000 and are pushed upward to the fluid material molecules with a heavy specific gravity and rise to the upper layer. It is a structure that works.

Therefore, it is natural that all of these design changes belong to the scope of the present invention as the number of these structures can be increased or decreased as much as possible.

The intermediate processing unit 360 is configured in the form of a spiral such as a spring on the upper part of the lower processing unit 370 to generate material friction and material explosion between fluid material molecules and gaseous material molecules such as air. It is a structure that is constructed so that a strong collision of substances and substances occurs. In detail, the fluid material molecules with heavy specific gravity try to move to the lower part by the action of gravity, and the fluid material molecules with light specific gravity are pushed by the fluid material molecules with the heavy specific gravity, and the material cut-off and material push action In order to induce this to occur easily, the intermediate processing unit 360 is configured in a spiral shape.

Since the configuration number of the spiral can be changed any number of times, it is natural that all of the configuration numbers of the spiral and the configuration form differently belong to the scope of the present invention.

The upper part of the intermediate processing unit 360 has a structure in which the upper end processing unit 350 is configured in the form of a funnel of the upper side.

The reason why the structure of the upper processing unit 350 is composed of a wide upper portion and a narrow lower portion is that all substances are controlled by gravity according to specific gravity and mass, while fluid material molecules with a light specific gravity are fluid material molecules with a heavy specific gravity. It is a device to induce the fluid substance molecules with heavy specific gravity to move to the lower part easily while being pushed upwards.

A structure in which a material molecule collection port 250 is configured to collect fluid material molecules having a light specific gravity on the upper edge of the upper processing unit 350;

A structure in which a fluid material molecule discharge port 251 is provided at one side of the material molecule collection port 250 to discharge the collected fluid material molecules to the outside;

On the other side of the upper part processing unit 350, there is presented an eco-friendly material molecule separation processor configured with an injection line 8001 for injecting air or fluid material molecules.

Contaminated fluid material molecules are injected through the injection line 8001 configured on the upper side of the eco-friendly material molecule separation processor configured as described above, and at the same time, the injection pipe 7777 coupled with the pump 7700 By hitting the fluid material molecules injected into the interior of the environment-friendly material molecule separation processor 1100 through the injection line 8001 through the air or the fluid material molecules having a heavy specific gravity through the lower end of the environment-friendly material molecule separation processor Simultaneously with processing, the discharge control valve 8029 is adjusted to discharge 90wt% to 99.99% of the 100wt% injection amount injected through the injection line 8001 through the discharge line 8028 and the remaining 0.01% to We present an eco-friendly material molecule separation processor configured to collect and use 10wt% of fluid material molecules through the material molecule collection port 250 and the fluid material molecule discharge port 251 or separately collect and process.

The following describes claim 64, which is constructed according to a 52nd embodiment of the present invention.

FIG. 136 is a perspective view showing a material separator configured according to claim 64 according to a 52nd embodiment of the present invention, and FIG. 137 is a perspective view showing a material separator configured according to claim 64 according to a 52nd embodiment of the present invention. It is a separate perspective view of the eco-friendly material molecule separation processor shown separately and is composed as follows.

At the lower end, a vent plate 8814 is configured with a through hole 8835 configured to allow a fluid material molecule or a material such as air to pass through; and air or fluid material molecules are supplied to the lower end of the vent plate 8814 A structure in which the supply pump 8813 is combined;

A structure in which upper and lower separation pipes 8220 of material molecules are formed in an upright shape at the upper end of the ventilation plate 8814;

A structure in which a material molecule collection port 250 is configured to collect fluid material molecules having a light specific gravity at the upper edge of the material molecule upper and lower separation pipe 8220;

A structure in which a fluid material molecule discharge port 251 is provided at one side of the material molecule collection port 250 to discharge the collected fluid material molecules to the outside;

A structure in which an injection line 8001 for injecting fluid material molecules is formed on the upper side of the upper and lower separation pipe 8220 for the material molecules.

In addition, a plurality of injection lines 8001 are additionally configured to separately extract fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity by injecting different components of the fluid material molecules injected through the injection line. It is natural that the method of changing the configuration so as to fall within the scope of the present invention

A structure in which a material molecule separation bent pipe 8815 is configured in the form of a step shape that is bent in a shape of a shovel and gradually lowered in a downward direction at the lower end of the other side of the material molecule upper and lower separation pipe 8220.

The method of configuring to bend in a multi-stage shape toward the lower part can be changed in a wide variety of ways.

In the material molecule separation bent pipe 8815 configured in a shoal-shaped bent shape, a plurality of step-by-step discharge control valves 821,8222, 8029 are configured, respectively, and the fluidity introduced through the injection line 8001 The structure is structured to control the separating action of fluid material molecules with light specific gravity and fluid material molecules with light specific gravity by controlling the amount of discharge of material molecules in different stages.

In detail, after injecting at a rate of 100wt% of the total amount of fluid substance molecules through the injection line 8001, the primary discharge control valve 821 is adjusted to reduce 90wt% to 99.99wt% of the total amount of inflow 100wt% to the next step. When discharged, the remaining surplus residual amount 0.01wt%~10wt%

The material molecule collection port 250 is floated and collected through the fluid material molecule discharge port 251 for use or reprocessing.

Meanwhile, the remaining 90wt% to 99.99wt% of fluid substance molecules that are moved to the next bend through the first discharge control valve 821 are controlled by the second discharge control valve 8222 to control the first discharge control valve ( 8221), based on the 90wt%~99.99wt% discharged, the total inflow is 100WT% based on the calculation standard, and when the 90WT%~99.99WT% is transferred to the next stage, the remaining weight is light 0.01WT%~10WT%. The structure of a step-by-step eco-friendly material molecule separation processor configured to collect and use or reprocess the fluid material molecules of the fluid material molecules through the fluid material molecule discharge port 251 by floating the material molecule collection port 250 by the action of gravity It is a structure configured to separate and extract fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity.

A description of the process of separating and extracting fluid material molecules with light specific gravity and fluid material molecules with light specific gravity by controlling the third discharge control valve 8029 configured in the next step will be omitted.

Meanwhile, a plurality of supply of air or fluid material molecules are supplied to the inside of the material molecule separation bent pipe 8815 to the lower portion of the material molecule separation bent pipe 8815 configured in a step shape curved toward a lower direction. A structure in which the pump 8813 is coupled with the vent plate 8814 in which the through hole 8835 is configured.

In detail, the reason for continuously injecting gaseous substance molecules such as air into the inside of the material molecule separation bent pipe 8815 through the supply pump 8813 and the through hole configured in stages When fluid material molecules come into contact, natural material explosion and material friction are actively generated, and the structure is constructed to induce the decomposition of undecomposed ultrafine particles into even smaller sized ultrafine particles.

In the upper bent portion of the material molecule separation bent pipe 8815 located at a high place in a curved shape, a plurality of material molecule separation rising pipes 8845 are each configured in an upright shape.

In detail, all fluid material molecules are contaminated fluid material molecules with light specific gravity and fluid material with heavy specific gravity by using the property of inducing material shearing action to push fluid material molecules with light specific gravity upward and move to the lower part. It is a structure constructed to easily separate material molecules.

A structure in which a material molecule collection port 250 for collecting fluid material molecules having a light specific gravity is formed at an upper end of the material molecule separation and rising pipe 8845;

A structure in which a fluid material molecule discharge port 251 is provided at one side of the material molecule collection port 250 to discharge the collected fluid material molecules to the outside;

A plurality of material molecule descending guide plates 101, 301, 501 are formed in the material molecule separation rising pipe 8850, which is formed on the upper side of the material molecule separation bent pipe 8815, so that the fluid material molecules having a heavy specific gravity are directed downward. It is a structure in which the lower part material molecule movement passages 102 and 302 are configured to move the fluid material molecules of light specific gravity upward while acting to move to the lower part.

In other words, it is a structure to easily separate contaminated material molecules with light specific gravity from contaminated fluid material molecules with heavy specific gravity by promoting the separation of material molecules with heavy specific gravity and contaminated fluid material molecules with light specific gravity by the action of gravity. .

In the interior of the material molecule separation bent pipe 8815, a plurality of material molecule collision plates 8811, 8818, 823 and lower material molecule movement passages 8812.8825, 8826 configured to move fluid material molecules are respectively configured to A fluid material with a light specific gravity by constructing a vortex zone (8816, 8817, 8824) that acts to generate a material friction and a material explosion that occur when the heavy fluid material molecule and the light fluid material molecule collide. A fluid material molecule with a light specific gravity and a fluid material with a heavy specific gravity by using a material frictional action, a material explosion action, and a material collision that occur when molecules and gaseous material molecules such as air collide with molecules We present an eco-friendly material molecular separation machine configured to separate and extract molecules.

The following describes claim 65 constituted according to a 53rd embodiment of the present invention.

138 is a perspective view showing a material separator configured according to claim 65 according to a 53rd embodiment of the present invention, and FIG. 139 is a perspective view showing a material separator configured according to claim 65 according to the 53rd embodiment of the present invention. It is a separate perspective view of the eco-friendly material molecule separation processor shown separately and is composed as follows.

The shape of the lower end is inclined from one side to the other and is a structure of the fluid material molecule separation guide plate 2000.

A structure in which an eco-friendly material molecule separation processor 1100 is configured in a cylindrical shape on the upper side of the fluid material molecule separation guide plate 2000;

In the form in which the eco-friendly material and molecular separation processor 1100 is placed, a method of configuring a pedestal and placing it on the top of the pedestal is valid, but since it is possible to change the configuration in a wide variety, the detailed structure is omitted.

A structure in which a material molecule collection port 250 is configured to collect fluid material molecules having a light specific gravity on the upper side of the eco-friendly material molecule separation processor 1100.

The height of the material molecule collection port 250 is preferably 5 cm to 50 cm higher than the height of the upper end of the eco-friendly material molecule separation processor 1100, but the height is not particularly limited.

A structure in which a fluid material molecule discharge port 251 is provided at one side of the material molecule collection port 250 to discharge the collected fluid material molecules to the outside;

A structure in which an injection line 8001 for injecting fluid material molecules such as water is formed at an upper portion of one side of the eco-friendly material molecule separation processor 1100;

A structure in which a rotation supply pump 8850 is configured to simultaneously rotate while supplying fluid material molecules such as air or water at the lower end of the eco-friendly material molecule separation processor 1100.

It is possible to change the configuration to inject air through the rotary supply pump 8850 and simultaneously inject fluid molecules such as water.

The configuration of the rotary supply pump 8850, which is configured to supply liquid or air while rotating, can be changed in a very wide variety, so the detailed structure is omitted.

A structure in which a supply pipe 8855 is configured on the upper side of the rotary supply pump 8850;

The supply pipe (8855) has a structure in which the rotary abdominal plate (8853,8852) is intersected in a layered form in a form in which one direction is cut.

It is a structure configured to allow liquids such as air or water to communicate with each other between the supply pipe and the rotary ventilator.

A structure in which a plurality of ejection ports 8854 for ejecting fluid material molecules such as air or water are unspecified in an unspecified position in the rotating retractable plates 8853 and 8852.

The configuration of the spout is a form in which the positions of the spouts formed on the ventilating plate of the upper part and the lower part are not in contact with each other, but in different positions.

Fluid material molecules such as air or water through the rotary supply pump 8850, the supply pipe 8855, and the ejection port 8854 formed in the rotary ventilating plate 8853.8852 are transferred to the eco-friendly material molecule separation processor 1100. ), and at the same time injecting contaminated fluid material molecules or contaminated air through the injection line 8001 and at the same time controlling the discharge control valve 8029 through the injection line 8001 When 90 WT% to 99.99 WT% of the total amount of injected fluid substance molecules are discharged through the discharge line 8029, the remaining fluid substance molecules with a lighter specific gravity of 0.01 WT% to 10 WT% are the substance molecule collection ports. By using the action of natural gravity that is floated to the side of 250 and discharged to the outside through the fluid material molecule discharge port 251, the specific gravity combined with the fluid material molecules is light and the specific gravity is We present a technology for a nature-friendly eco-friendly material molecule separation and processing machine that separates and extracts heavy fluid material molecules.

In another method, a discharge line 8028 coupled with a discharge control valve 8029 is formed at the lower end of the other side of the eco-friendly material molecule separation processor 1100, so that a fluid material molecule having a heavy specific gravity and a fluid material molecule having a light specific gravity are formed. We present an eco-friendly material and molecular separation machine that is configured to separate and extract them.

In a state in which 100wt% of fluid material molecules are continuously injected through the injection line 8001 configured above the eco-friendly material molecule separation processor configured as described above, the discharge control valve 8029 is controlled and injected. When 90wt% to 99.99wt% of the total amount is discharged through the discharge line 8028, the remaining fluid material molecules with a light weight of 0.01wt% to 10wt% float to the material molecule collection port 250. At the same time, by using the action of natural gravity discharged to the outside through the fluid material molecule outlet 251, fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity are We present technology for separation and extraction of nature-friendly eco-friendly materials and molecules separation processing machine.

The following describes claim 66, which is constructed according to a 54th embodiment of the present invention.

FIG. 140 is a perspective view showing a material separator configured according to claim 66 according to a 54th embodiment of the present invention, and FIG. 141 is a perspective view showing a material separator configured according to claim 66 according to a 54th embodiment of the present invention. It is a separate perspective view of the eco-friendly material molecule separation processor shown separately and is composed as follows.

At the lower end, a vent plate 8814 is configured with a through hole 8835 configured to allow a fluid material molecule or a material such as air to pass through; and air or fluid material molecules are supplied to the lower end of the vent plate 8814 Note that the structure in which the supply pump 8813 is coupled; is.

The material injected through the supply pump 8813 may be a gaseous material, or may be changed to sequentially inject materials having a high specific gravity, and a change configuration is also made so that air and fluid material molecules can be simultaneously injected. It is possible

A structure in which a material molecule upper and lower separation pipe 8220 is formed in an upright shape at the upper end of the ventilation plate 8814;

A structure in which a material molecule collection port 250 is configured to collect fluid material molecules having a light specific gravity at an upper edge of the material molecule upper and lower separation pipe 8220;

A structure in which a fluid material molecule discharge port 251 is provided at one side of the material molecule collection port 250 to discharge the collected fluid material molecules to the outside;

A structure in which an injection line 8001 for injecting fluid material molecules is formed on an upper side of the material molecule upper and lower separation pipe 8220;

The structure of the gravity pipe 831 for separating material molecules is formed in a low inclined shape in the other side of the material molecule upper/lower separation pipe 8220 in a multi-stage stepped shape and a ∧ shape. Can be configured in a wide variety of configurations, and the number of configurations can be increased or decreased as much as possible.

A material molecule separation rising pipe 8845 is formed at an upper portion of the gravity pipe 8831 for separation of material molecules consisting of multiple stages, and a plurality of material molecule descending guide plates ( 101,301,501) are each configured to move the fluid material molecules with heavy specific gravity downward, while the lower material molecule movement passages 102 and 302, which act to move the fluid material molecules with light specific gravity upward, are configured respectively. Structure; is.

Each material molecule collection port 250 is configured on the upper side of the material molecule separation rising pipe 8845, and a fluid material molecule discharge port 251 is configured on the other side to discharge the collected fluid material molecules to the outside. rescue;

In the middle of the gravity pipe 831 for separating material molecules, step-by-step discharge control valves 821 and 8222 are configured, respectively.

The reason why the step-by-step discharge control valves 8221 and 82222 are respectively configured is the first step when the total injection amount of fluid substance molecules injected through the injection line 8001 configured on the upper side is assumed to be 100wt%. When the total amount of discharged discharged to the next step is discharged at a ratio of 90wt% to 99.99wt% by adjusting the discharge control valve 821, the remaining residual amount of fluid material molecules of 0.01wt% to 10wt% are composed on the upper side. It is a structure configured to be discharged to the outside or collected and reused through the material molecule collection port 250 and the fluid material molecule discharge port 251

This phenomenon occurs because of the material cut-off and material pushing action caused by the action of gravity, where fluid material molecules with a heavy specific gravity push up the fluid material molecules with a light specific gravity upward and exit first in the downstream direction.

In the curved portion of the lower end of the gravity pipe 8831 for separation of material molecules, which is configured in a stepwise manner so that fluid material molecules flow from a high place to a low place by the action of gravity, a fluid material molecule such as water or a gaseous material such as air A vent plate 8814 is configured with a through hole 8835 configured to allow material molecules to pass through; a supply pump 8813 for supplying air or fluid material molecules is coupled to the lower end of the vent plate 8814 Structure to be; is.

Method of injecting clean air or injecting contaminated air through each of the configured supply pumps 8813, injecting uncontaminated air and fluid material molecules with a heavy specific gravity, or simultaneously injecting air and fluid material molecules It is possible to process contaminated fluid material molecules or contaminated gaseous material molecules into fluid material molecules with a heavy specific gravity while paralleling

At the other end of the gravity pipe for material molecule separation (8831), a discharge line 8028 coupled with a discharge control valve 8029 to control discharge is formed to form a fluid material molecule having a heavy specific gravity and a fluid material having a light specific gravity. We present an eco-friendly material molecule separation processor configured to separate and extract material molecules.

Injecting contaminated fluid material molecules having a light specific gravity into the interior of the eco-friendly material molecule separating machine configured as described above, and at the same time controlling the discharged amount of discharged by adjusting the respective step-by-step discharge control valves 821 and 8222, respectively. Cleanly purifying contaminated fluid material molecules or contaminated gaseous material molecules by using the method and the material friction and material explosion action generated when air or fluid material molecules injected through the supply pump 8813 come into contact. We present a nature-friendly eco-friendly material and molecular separation machine

The following describes claim 67, which is constructed according to a 55th embodiment of the present invention.

FIG. 142 is a perspective view showing a material separator configured according to claim 67 according to a 55th embodiment of the present invention, and FIG. 143 is a perspective view showing a material separator configured according to claim 67 according to a 55th embodiment of the present invention. It is a separate perspective view of the eco-friendly material molecule separation processor shown separately and is composed as follows.

A ventilation plate 8814 is configured with a through hole 8835 configured to allow fluid material molecules or gaseous substances such as air to pass through at the lower end thereof; and air or fluid material molecules are provided at the lower end of the ventilation plate 8814. The structure in which the supply pump 8813 is coupled to supply;

A structure in which a material molecule upper and lower separation pipe 8220 is formed in an upright shape at the upper end of the ventilation plate 8814;

A structure in which a material molecule collection port 250 is configured to collect fluid material molecules having a light specific gravity at an upper edge of the material molecule upper and lower separation pipe 8220;

A structure in which a fluid material molecule discharge port 251 is provided at one side of the material molecule collection port 250 to discharge the collected fluid material molecules to the outside;

A structure in which an injection line 8001 for injecting fluid material molecules is formed on an upper side of the material molecule upper and lower separation pipe 8220;

A structure in which a first rising pipe 8830 is formed in an inclined shape on the other side of the material molecule upper and lower separation pipe 8220;

A structure in which a secondary material molecule upper and lower separating pipe 8821 is formed in an upright type on the other side of the primary rising pipe 8830;

A structure in which a material molecule collection port 250 for collecting fluid material molecules having a light specific gravity is formed at an upper edge of the secondary material molecule upper/lower separation pipe 8821;

A structure in which a fluid material molecule discharge port 251 is provided at the other side of the material molecule collection port 250 to discharge the collected fluid material molecules to the outside;

At the lower end of the secondary substance molecule upper and lower separation pipe 8821, a vent plate 8814 is configured with a through hole 8835 configured to allow fluid substance molecules or gaseous substances such as air to pass through; A structure in which a supply pump 8813 for supplying air or fluid material molecules is coupled to the lower end of the substrate 8814;

A structure in which a primary discharge control valve 821 is coupled to the middle of the secondary material molecule upper and lower separation pipe 8821;

A structure in which a transverse transfer pipe 8822 is coupled to the other side of the secondary material molecule upper and lower separation pipe 8821 in a horizontally inclined shape;

A structure in which a tertiary material molecule upper and lower separating pipe (8827) is formed in an upright shape at an end of the transverse transfer pipe (8822);

At the lower end of the tertiary material molecule upper/lower separation pipe 8827, a vent plate 8814 is configured with a through hole 8835 configured to allow a fluid material molecule or a material such as air to pass; the vent plate ( A structure in which a supply pump 8813 for supplying air or fluid material molecules is coupled to the lower end of the 8814);

A structure in which a material molecule collection port 250 for collecting fluid material molecules having a light specific gravity is formed at an upper edge of the tertiary material molecule upper and lower separation pipe 8827;

A structure in which a fluid material molecule discharge port 251 is provided at the other side of the material molecule collection port 250 to discharge the collected fluid material molecules to the outside;

A structure in which a descending guide pipe (8828) is inclined downwardly on the other side of the tertiary material molecule upper and lower separating pipe (8827) and has a ∨-shaped end that is raised;

A structure in which a secondary discharge control valve 8222 is coupled in the middle of the descending guide pipe 8828;

A structure in which a material molecule collection port 250 is configured to collect fluid material molecules having a light specific gravity at an upper edge of the descending guide pipe 8828;

A structure in which a fluid material molecule discharge port 251 is provided at the other side of the material molecule collection port 250 to discharge the collected fluid material molecules to the outside;

A structure in which a material molecule final discharge pipe (8833) is formed on the other side of the descending guide pipe (8828);

The lower end of the material molecule final discharge pipe (8833) is configured with a vent plate (8814) configured with a through hole (8835) configured to allow a fluid material molecule or a material such as air to pass through; the lower end of the vent plate (8814). There is a structure in which a supply pump 8813 for supplying air or fluid material molecules is coupled;

On the other side of the material molecule final discharge pipe (8833), an eco-friendly material molecule separation processor 1100 consisting of a discharge line 8028 coupled with a discharge control valve 8029 is presented.

The material that can be injected through the supply pump 8813 can be injected with gaseous materials and fluid materials or simultaneously.

100WT% of the total inflow amount is injected through the injection line 8001 configured in the eco-friendly material molecule separation processor 1100 configured as described above, and at the same time, each of the discharge control valves 8721,8222 configured in stages. ,8029), respectively, to reduce the amount of discharge by 90WT%~99.99WT% step by step, the remaining 0.01WT%~10WT% of fluid substance molecules with a lighter weight are placed on the upper side of the eco-friendly substance molecule separator. Contaminated fluid material molecules having a light specific gravity by operating to overflow through the configured material molecule collection port 250 and the fluid material molecule outlet 251

We present a nature-friendly eco-friendly material molecule separator that separates and extracts the combined fluid material molecules with heavy specific gravity and the fluid material molecules with heavy specific gravity.

Next, a description will be given of claim 68 configured according to a 56th embodiment of the present invention.

FIG. 144 is a perspective view showing a material separator configured according to claim 68 according to a 56th embodiment of the present invention, and FIG. 145 is a perspective view showing a material separator configured according to claim 68 according to the 56th embodiment of the present invention. It is a separate perspective view of the eco-friendly material molecule separation processor shown separately and is composed as follows.

A ventilation plate 8814 is configured with a through hole 8835 configured to allow fluid material molecules or gaseous substances such as air to pass through at the lower end thereof; and air or fluid material molecules are provided at the lower end of the ventilation plate 8814. A structure in which a supply pump 8813 is coupled to supply;

A structure in which a material molecule upper and lower separation pipe 8820 is formed in an upright shape at the upper end of the ventilation plate 8814;

A structure in which a material molecule collection port 250 is configured to collect fluid material molecules having a light specific gravity at an upper edge of the material molecule upper and lower separation pipe 8220;

A structure in which a fluid material molecule discharge port 251 is provided at one side of the material molecule collection port 250 to discharge the collected fluid material molecules to the outside;

A structure in which an injection line 8001 for injecting fluid material molecules is formed on an upper side of the material molecule upper and lower separation pipe 8220;

A structure in which a plurality of material molecule separation guide holes 8846 in a circular shape on one side of the material molecule upper and lower separation pipe 8220 are connected to each other in the form of a layered layer in a stepped structure.

In detail, it is preferable that the material molecule separation induction hole 8846 for the next step is configured at the lower position of at least 10% to 80% of the position of the material molecule separation induction hole 8846 for the next step, which is constituted primarily, but is specifically limited. I never do that.

In the interior of the material molecule separation guide hole 8846, an internal material molecule free tool 8300 is combined in a circular shape with a size smaller by 10% to 50% than the size of the material molecule separation guide hole 8846 A structure consisting of a plurality of material molecule rise induction passages 8301 in the form of a stepwise step;

However, it can be composed of a square pipe or a circular pipe, not a circular shape, and it is composed of a triangle, rhombus, hexagonal or octagonal shape to separate the fluid material molecules with light specific gravity and the fluid material molecules with heavy specific gravity up and down. Change configuration is possible

It is natural that all of these design changes belong to the scope of the present invention.

A structure in which a material molecule separation rising pipe 8845 is formed on the upper side of the material molecule separation induction port 8846;

A plurality of material molecule descending guide plates 101 are formed in the inside of the material molecule separating and rising pipe 8845, so that the fluid material molecules having a heavy specific gravity move downward, and the fluid material molecules having a light specific gravity Structure composed of material molecule movement passages (102,302) at the lower end that act to move them in the upward direction

A structure in which a material molecule collection port 250 for collecting fluid material molecules having a light specific gravity is formed on the upper side of the material molecule separation rising pipe 8845;

A structure in which a fluid material molecule discharge port 251 for discharging the collected fluid material molecules to the outside is provided at the other side of the material molecule collection port 250;

Ventilation plate configured with a through hole 8835 configured to allow fluid material molecules or gaseous substances such as air to pass through the lower corners of the material molecule separation guide holes 8846 each having a stepped structure and combined in a layered structure A structure in which a supply pump 8813 for supplying air or fluid material molecules is coupled to the lower end of the ventilation plate 8814, respectively;

A vent plate 8814 is configured with a vent hole 8835 configured to allow a fluid substance molecule or a gaseous substance such as air to pass through a rounded lower end of the material molecule separation induction hole 8846; the vent plate ( A structure in which a supply pump 8813 for supplying air or fluid material molecules is coupled to the lower end of the 8814);

A structure in which a pipe for separating material molecules up and down at an end portion 8847 is coupled to one end of the material molecule separation induction port 8846;

A structure in which a material molecule collection port 250 for collecting fluid material molecules having a light specific gravity is formed at an upper end of the upper and lower separation pipe 8847;

A structure in which a fluid material molecule discharge port 251 is provided at the other side of the material molecule collection port 250 to discharge the collected fluid material molecules to the outside;

A discharge line 8028 coupled with a discharge valve 8029 that controls discharge is formed at one lower end of the upper and lower separation pipe 8847 at the end of the material, and is combined with contaminated fluid material molecules with a light specific gravity. We present a nature-friendly eco-friendly material molecule separation processor 1100 configured to separate and extract fluid material molecules with a heavy specific gravity and fluid material molecules with a light specific gravity.

The environment-friendly material is continuously injected through the supply pump 8813, which is coupled to the nature-friendly material-molecular separation processor 1100 configured as described above, and at the same time, the environment-friendly material through the injection line 8001. The total amount of inflow 100WT is controlled by controlling the discharge control valve 8029 at one end of 100WT% of the total amount of inflow of fluidic material molecules while continuously injecting the fluidic substance molecules into the molecular separation processor 1100. Of the %, only 90 WT% to 99.99 WT% are discharged through the discharge line 8028, and the remaining fluid material molecules with a light specific gravity of 0.01 WT% to 10 WT% are formed on the upper side of the eco-friendly substance molecule separator. Contaminated fluid material molecules having a light specific gravity using a nature-friendly eco-friendly material molecule separation processor configured to collect and reprocess or collect and reuse through the material molecule collection port 250 and the fluid material molecule discharge port 251 We present a nature-friendly eco-friendly material molecule separation machine that separates and extracts fluid material molecules with a heavy specific gravity and fluid material molecules with a heavy specific gravity combined with them.

The following describes claim 69 configured according to a 57th embodiment of the present invention.

146 is a perspective view showing a material separator configured according to claim 69 according to a 57th embodiment of the present invention, and FIG. 147 is a perspective view showing a material separator configured according to claim 69 according to the 57th embodiment of the present invention. It is a separate perspective view of the eco-friendly material molecule separation processor shown separately and is composed as follows.

A ventilation plate 8814 is configured with a through hole 8835 configured to allow fluid material molecules or gaseous substances such as air to pass through at the lower end thereof; and air or fluid material molecules are provided at the lower end of the ventilation plate 8814. A structure in which the supply pump 8813 for supplying is combined. The arrangement form of the through hole 8814 configured on the ventilation plate 8813 can be changed in a very wide variety.

A structure in which a plurality of material molecule separation guide holes 8500 in a circular shape are connected to the upper end of the ventilation plate 8814 in an inclined form of a layered layer in a stepped structure as shown in FIGS. 146 and 147; to be

In the interior of the material molecule separation induction port 8500, an internal material molecule free tool 8501 is combined in a circular shape while having a size smaller by 10% to 50% than the size of the material molecule separation induction port 8500 It is a structure in which a plurality of material molecule rise induction passages 8502 are constructed in the form of a stepwise step.

However, the width and size of the internal material free tool 8501 can be freely changed. In addition, it is possible to change the configuration to control the discharged amount by additionally configuring a valve on one side or the other side of the inner material molecular oil tool (8501).

At the lower end of the material molecule separation induction port 8500 configured in a stepwise manner, a ventilation plate 8814 is configured with a through hole 8835 configured to allow fluid material molecules or gaseous substances such as air to pass through; A structure in which a supply pump 8813 for supplying air or fluid material molecules is coupled to the lower end of the substrate 8814, respectively;

The structure in which the material molecule separation rising pipes 8845, 8865, and 8875 are respectively configured on the upper side of the material molecule separation induction port 8500, respectively.

However, as shown in Figs. 146 and 147, the thicknesses of the material molecule separation rising pipes 8845, 8865, and 8875 are structured to have different sizes and thicknesses.

The reason for this configuration is to control the difference in discharge amount between the fluid material molecules injected through the injection line 8001 and the excess fluid material molecules discharged through the fluid material molecule outlet 251

A plurality of material molecule descending guide plates 101 are formed in the interior of the material molecule separation and rising pipes 8845, 8865, and 8875, respectively, so that the fluid material molecules having a heavy specific gravity move downward while having a light specific gravity. The lower part material molecule movement passages 102 and 302 and the upper part movement passage 1032 that act to move the fluidic substance molecules upwardly are formed, respectively. However, the size and width of the substance molecule descending guide plate 101 are free. It is possible to change composition by material.

The configuration of the upper moving passage 1032 is the material molecule separation guide port 8500 and the

It is a structure in which a space is formed so that fluid material molecules and gaseous material molecules easily pass between the internal material molecule release tools 8501.

A structure in which a material molecule collection port 250 for collecting fluid material molecules having a light specific gravity is formed on the upper side of the material molecule separation rising pipe 8845;

A structure in which a fluid material molecule discharge port 251 for discharging the collected fluid material molecules to the outside is provided at the other side of the material molecule collection port 250;

A structure in which an injection line 8001 for injecting fluid material molecules is formed on the upper side of the material molecule separation rising pipe 8845. However, by configuring multiple injection lines, it is possible to change the composition to promote the separation of the substance molecules by separately injecting fluid substance molecules with different specific gravity and mass.

Contaminated by configuring a discharge line 8028 coupled with a discharge control valve 8029 that controls discharge at the lower end of the other end of the material molecule separation induction port 8500, which is a stepwise and layered form at the end. We present a nature-friendly eco-friendly material molecule separation processor 1100 that is configured to separate and extract fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity combined with the fluid material molecules.

The environment-friendly material is continuously injected through the supply pump 8813, which is coupled to the nature-friendly material-molecular separation processor 1100 configured as described above, and at the same time, the environment-friendly material through the injection line 8001. The total amount of inflow 100WT is controlled by controlling the discharge control valve 8029 at one end of 100WT% of the total amount of inflow of fluidic material molecules while continuously injecting the fluidic substance molecules into the molecular separation processor 1100. Of the %, only 90 WT% to 99.99 WT% are discharged through the discharge line 8028, and the remaining fluid material molecules with a light specific gravity of 0.01 WT% to 10 WT% are configured on the upper side of the eco-friendly substance molecule separation processor 1100. Contaminated fluid with a light specific gravity using a nature-friendly eco-friendly material molecule separation processor configured to collect and reprocess or collect and reuse through the material molecule collection port 250 and the fluid material molecule discharge port 251 We present a nature-friendly eco-friendly material molecule separation machine that separates and extracts fluid material molecules with a heavy specific gravity and fluid material molecules with a heavy specific gravity that are combined with sexual material molecules.

The following describes claim 70 configured according to the 58th embodiment of the present invention.

148 is a perspective view showing a material separator constructed according to claim 70 according to a 58th embodiment of the present invention, and FIG. 149 is a perspective view showing a material separator configured according to claim 70 according to the 58th embodiment of the present invention. It is a separate perspective view of the eco-friendly material molecule separation processor shown separately and is composed as follows.

A ventilation plate 8814 is configured with a through hole 8835 configured to allow fluid material molecules or gaseous substances such as air to pass through at the lower end thereof; and air or fluid material molecules are provided at the lower end of the ventilation plate 8814. A structure in which a supply pump 8813 is coupled to supply;

A structure in which a material molecule upper and lower separation pipe 8820 is formed in an upright shape at the upper end of the ventilation plate 8814.

It can be changed to round, square or rectangle.

A structure in which a material molecule collection port 250 is configured to collect fluid material molecules having a light specific gravity at an upper edge of the material molecule upper and lower separation pipe 8220;

A structure in which a fluid material molecule discharge port 251 is provided at one side of the material molecule collection port 250 to discharge the collected fluid material molecules to the outside;

A structure in which an injection line 8001 for injecting fluid material molecules is formed on an upper side of the material molecule upper and lower separation pipe 8220.

The number of components of the injection line can be increased as much as possible. That is, by simultaneously injecting a fluid material molecule with a light specific gravity and a fluid material molecule with a heavy specific gravity, a fluid material molecule with a light specific gravity and a fluid material molecule with a heavy specific gravity are It can be configured by increasing the number of injection lines to increase the separation effect.

On the other side of the material molecule upper and lower separating pipe 8220, a plurality of material molecule separating rings 8600 in the form of a circular pipe are in the form of a stepwise and layered layer, and the internal configuration is in the form of an empty space, so that the specific gravity is A structure in which material molecule separation passages 8601 and 8602 are configured to separate light fluid material molecules and heavy fluid material molecules up and down.

Since the number of components of the material molecule separation ring 8600 can be increased as much as possible to increase the processing capacity, it is natural that all such design changes fall within the scope of the present invention.

The material molecule separating ring 8600 can be changed in a wide variety of configurations, that is, a hexagonal shape, an octagonal shape, or a rhombus shape can be changed instead of a circular shape.

Each of the material molecule separating rings 8600 has a structure in which an intermediate discharge control valve 8603 for controlling the amount of discharge flowing from the upper side is formed.

In FIGS. 148 and 149, one intermediate discharge control valve 8603 is shown, but it is a structure configured for every material molecule separation ring 8600.

At the lower end of the material molecule separating ring 8600, a vent plate 8814 is configured with a vent hole 8835 configured to allow fluid material molecules or gaseous substances such as air to pass through; and the vent plate 8814 is configured. A structure in which a supply pump 8813 for supplying air or fluid material molecules is coupled to each other at the lower end;

A structure in which a material molecule separation rising pipe 8845 is formed on the upper side of the material molecule separation ring 8600, respectively;

Each material molecule descending guide plate 101 is formed in the inside of the material molecule separation and rising pipe 8845 to move fluid material molecules with a heavy specific gravity downward while moving the fluid material molecules with a light specific gravity upward. Structure consisting of material molecule movement passages 102 and 302 at the lower end acting to move in the direction

A structure in which a material molecule collection port 250 for collecting fluid material molecules having a light specific gravity is formed on the upper side of the material molecule separation rising pipe 8845;

A structure in which a fluid material molecule discharge port 251 for discharging the collected fluid material molecules to the outside is provided at the other side of the material molecule collection port 250;

Contaminated by configuring a discharge line 8028 coupled with a discharge control valve 8029 that controls discharge at the other end of the material molecule separation ring 8600, which is a stepwise and layered form at the end. We present a nature-friendly eco-friendly material molecule separation processor 1100 that is configured to separate and extract fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity combined with fluid material molecules.

Air is continuously injected through each of the supply pumps 8813, which are coupled and coupled to the nature-friendly eco-friendly material molecule separation processor 1100 configured as described above, and at the same time, the air is continuously injected through the injection line 8001. Fluid material molecules are continuously injected into the interior of the eco-friendly material molecule separation processor 1100, and at the same time, the discharge control valve 8029, which is formed at one end of the fluid material molecule, is adjusted compared to 100WT% of the total inflow amount. Of the total amount of 100 WT%, only 90 WT% to 99.99 WT% are discharged through the discharge line 8028, and then the remaining fluid material molecules with a light specific gravity of 0.01 WT% to 10 WT% are placed on the upper side of the eco-friendly substance molecule separation processor 1100. Pollution of light specific gravity using a nature-friendly eco-friendly material molecule separation processor configured to collect and reprocess or collect and reuse through the material molecule collection port 250 and the fluid material molecule discharge port 251 respectively configured We present a nature-friendly eco-friendly material molecule separation machine that separates and extracts fluid material molecules with a heavy specific gravity and fluid material molecules with a heavy specific gravity combined with the fluid material molecules.

In another method, the intermediate discharge control valve 8603 is adjusted by slightly adjusting the intermediate discharge control valve 8603 so that about 1 wt% to 10 wt% of the total inflow amount flowing into the injection line 8001 is sequentially reduced. ) To adjust the total amount discharged through the discharge line 8028 to be finally discharged from 5wt% to 50wt%, and at the same time, the specific gravity by using the air supplied through the supply pump 8013 While striking the light fluid material molecules and the fluid material molecules having a heavy specific gravity, the fluid material molecules with a light specific gravity overflowing through the material molecule collection port 250 are transmitted through the fluid material molecule discharge port 251. Contaminated fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity and fluid properties with heavy specific gravity are combined with contaminated fluid material molecules with light specific gravity using a nature-friendly eco-friendly material molecular separation machine configured to collect and reprocess or collect and reuse. We present a nature-friendly eco-friendly material molecule separation machine that separates and extracts material molecules.

The following describes claim 71, which is constructed according to a 59th embodiment of the present invention.

FIG. 150 is a perspective view showing a material separator configured according to claim 71 according to a 59th embodiment of the present invention, and FIG. 151 is a perspective view showing a material separator configured according to claim 71 according to a 59th embodiment of the present invention. It is a separate perspective view of the eco-friendly material molecule separation processor shown separately and is composed as follows.

A ventilation plate 8814 is configured with a through hole 8835 configured to allow fluid material molecules or gaseous substances such as air to pass through at the lower end thereof; and air or fluid material molecules are provided at the lower end of the ventilation plate 8814. A structure in which the supply pump 8813 for supplying is combined.

자의 형태로 물질분자 지그재그 상·하 분리 파이프(8200)가 구성되는 구조;이다.On the upper end of the ventilation plate 8814

It is a structure in which the material molecule zigzag upper and lower separation pipes 8200 are constructed in the form of a ruler.

In other words, it is a structure composed of a W-shape that is laid sideways, but it can be configured by changing any number of laid angles and configuration shapes.

A structure in which a material molecule separation rising pipe 8845 is formed on the upper side of the material molecule zigzag upper and lower separation pipe 8200;

A structure in which a material molecule collection port 250 for collecting fluid material molecules having a light specific gravity is formed on the upper side of the material molecule separation rising pipe 8845;

A structure in which a plurality of fluid material molecule discharge ports 251 are provided at the other side of the material molecule collection port 250 for discharging the collected fluid material molecules to the outside;

A structure in which an injection line 8001 for injecting fluid material molecules is formed on the upper side of the material molecule separation rising pipe 8845.

The configuration depth for inserting the injection line 8001 into the interior of the eco-friendly material molecule separation processor can be changed as much as any number.

At the lower end of the middle middle corner of the material molecule zigzag upper and lower separation pipe 8200

A ventilation plate 8814 is configured with a through hole 8835 configured to allow fluid material molecules or gaseous substances such as air to pass through; and air or fluid material molecules are supplied to the lower end of the ventilation plate 8814 Note that the structure in which the supply pump 8813 is coupled; is.

The configuration of the supply pump 8813 can be changed in a wide variety because there are a wide variety of known and used products.

A structure in which a material molecule collection port 250 for collecting fluid material molecules having a light specific gravity is formed at an upper portion of the middle middle corner of the material molecule zigzag upper and lower separation pipe 8200;

A structure in which a fluid material molecule discharge port 251 for discharging the collected fluid material molecules to the outside is provided at the other side of the material molecule collection port 250;

In the middle of the material molecule zigzag upper and lower separating pipe 8200, discharge control valves 8821 and 8222 are respectively configured to control discharge amount.

The reason for configuring the discharge control valves 8221 and 82222 in the middle is that the primary discharge control valve 821 is assuming that the total amount of inflow introduced through the injection line 8001 configured on the upper side is 100wt%. When 90wt% to 95wt% of the total amount of inflow is discharged downward by adjusting the control, the remaining amount of 5wt% to 10wt% is the material molecule collection port 250 and the fluid material molecule discharge port ( 251) is discharged to the outside of the eco-friendly material molecule separation processor 1100, reprocessed, or collected and reused, and the remaining 90Wt% to 95wt% of fluid material molecules are transferred to the next step. When discharged to the lower end of the lower separation pipe 8200 and at the same time, the secondary intermediate discharge amount control valve 8222 is adjusted to allow 90Wt% to 95wt% of fluid substance molecules flowing from the upper side assuming that the total amount of inflow is 100wt%. If 90wt%~95wt% of the total amount of inflow is discharged in a downward direction, the remaining amount of 5wt%~10wt% is the material molecule collection port 250 and the fluid material molecule discharge port 251 configured on the upper side. Fluid material molecules with a light specific gravity discharged through the environment are discharged to the outside of the eco-friendly material molecule separation processor 1100 to be reprocessed or collected and reused, and at the same time, the material molecules zigzag phase through the supply pump 8813 respectively configured. The gaseous material molecules such as air are continuously forcibly injected through the material molecule separation passage 8201 configured inside the lower separation pipe 8200, and the specific gravity combined with the fluid material molecules having a heavy specific gravity is light. At the same time as separating the fluid material molecules, the discharge control valve 8029 at the end is adjusted to recall the fluid material molecules of 80 wt% to 90 wt% compared to 100 wt% of the total inflow amount initially introduced through the injection line 8001. It is finally discharged through the discharge line 8028 and The specific gravity discharged through the material molecule collection port 250 and the fluid material molecule discharge port 251, which are finally configured above the lower end of the material molecule zigzag upper/lower separation pipe 8200, while being used or reprocessed We present a nature-friendly eco-friendly material molecule configured to be reprocessed or collected and reused by discharging 10 wt% to 20 wt% of light fluid material molecules out of the eco-friendly material molecule separation processor 1100.

In detail, gaseous material molecules such as air supplied through the supply pump 8813 while continuously injecting fluid material molecules into the interior of the eco-friendly material molecule separation processor 1100 through the injection line 8001 The lower part of the other side of the zigzag upper/lower separation pipe 8200 while separating and processing the fluid material molecules with a light specific gravity and the fluid material molecules with a heavy specific gravity by continuously striking the contaminated fluid material molecules with the use of The contaminated fluid material molecules combined with the heavy fluid material molecules and the fluid material molecules with a light specific gravity by sequentially controlling the intermediate control valves 821 and 8222 configured are separated from the eco-friendly material molecules. After discharging through the material molecule collection port 250 and the fluid material molecule discharge port 251 configured on the upper side of the processing machine 1100, the fluid material molecules with a heavy specific gravity are discharged while collecting and processing or reusing. A nature-friendly structure configured to separate and extract contaminated fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity using a nature-friendly eco-friendly material molecule separation processor 1100 configured to be discharged to the line 8028 and reused. We present an eco-friendly material molecule separation and processing machine (1100)

Contaminated fluid materials or air with high fine dust content or contaminated gaseous materials are injected using the nature-friendly eco-friendly material molecule separation processor 1100 configured as described above, so that the gaseous material molecules with light specific gravity and the specific gravity are reduced. It can be used to separate and extract heavy gaseous substances.

The following describes claim 72 configured according to a 60th embodiment of the present invention.

FIG. 152 is a perspective view showing a material separator configured according to claim 72 according to a 60th embodiment of the present invention, and FIG. 153 is a perspective view showing a material separator configured according to claim 72 according to a 60th embodiment of the present invention. It is a separate perspective view of the eco-friendly material molecule separation processor shown separately and is composed as follows.

The structure of the lower part is a structure in which the fluid material molecule separation guide plate 2000 is inclined in one direction from the other side and is composed of layers in the form of ∪;

A structure in which a material molecule separation processing tool 8700 is formed in a layered layer on the upper side of the fluid material molecule separation guide plate 2000 in a pentagon shape;

A structure in which a material molecule collection port 250 for collecting fluid material molecules having a light specific gravity is formed in layers on the upper side of the material molecule separation processing port 8700;

A structure in which a fluid material molecule discharge port 251 for discharging the collected fluid material molecules to the outside is provided at the other side of the material molecule collection port 250;

A structure in which a plurality of rotating striking bodies 8702 for processing by striking fluid material molecules are respectively coupled to the rotating body 8701 on the side of the material molecule separation processing tool 8700;

A structure in which discharge lines 8028 coupled with discharge control valves 8029 are respectively coupled to the lower end of the material molecule separation processing port 8700;

A fluid material molecule having a light specific gravity and a fluid having a heavy specific gravity combined with a contaminated fluid material molecule by combining an injection line 8001 that injects fluid material molecules on the upper side of the material molecule separation processing port 8700 We present a nature-friendly eco-friendly material molecule separation and processing machine (1100) configured to separate and process sexual material molecules.

In detail, contaminated fluid material molecules are continuously injected through the injection line 8001 configured on the uppermost side of the material molecule separation processing hole 8700, and at the same time, the plurality of rotating striking bodies 8702 and the rotor are Each of the discharge lines 8028 composed of a layer layer assuming that the total amount of injection injected through the injection line 8001 is 100 wt% while processing by continuously striking the fluid material molecules using the entire 8701 ) Through 90wt% to 99wt% of the total injection amount in order to discharge to each of the material molecule separation processing ports 8700 configured in the lower layer, and at the same time, through the discharge line 8028 configured in the lowermost layer. After discharging, collecting and using

Fluid material molecules with a light specific gravity of 1 wt% to 10 wt% of the remaining excess residual amount are discharged to the outside through the material molecule collection port 250 and the fluid material molecule discharge port 251 each composed of a layered layer to be collected and used, or We present nature-friendly, eco-friendly material molecules that are configured to be reprocessed.

The following describes claim 73, which is constructed according to the 61st embodiment of the present invention.

154 is a partial perspective view illustrating a plan state of an upper portion of a nature-friendly eco-friendly material molecule separation processor 1100 constructed according to the 61st embodiment of the present invention, and is configured as follows.

Each of the upper and lower operation guides 8282 are configured in the environment-friendly environment-friendly material molecule separation processor 1100 to place the material molecule descending guide plate 101 and the fluid material molecule rising guide plate 201 on the inside. We present a nature-friendly eco-friendly material molecule separation machine (1100) that is configured to separate and process fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity that are combined with contaminated fluid material molecules by operating below. do.

In detail, by controlling the height of the material molecule descending guide plate 101 and the fluid material molecule rising guide plate 201 freely, the amount of discharge can be adjusted according to the type of fluid material molecule to be processed to improve processing efficiency. It is a structure that is composed to enhance

Therefore, the height and size of the material molecule descending guide plate 101 and the fluid material molecule rising guide plate 201 configured in the interior of all eco-friendly material molecule separation processor 1100 applied to each embodiment of the present invention are Any number of changes can be made.

In addition, the number of installations of the material molecule descending guide plate 101 and the fluid material molecule rising guide plate 201 configured in the environment-friendly material molecule separation processor 1100 may be increased.

Therefore, it is a matter of course that all of the materials constructed by increasing or decreasing the number of the material molecule descending guide plate 101 and the fluid material molecule rising guide plate 201 belong to the scope of the present invention.

The following describes claim 74 configured according to a 62nd embodiment of the present invention.

FIG. 155 is a photograph of a collision promoting member that is introduced into an environment-friendly, eco-friendly material molecule separation machine constructed according to a 62nd embodiment of the present invention, and is configured as follows.

Fluid material molecules by inserting a collision promoting member 123 configured to promote material collision, material friction, and material explosion action of fluid material molecules into the interior of the nature-friendly eco-friendly material molecule separation processor 1100 We present a nature-friendly eco-friendly material molecule separation machine configured to separate and process fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity.

The shape of the collision promoting member 123 can be freely changed.

In addition, it is possible to change the configuration so as to increase the efficiency of a material friction action, a material explosion action, and a material collision action by introducing a vegetable material, mineral material, or metallic material into the collision promoting member 123.

It is natural that all of these design changes belong to the scope of the present invention.

The following describes claim 75 configured according to the 63rd embodiment of the present invention.

156 is a perspective view showing a material separator configured according to claim 75 according to the 63rd embodiment of the present invention

157 is an exploded perspective view of an eco-friendly material molecule separating machine showing a material molecule separating processor configured according to claim 75 according to a 66th embodiment of the present invention by dividing it in half, and FIG. A perspective view of a multi-stage eco-friendly material-molecule separating processor, which shows a state in which the material molecule separating processor configured according to claim 75 is installed and configured in multiple stages, is configured as follows.

The shape of the lower part is a structure in which the fluid material molecule separation guide plate 2000 is configured in a shape inclined from one side to the other. It is a structure that consists of a horizontal and vertical state, and the combined structure is omitted for the subsidiary facilities that are additionally combined to be vertical

A rotating striking body 1503 is coupled to the rotating body 1502 at the lower end of the fluid material molecule separation guide plate 2000 to strike the fluid material molecules in a diagonal direction.

The changeable configuration of the rotating strike body can be changed in a wide variety.

The reason for this is not particularly limited because it can be configured by changing the rotary striking body using a compressor or water pump impeller or a turbo for air compression currently used.

Since no one in the world has studied the method of separating and processing heavy-weight material molecules and light-weight fluid material molecules combined with contaminated fluid material molecules using air, the material molecules newly announced in the present invention Changed the method of separating and processing fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity combined with contaminated fluid material molecules by causing the impact method and material molecule explosion action and material molecule frictional action. Since it is very simple to do, the description of the specific configuration of the rotating strike body is omitted.

This is because, until now, nobody in the world knows how to cleanly process a fluid material molecule by hitting it, so if you know the new fluid processing theory suggested by the present invention, you can make a similar product very simply.

In other words, it is possible to apply the structure of the rotating striking body by changing the impeller type or compressor compression method, the compression method of a water pump, or the hitting method using a rotating brush, so that the specific structure is not explained, but simply by using compressed air. When the fluid material molecules are hit by using a rotating body configured to strike while rotating, the fluid material molecules with light specific gravity and the fluid material molecules with heavy specific gravity combined with the contaminated fluid material molecules are affected by the action of gravity. Separate and process contaminated fluid material molecules and heavy fluid material molecules using natural phenomena separated from each other by means of a very simple change configuration, so a detailed description of the structure of the rotary striker is omitted. will be

A structure in which an eco-friendly material molecule separation processor 1100 is configured in a square shape on the upper side of the fluid material molecule separation guide plate 2000.

However, it is possible to change the composition into a circular shape, a hexagonal shape, or an octagonal shape, and the composition can be made by adding separate structures that promote the collision effect inside.

A structure in which a material molecule collection port 250 is provided at the upper edge of the eco-friendly material molecule separation processor 1100 to collect fluid material molecules having a light specific gravity;

A structure in which a fluid material molecule discharge port 251 is provided at the other side of the material molecule collection port 250 to discharge the collected fluid material molecules to the outside;

A structure in which a plurality of rotating striking bodies 1503 for processing by striking fluid material molecules are combined with the rotating body 1502 on the side of the eco-friendly material molecule separation processor 1100 to face each other in opposite directions; .

Since the number of configurations of the rotating striking body 1503 can be configured by adding any number, it is natural that all configurations of different numbers belong to the scope of the present invention.

A structure in which a discharge line 8050 configured in the shape of a ∩ shape is combined with a discharge control valve 8029 at the lower end of the other side of the eco-friendly material molecule separator 1100 to preferentially discharge fluid material molecules with a heavy specific gravity. ;to be.

The reason why the discharge line 8050 is configured in a ∩ shape is to preferentially discharge and extract and use fluid substance molecules having a heavy specific gravity in the lower part.

The configuration angle of the discharge line 8050 can be changed in a wide variety and can be configured by adding a configuration number.

A structure in which an injection line 8001 for injecting fluid material molecules is coupled to an upper side of the eco-friendly material molecule separation processor 1100.

Any number of components of the injection line 8001 can be added.

On the other side of the eco-friendly material molecule separation processor 1100, the eco-friendly material molecule separation processor 1100, which has an injection pipe 777 comprising a plurality of ejection ports 7700, is configured to be overlapped in multiple stages, and then multi-stage eco-friendly material molecules Contaminated fluid material molecules are continuously injected into the interior of the separation processor 1100 through the injection line 8001, and at the same time, through the injection pipe 7777 configured in the multi-stage eco-friendly material molecule separation processor 1100. Contaminated fluid material molecules and air are faced to each other by using the rotating striking body 1503 and the rotating body 1502 installed in the diagonal direction of the side and lower portions while continuously injecting air. The discharge control valve 8029 coupled to the discharge line 8050 when the total amount of inflow of contaminated fluid material molecules injected through the injection line 8001 is assumed to be 100 WT% while being processed by hitting at the same time. ) To re-inject 85WT% to 90WT% of the total amount of inflow 100WT% into the interior of the multi-stage eco-friendly material molecular separation processing machine (1100) consisting of multiple stages at the bottom, using a sequential discharge method and a sequential blow processing method. Thus, contaminated fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity are separated and processed, and the remaining excess remaining overflowing to the upper side of the multi-stage eco-friendly material molecule separation processor 1100 Fluid material molecules with a light specific gravity of 10 WT% to 15 WT% use the material molecule collection port 250 and the fluid material molecule discharge port 251 configured on the upper side of the multi-stage eco-friendly material molecule separation processor 1100. A nature-friendly, eco-friendly method of separating and processing fluid molecules with light specific gravity and fluid material molecules with heavy specific gravity using a nature-friendly multi-stage eco-friendly material molecule separation processor configured to collect and reprocess or collect and use separately. present.

The following describes claim 76 configured according to a 64th embodiment of the present invention.

165 is a perspective view showing a material separator configured according to claim 76 according to a 64th embodiment of the present invention, and FIG. 166 is a perspective view showing a material separator configured according to claim 76 according to the 64th embodiment of the present invention. It is a perspective view of the eco-friendly material molecule separation processor shown separately and is configured as follows.

The environment-friendly material molecule separation processor 1100 is configured to be upright on the upper side of the eco-friendly material molecule separation processor 1100 configured in the lower part to process contaminated fluid material molecules. Present the processing machine.

Since the configuration of the eco-friendly material molecule separation processor 1100, which is double-structured upright on the upper side of the eco-friendly material molecule separation processor 1100, increases the height, the greater the action of gravity and the greater the efficiency of processing. The height of the construction is not limited because the construction height can be varied at will.

In addition, although a dual configuration is illustrated, it is possible to change the configuration by varying the number of floors.

The following describes claim 77 configured according to a 65th embodiment of the present invention as follows.

FIG. 167 is a perspective view showing a state in which an eco-friendly material molecular separation processor according to a 65th embodiment of the present invention is configured in a different form, and FIG. 168 is a different form of the environment-friendly material molecular separation processor according to the 65th embodiment of the present invention It is a separated perspective view showing the state composed of the state divided in half, and 169 is a separated perspective view showing the material molecule separation processing unit, which is a component of the eco-friendly material molecule separation processing machine according to the 65th embodiment of the present invention, divided in half. , 170 is composed of an upright injection pipe that is combined with an injection pipe that is a component of an eco-friendly material molecular separation machine according to the 65th embodiment of the present invention, and is configured at the configuration state and end of a plurality of ejection ports for ejecting liquids or gases. It is a partial perspective view showing the configuration of the air diffusion plate separated and is composed as follows.

The lower part is a structure in which the fluid material molecule separation guide plate 2000 is configured in a form inclined from the rear to the front and inclined from the other side to one side; because the tilt angle can be changed freely. There is no particular limitation on the configuration of the slope

A structure in which the upper end of the fluid material molecule separation guide plate 2000 has a horizontal shape and a rectangular shape at one side and the other side, and the eco-friendly material molecule separation processor 3003 at the lower end is configured; however, the configuration shape is changed in a wide variety This is possible

The lower part of the eco-friendly material molecule separation processor 3003 has a structure in which a material molecule collection port 250 is configured to collect light-weight fluid material molecules in a horizontal form. However, the height is increased step by step with a stepped layer. Different configurations are possible

A structure in which a fluid material molecule discharge port 251 is provided at one side of the material molecule collection port 250 to discharge the collected fluid material molecules to the outside;

A structure in which a discharge line 8028 for discharging fluid material molecules such as water is coupled to a discharge control valve 8029 at one side of the eco-friendly material molecule separation processor 3003 at the lower end;

A structure in which an injection line 8001 is coupled to an upper portion of the other side of the eco-friendly material molecule separation processor 3003 at the lower end. The injection line 8001 may be additionally configured so that components with different components and specific gravity are injected differently.

In the interior of the eco-friendly material molecule separation processor 3003 at the lower end, fluid material molecules having a heavy specific gravity move quickly to the lower end in one direction by the action of gravity and are discharged in a lower direction, thereby exerting a material cut-off and a material pushing action. A structure in which a plurality of material molecule descending guide plates 101 and 301 overlap each other.

However, it is possible to change the configuration by adding any number of configuration numbers of the material molecule descending guide plate in each of the examples, as well as other examples.

A structure in which a plurality of lower material molecule movement passages 102 and 302, which act to preferentially discharge fluid material molecules having a heavy specific gravity, are coupled to the lower ends of the material molecule descending guide plates 101 and 301, respectively.

In this embodiment, as well as in each of the other embodiments, since the number of configurations of the lower part material molecule movement path can be changed by adding any number, a specific number of configurations is not limited.

The next step of the lower material molecule movement passages 102 and 302 is a structure in which a plurality of fluid material molecule rising guide plates 201 and 401 are combined to overlap each other so that a plurality of material molecule separation compartments 100, 200, 300, 400 are overlapped, respectively; .

This is not limited to the number of configurations, as the number of components of the material molecule separation compartment can be added as many times according to the material to be processed in each example different from the examples.

A structure in which a plurality of upper layer material molecule movement passages 202 and 402 for moving fluid material molecules having a heavy specific gravity are overlapped, respectively, on the upper side of the fluid material molecule rising guide plates 201 and 401.

In this embodiment, as well as in each of the other embodiments, the size and width of the upper layer material molecule movement path can be changed as much as possible, and the number of configurations can also be changed according to the material to be processed.

The material molecule descending guide plates 101 and 301 configured between one side and the other side of the eco-friendly material molecule separation processor 3003 at the lower end, the material molecule movement passages 102 and 302 at the lower end, and the fluid material molecule rising guide plates 201 and 401 A structure in which an upright injection pipe 771 coupled with an injection pipe 7777 configured in a horizontal direction is inserted in a vertical direction between the material molecule separation compartments 200,300,400;

The upright injection pipe 771 has a structure comprising a plurality of ejection ports 7700 for ejecting liquids or gases;

A structure in which an air diffusion plate (9903) is respectively coupled to the end of the upright injection pipe (7771) in an inverted shape with the hat turned upside down;

A structure coupled to a pump 7700 for injecting air or fluid material molecules at one end of the injection pipe 777;

A structure in which a second injection pipe (9901) and a second ejection port (9902) are configured to be coupled to a second pump (9900) configured outside the lower end of the eco-friendly material molecular separation processor (3003);

The lower end of the eco-friendly material molecule separation processor 3003 is inclined in a diagonal shape and has a rhombic shape, and the other lower end is formed in an a-shaped shape, so that fluid material molecules are placed in the interior of the lower part material molecule separation processor 3003. The structure of the upper eco-friendly material molecule separation processor 3001 configured to inject the sexual material molecules;

A material molecule collection port 250 is provided on one side of the upper eco-friendly material molecule separation processor 3001 for collecting fluid material molecules having a light specific gravity in a horizontal shape;

One side of the material molecule collection port 250 is combined with the structure of a material molecule separation processing unit 8183 comprising a fluid material molecule discharge port 251 for discharging the collected fluid material molecules to the outside. The structure of the material molecule separation processing machine 3001; The reason why the structure of the material molecule separation processing unit 8183 is formed in a diamond shape is the separation of fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity. This is for easy guidance. However, it is possible to change the configuration to a circular shape, a square shape, or a hexagonal or rectangular shape.

In the four directions of the material molecule separation processing unit 8183 configured in the shape of a rhombic pipe, a plurality of rotational striking bodies 1503 configured to be combined with the rotating body 1502 are combined in opposite directions, respectively; . When a gaseous substance molecule or fluid substance molecule is hit in a face-to-face shape, the light-weight substance molecules and the heavy-weight substance molecules combined with the substance molecules are in a face-to-face shape to use the separate action. It consists of a number of rotating bodies and rotating striking bodies.

Therefore, the number of components of the rotating body 1502 and the rotating striking body 1503 is not particularly limited.

In addition, the rotating means for rotating the rotary striking body 1503 can be configured in a very diverse manner, such as a belt connection type or a chain connection type.

A structure in which an upper injection line 8181 is formed on the upper side of the eco-friendly material molecular separation processor 3001;

The lower part of the material molecule separation processing unit 8183 has a structure in which the upper part discharge control valve 8182 is coupled to control the amount of discharge; the nature-friendly multi-processing environment-friendly material molecule separation processing machine 1100 has a low specific gravity. Fluid material molecules with a light specific gravity are continuously injected through the upper injection line 8181 configured on the upper eco-friendly material molecule separation processor 3001 and at the same time, the upper injection line 8181 When the total amount of fluid substance molecules injected through) is assumed to be 100 WT%, the upper part discharge control valve 8182 is adjusted to increase 80 WT% to 90 WT% of the total amount of injection, and the interior of the lower part material molecular separation processing machine 3003 At the same time, fluid material molecules with a light specific gravity of 10 WT% to 20 WT% of the remaining excess residual amount are collected through the material molecule collection port 250 and the fluid material molecule discharge port 251 and then separately processed. At the same time as processing or reprocessing, the remaining 80WT% to 90WT% of fluid material molecules are injected into the lower part material molecule separation processor 3003, and at the same time, it is combined with the injection pipe 7777 to operate the pump 7700. Fluid material molecules are injected into the interior of the lower part material molecule separation processor 3003 using the ejection port 7700 and the air diffusion plate 9993 configured in the upright injection pipe 771 At the same time, gas is placed in the lower end of the environment-friendly material molecular separation processor 3003 by using the second injection pipe 9901 and the second spout 9902 coupled with the second pump 9900 while striking the gas. The gaseous substance molecules injected into the environment-friendly substance molecular separation processor 3003 at the lower end by continuously injecting the polymeric substance molecules are doubled, so that the fluid substance molecules with light specific gravity and the fluid substance molecules with heavy specific gravity naturally At the same time, the eco-friendly material molecular separation processing machine at the lower end The total amount of injection injected into the lower end of the eco-friendly material molecule separation processor 3003 through the upper eco-friendly material molecule separation processor 3001 by adjusting the discharge control valve 8029 configured at the lower end of the 3003 is 100 WT. Assuming %, if 70WT%~95WT% is discharged, the remaining fluid material molecules with a light weight of 5WT%~30WT% of the remaining residual amount are the substances composed on the upper side of the eco-friendly material molecular separation processor 3003 at the lower end. A nature-friendly multi-configuration eco-friendly material molecule separation processor 1100 configured to be separately processed or re-collected and reused after collecting through the molecule collection port 250 and the fluid material molecule discharge port 251 is presented.

In the 65th embodiment of the present invention, an eco-friendly material molecule separation processor 1100 that is configured to be simply overlapped in duplicate is presented, but the configuration is changed to multiple so as to overlap as many times according to the processing capacity to be processed and the type of material molecules to be processed. This is possible.

Therefore, it is natural that all of these design changes belong to the scope of the present invention.

In addition, the injection pipe 7777 may be additionally configured to change the configuration, and in order to average the dispersion pressure of air or fluid material molecules or gases, the thickness of the pipe may be changed step by step to change the configuration.

The configuration of the ejection port 7700 is not limited to a special structure because it can be changed in a wide variety.

For example, it is possible to configure in the form of an umbrella that is spread upside down at the end of the injection pipe (7777), and the configuration is changed to process fluid material molecules by adding an additional configuration consisting of several ejection pipes in a horizontal direction at the end. It is possible

Alternatively, the injection amount injected through the injection line 8001 can be changed as much as possible according to the material molecule to be processed.

The ratio of the amount of discharged discharged through the final discharge line 8028 of the nature-friendly eco-friendly material molecular separation processor 1100 configured as described above can be changed and implemented, so it is not particularly limited.

The following describes claim 78 configured according to a 66th embodiment of the present invention as follows.

FIG. 171 is a perspective view showing an eco-friendly material molecule separating machine according to a 66th embodiment of the present invention, and FIG. 172 is an exploded perspective view showing an eco-friendly material molecule separating machine according to a 66th embodiment of the present invention. , FIG. 178 is a perspective view showing an environment-friendly material molecule separation processor according to a 66th embodiment of the present invention in a multi-step configuration, and is configured as follows.

At the lower end, a fluid material molecule separation guide plate 2000 is constructed in a shape inclined from one side to the other, and the upper end of the fluid material molecule separation guide plate 2000 has a height of 3m to 150m in the shape of a rectangle and a rectangle. The structure of the eco-friendly material molecule separation processor 1100 consisting of the size of

The reason why the fluid material molecule separation guide plate 2000 is configured to be inclined in one direction or the other direction is a structure to induce clean fluid material molecules with heavy specific gravity to be collected in the lower direction, and the inclination angle can be changed as much as possible. It is possible

A structure in which a rotary striker 1503 coupled with a plurality of rotary bodies 1502 is formed at the lower end of the fluid material molecule separation guide plate 2000. A rotary striker coupled with the rotary body 1502 ( 1503) can be changed by adding any number of components.

A structure of a material molecule collection port 250 that serves to collect fluid material molecules having a light specific gravity floating above the eco-friendly material molecule separation processor 1100;

A structure in which a fluid material molecule discharge port 251 is provided at one side of the material molecule collection port 250 to discharge the collected fluid material molecules to the outside;

A structure in which a rotary striker 1503 coupled with a plurality of rotary bodies 1502 are coupled in a facing direction at the inside and outside of the rim of the eco-friendly material molecule separation processor 1100; The reason for constructing the rotating striker 1503 that is combined with the whole 1502 is that the fluid material molecules collide while rotating and promote the material collision, material friction, and material explosion. This is to easily separate fluid material molecules with a light specific gravity. Any number of configuration numbers can be added.

A structure in which an injection line 8001 for injecting fluid material molecules is formed in the middle of the upper end of the eco-friendly material molecule separation processor 1100.

The reason for configuring the injection line 8001 in the middle is to induce the fluid material molecules with heavy specific gravity and the fluid material molecules with light specific gravity to be easily separated in the vertical direction by the action of gravity.

A structure in which an injection pipe (7777) for injecting fluid material molecules such as air is formed at the other side of the top of the eco-friendly material molecule separation processor 1100;

A structure in which a plurality of ejection ports 7700 are each configured in a shape of a | on the outer circumferential surface of the injection pipe 7777.

The number of components of the injection pipe 7777 can be increased and configured as necessary.

In addition, the reason that the configuration of the ejection port 7700 is in a single shape is because gaseous substance molecules such as air are ejected in a straight direction and collide with fluid substance molecules, thereby promoting the outflow of substance molecules. It is for giving.

Therefore, it can be seen that these components are also very important components that promote the collision of substance molecules and substance molecules.

A structure in which a low-level discharge line 8060 that sucks and discharges fluid material molecules having a heavy specific gravity at the lower end of the other side of the eco-friendly material molecule separation processor 1100 is configured in a ∩ shape;

The reason why the lower discharge line 8060 is configured in a ∩ shape is a structure for easily collecting and collecting clean fluid material molecules having a heavy specific gravity.

A structure in which a discharge control valve 8029 is formed at the upper end of the other side of the lower discharge line 8060;

A structure in which a discharge pump 1522 is formed at an upper end of the lower discharge line 8060;

A structure in which a rising pipe (8808) is formed in a ∪ shape at the other end of the lower discharge line (8060);

Fluid material molecules are injected through the injection line 8001 into the environment-friendly material molecule separation processor 1100 having a structure in which an upper discharge line 1212 is formed at the upper end of the rising pipe 8808 At the same time, by using the rotary striking body 1503 coupled with a plurality of the rotating bodies 1502, the fluid material molecules flowing into the environment-friendly material molecule separation processor 1100 are struck and processed. By injecting gaseous material molecules such as air through the injection pipe (7777) and the ejection port (7700), it simultaneously strikes the fluid material molecules, and the fluid material molecules with a light specific gravity combined with the fluid material molecules and a heavy specific gravity When the total amount of injection flowing through the injection line 8001 is assumed to be 100% by weight after the fluid substance molecules are separated and processed, the total injection amount is 100% by weight using the discharge control valve 8029 and the discharge pump 1552 Contrast 85wt%~95wt% is discharged to the outside through the upper discharge line 1212 and used or re-injected into the upper part of the eco-friendly material molecule separation processor 1100 which is composed of multiple steps in the same structure and processed in multiple steps to increase the specific gravity. After separating and processing heavy fluid material molecules and fluid material molecules with a light specific gravity in multiple stages, the remaining 5wt%~15wt% of excess fluid material molecules rising to the top of the eco-friendly material molecule separator 1100 is light. An eco-friendly material molecule separator 1100 configured to be reused or reprocessed by discharging it to the outside through the material molecule collection port 250 and the fluid material molecule discharge port 251 is presented.

Eco-friendly material molecule separation processors constructed according to each of the above-described embodiments reversely use the automatic separation of material molecules that are automatically separated by the action of gravity, so that fluid material molecules with light specific gravity and fluid material with heavy specific gravity We present technologies related to the eco-friendly method of separating material molecules.

It can be used for separating and extracting trace amounts of substances contained in seawater by using the eco-friendly material molecular separation processor composed as described above.

A method of extracting and separating contaminated fluid material molecules or fluid material molecules with a light specific gravity contained in a material such as sea water, alcohol, or milk using a fluid material molecular separation machine is as described in each of the above examples. Just do it.

The term “fluid material molecules introduced into the environment-friendly material molecule separator” refers to fluid material molecules composed of all liquids existing on the earth.

For example, it refers to any kind of food used or used by humans, such as curry or soup or fish sauce made with soy sauce or fish, or milk or beverage.

In addition, by continuously injecting a gas such as air through the lower injection pipe (8801), a fluidity having a light specific gravity combined with fluid substance molecules such as water flowing into the interior of the eco-friendly material molecule separation processor 1100 The method of separating substance molecules can be changed and applied.

Although the rotating strut body is separately configured at one side and the other side or the lower end of the eco-friendly material molecule separation processor 1100, a detailed structure and a description thereof are omitted since the detailed structure is shown in each of the above embodiments.

As described above, using the eco-friendly material molecule separator 1100 configured according to each embodiment, seawater is cleanly processed, or fluid material molecules with a light specific gravity contained in favorite foods such as water, milk, alcohol, or tea. Changes can be applied to processing.

Therefore, all kinds of processing seawater using the eco-friendly material molecular separation machine constructed in accordance with the present invention, or separating and processing all kinds of wastewater, livestock wastewater and industrial wastewater, etc., or foods such as water, milk, liquor, beverage or tea. It is natural that all public methods belong to the scope of the present invention.

The structure of the rotating body configured according to each embodiment of the present invention can be changed to a turbo rotation type or an impeller type, and the rotation direction of one side of the rotating striking body combined with a rotating body such as a motor can be changed. It is possible to change the configuration so that the transmission and the other side rotate in reverse.

It is possible to use to separate fluid material molecules with a light specific gravity contained in blood by striking water, sea water, alcohol, milk, or blood by configuring a plurality of rotary blowers inside the eco-friendly material molecule separator. In addition, it is natural that all of these design changes fall within the scope of the present invention, as the configuration to strike fluid material molecules such as beverages or contaminated wastewater can be changed in a wide variety.

In addition, it is possible to change the configuration by adding a structure in which a sonic impactor is additionally configured in the eco-friendly material molecule separation processor to blow-process the fluid material molecules flowing into the environment-friendly material molecule separation processor.

In addition, since the number of constitutions of the material molecule descending guide plate, the movement passage, and the material molecule separation compartment can be increased or decreased as much as possible, it is natural that all of the constitution of the change of the number belong to the scope of the present invention.

In addition, as shown in Fig. 97, an alternative configuration is also possible with a gear-type coupling that is coupled with one rotating body.

In addition, it is possible to change the configuration to a chain-coupled type or a belt-coupled type that combines a single driving body and a plurality of rotary strikers.

In this way, it is possible to change the rotating striking body in various ways, such as a rotating body driving type that is known and used.

As described above, the configuration of the rotary smasher configured inside the environment-friendly material and molecular separation machine can be changed as much as possible.

Therefore, it is a matter of course that all of the configurations in which the shape of the rotating strike body is changed to generate the substance explosion action proposed in the present invention belong to the scope of the present invention.

Since the constituent materials of the eco-friendly material molecular separation machine and the constituent materials of the rotating blower can be changed to plastic or glass material, stone such as ceramic or stone, nonferrous metal, wood, etc., all such design changes are the scope of the present invention. It is natural to belong to.

In addition, the material constituting the eco-friendly material molecular separation processor is composed of a material of glass or stone, or a material of wood, or a material of ceramics formed by mixing and processing soil and other materials together and then roasting them with fire. It is natural that all of these design changes belong to the scope of the present invention as it can be made.

As another method, a rotary smasher can be constructed using ceramic or ceramic materials that are heated by mixing soil and various mineral materials and processed by using a high-temperature fire, so all of these design changes are within the scope of the present invention. It is natural to belong

The configuration of the rotating blower configured according to each embodiment of the present invention may be configured as a circular or hexagonal or a square or an octagonal or a half-moon shape formed by splitting a circular pipe in half.

It is natural that all of these design changes belong to the scope of the present invention, as the configuration of the rotary smasher configured inside the eco-friendly material molecular separation machine can be changed in a wide variety.

In addition, it is possible to change the configuration so as to additionally configure a sonic impactor to the eco-friendly material molecule separation processor to strike fluid material molecules flowing into the interior of the eco-friendly material molecule separation machine using sound waves.

In addition, the configuration of the rotary blower that is formed inside the eco-friendly material molecular separation machine can be changed as much as possible, and the configuration materials can be changed to plastic or glass materials, or stone such as ceramic or stone, non-ferrous metals, and wood. As possible, it is natural that all of these design changes fall within the scope of the present invention.

In addition, the material constituting the eco-friendly material molecular separation processor is composed of a material of glass or stone, or a material of wood, or a material of ceramics formed by mixing and processing soil and other materials together and then roasting them with fire. It is natural that all of these design changes belong to the scope of the present invention as it can be made.

As another method, a rotary smasher can be constructed using ceramic or ceramic materials that are heated by mixing soil and various mineral materials and processed by using a high-temperature fire, so all of these design changes are within the scope of the present invention. It is natural to belong

The configuration of the rotating blower configured according to each embodiment of the present invention may be configured as a circular or hexagonal or a square or an octagonal or a half-moon shape formed by splitting a circular pipe in half.

In addition, as shown in Figs. 58, 173, and 174, respectively, by combining a turbo impeller to a rotating body, that is, a motor, or by configuring a rotary impeller, it hits fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity. It is natural that all of these design changes belong to the scope of the present invention, as the configuration can be changed to be separated.

In addition, the structure of the eco-friendly material molecule separation processor used to remove harmful components with light specific gravity from seawater used when producing salt is also the specific gravity contained in seawater simply by using the material molecule separation processor proposed in the present invention. These mildly harmful substances can be removed.

95 is a photograph showing the phenomenon in which fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity contained in beer are automatically separated into layers by the action of gravity when beer is put in a paper cup. As shown above, it proves that all fluid material molecules have a delamination phenomenon that tries to separate from each other without binding to each other.

That is, if the material molecule separation processing machine constructed according to each embodiment of the present invention is used, such factual evidences show that fluid material molecules with light specific gravity and light specific gravity combined with fluid material molecules or gaseous material molecules It proves the fact that it can separate and extract fluid substance molecules.

In addition, as shown in Fig. 98, a fluid material molecule introduced into the water molecule separator using the rotating striking body is configured in a gear type, a chain combination type, or a belt connection type between the rotating body and the rotating body. It is natural that everything configured to hit them falls within the scope of the present invention.

In addition, among the methods of rotating the rotating striking body 1503 to hit the fluid material molecules flowing into the environment-friendly material molecular separation machine, the rotating striking body 1503 is rotated using a handle to ensure fluidity. There is a method of hitting material molecules, but it is natural that all of these modification methods fall within the scope of the present invention.

98 is a cross-sectional perspective view showing a temporary example of a modified embodiment of a rotating body for rotating a rotating strike body and a connection means for connecting the rotating body applied to each embodiment of the present invention.

159 and 160 are as shown in a picture of a rotating brush illustrating a modified embodiment of a rotating struck body configured to be inserted into an environment-friendly material molecular separation machine configured according to each embodiment of the present invention.

When configuring the rotating striking body 1503 coupled with the rotating body 1502, it is possible to change the configuration into a brush shape that is variously deformed.

In addition, FIG. 161 is a concave-convex shape in the interior of the eco-friendly material molecule separation processor 1100, as shown in a photograph showing an example of an uneven wall configured to be inserted into the interior of the eco-friendly material molecular separation processor configured according to each embodiment of the present invention. By configuring the concave-convex wall 125, it is possible to change the configuration to increase the collision and frictional action of fluid material molecules.

In addition, as shown in FIG. 162, it is possible to configure by changing the ejection port configured to eject gaseous substance molecules and fluid substance molecules at various angles at the end or side portion of the injection pipe 7777.

In addition, the method of connecting the rotating body and the rotating body can be changed in various ways such as belt type or chain type, so the detailed structure is omitted.

In other words, a fluid material with a heavy specific gravity by separating the fluid material molecules flowing into the inside of the fluid material molecule separation machine by rotating the handle after configuring a handle structured on a rotating body on one side. It is natural that all of the eco-friendly methods of separating molecules and fluid material molecules having a light specific gravity fall within the scope of the present invention.

The basis for the theory of water applied to the present invention will be described once again.

All substances present on the earth are decomposed into gaseous substances by various actions, and then rise back to the atmosphere by the action of gravity and become snow, rain, and hail by various actions, becoming river water and rebirth into sea water. Through the process of circulation, contaminated river water and contaminated seawater are continuously changed into fluid molecules with heavy specific gravity.

If we simply talk about the new theory of water so that anyone can understand it, there is a circulation process in which the excrement of a large number of fish and birds on the planet is also completely decomposed and transformed into water molecules by various actions. Fish excrement is not piled up on the surface of the earth, in the sea, or in river water.

If this logic is wrong, the paradoxical logic is established that not based on the 4.5 billion years the earth was born, but that the excretions excreted by fish and birds in the last 100 years must be permanently decomposed and not changed into water molecules, but accumulated in a state of manure forever. .

The basis of the natural sciences is to prove as an average logic only when a proving logic for the argument can be easily established and proved by anyone.

The inventors have invented about 1,600 cases for over 30 years, and have obtained dozens of patents related to water while proving that water is the first in the world to be a combination formed by decomposing all objects.

This invention is based on this theory, and based on the conventional water separation theory discovered while obtaining dozens of patents, a new theory has been added and this is an invention application.

Therefore, it is a matter of course that all of the changes and application of the theory of natural separation of water molecules proposed by the person concerned in filing for this invention fall within the scope of the present invention.

The reason is that anyone can easily change and apply the water molecule separation theory proposed in the present invention.

The eco-friendly material molecule separation processor constructed in accordance with the present invention will have a very high marketability due to the action of producing the most pure water molecules without the need for chemical input.

In other words, when purifying contaminated water as in the prior art, the market for the eco-friendly material and molecular separation processor constructed according to the present invention is very large because the market for the most pure water is produced without using a filtration membrane or adding chemicals. The situation is being demanded

8000: Eco-friendly material molecule separation processor 8028. Discharge line 8001: Injection line

Claims (78)

In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
An eco-friendly material molecule separator is constructed in a rectangular shape;
Structure in which an injection line injects fluid substance molecules such as water at the top of one side:
At the lower end of the other side, a discharge line for discharging fluid substance molecules such as water is composed of a size of 90L~99.99L less than the ratio of 100L of total inflow flowing through the injection line
A structure coupled to a discharge control device for opening and closing the discharge line at one side of the discharge line;
At the top of the eco-friendly material molecule separation processor, a push rod is combined with a control device that pushes and removes contaminant material molecules with a light weight rising to the top of the eco-friendly material molecule separation machine. Structure;
A structure in which a fluid material molecule separation guide plate is configured at a lower end of the eco-friendly material molecule separation processor;
The structure of the fluid material molecule separation guide plate is inclined in one direction from the other direction so that water molecules with heavy specific gravity push the fluid material molecules with low specific gravity in one direction, while the vertical shape is from the rear to the front. A structure configured to be inclined in the negative direction;
A structure in which a plurality of material molecule separation induction films are respectively formed in the environment-friendly material molecule separation processor; A structure in which a movement passage for a lower layer of material molecules is provided at a lower end of the material molecule separation induction film so that fluid material molecules such as water can move freely;
A structure in which a material molecule rising guide plate is coupled to a rear surface of the material molecule separation induction film at a certain distance to form respective material molecule rising guide paths;
A structure in which the material molecule movement passages in the upper layer are respectively configured to facilitate movement of fluid material molecules such as water on the upper side of the material molecule rising guide plate;
Between the lower end of the material molecule rise induction passage and the fluid material molecule separation guide plate, a circular tornado generating device that rotates and strikes the fluid material molecules flowing into the environment-friendly material molecule separation machine is provided with the eco-friendly material molecule. Structures each configured in a form facing one side and the other side of the separating machine;
A structure in which a rising guide plate body for raising fluid material molecules such as water in an upward direction is formed in a triangular shape in the direction of one side and the other side of the eco-friendly material molecule separation machine;
A food product characterized by an eco-friendly material molecule separation processor configured to process fluid material molecules by combining an upper whirlwind generator generating a whirlwind in an upward direction and a rotating actuator at the lower end of the circular whirlwind generator. Clean nature by separating and extracting a small amount of salt or contaminated air or contaminated mineral substances or contaminated fluid substance molecules combined with a small amount of salt mixed in the garbage. Nature-friendly, eco-friendly material molecule separation processor that purifies In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The eco-friendly material molecule separation machine is constructed in a rectangular shape; A structure of a fluid material molecule separation guide plate in which the interior is inclined in one direction and the front and rear directions are inclined from the rear to the front;
A structure in which a plurality of fluid material molecule outlets for discharging contaminant material molecules having a light specific gravity are formed at an upper side of the eco-friendly material molecule separation processor;
A structure having a long collection line collecting fluid material molecules with a light specific gravity at the front of the fluid material molecule outlet
A structure for configuring an injection line on the upper side of the eco-friendly material molecular separation machine;
A structure of a discharge line configured at the lower end of the environment-friendly material molecule separation;
The structure of the discharge line is configured such that the discharge capacity discharged through the discharge line is reduced to a ratio of 80L to 99.99L, which is smaller than the ratio of 100L when the inlet size of the injection line is assumed to be 100L discharge capacity;
In the interior of the eco-friendly material molecule separation and processing machine, a plurality of material molecule separation induction film, a plurality of material molecule rise guide plates, a plurality of upper material molecule movement passages, a plurality of material molecule lower layer movement passages, and a plurality of material molecule rise induction passages are multi-stage. After each composition of the material molecule separation induction film, water molecules with heavy specific gravity move to the lower layer and contaminated material molecules with light specific gravity move to the upper layer. A structure in which a furry type rotary strike device coupled to a rotating body is configured at the lower end of the molecular movement guide plate;
After configuring an air generating device on one side of the lower end of the eco-friendly material molecular separation processor, a piping line coupled with the air generating device and a discharge nozzle are coupled to the lower end of the eco-friendly material molecular separation processor, and then a fluid material through the injection line. Molecules are continuously introduced into the interior of the environment-friendly material molecule separation processor, and then the air produced by the air generating device is continuously injected into the interior of the environment-friendly material molecule separation processing device, thereby continuously striking the fluid material molecules and at the same time. Mixed in food waste, characterized by an eco-friendly material molecule separator, which is constructed to separate and process fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity by continuously striking fluid material molecules using a furry type rotary striker. Nature that cleans naturally by separating and extracting low specific gravity fluid material molecules and heavy specific gravity fluid material molecules combined with trace salt components or contaminated air or contaminated mineral materials or contaminated fluid material molecules Friendly eco-friendly material molecular separation processor In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The structure of the multi-stage eco-friendly material molecule separation processor is composed of a multi-stage environment-friendly material molecule separation processor in which the upper part is narrow and the lower part is multi-stage.
A structure of an inlet line through which fluid material molecules such as water are introduced to the upper side of the circular eco-friendly material molecule separation processor configured in multiple stages;
A structure in which the discharge line connected to the lower end of the circular eco-friendly material molecular separation processor is configured in multiple stages, each having a size of 0.001% to 3% smaller than the size of the inflow passage of the inflow line;
A structure in which a collecting plate for collecting fluid substance molecules overflowing the upper end of the circular eco-friendly material molecule separating machine configured in multiple stages is combined with a discharge pipe at the lower end of the circular eco-friendly material molecule separating processor configured in multiple stages;
After continuously injecting fluid material molecules into the multi-stage circular eco-friendly material molecule separating machine, which is composed of a structure of a rotary striking plate body configured to combine a rotating body configured at the lower end of the circular eco-friendly material molecule separation processor, A fluid material molecule with a light specific gravity and a fluid material with a high specific gravity combined with a fluid material molecule by continuously hitting the fluid material molecules flowing into the circular eco-friendly material molecule separation machine by rotating the rotating plate body Multi-stage eco-friendly material configured to separate and extract molecules A small amount of salt mixed in food waste or contaminated air or contaminated mineral material or contaminated fluid material, characterized by a molecular separation machine A nature-friendly eco-friendly material molecule separation and processing machine that separates and extracts fluid material molecules and heavy fluid material molecules and purifies them naturally. In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The structure of an eco-friendly material molecular separation machine in which the upper and lower portions are narrow and the middle is formed of a rhombus larger than the upper and lower portions;
A fluid that is inclined from one direction to the other in the interior of the eco-friendly material molecular separation machine, and in the front and rear direction is inclined from the rear to the front so that the fluid material molecules with heavy specific gravity can be easily discharged to the lower part. The structure of the material molecule separation guide plate;
In the interior of the eco-friendly material molecule separation processor, a plurality of material molecule separation guide films and a plurality of material molecule rise guide plates are formed in a zigzag shape in an alignment;
A structure in which the material molecule separation induction film and the plurality of material molecule rise induction plates each have a material molecule movement passage in an upper layer portion, a plurality of material molecule movement passages in the lower layer portion, and a plurality of material molecule rise induction passages in multiple stages;
A structure in which an injection line is configured above the eco-friendly material molecule separation processor;
A discharge line is configured under the environment-friendly material molecule separation processor,
At the lower end of the inside of the eco-friendly material molecule separation processor, an upper tornado generating device that generates a tornado in the upward direction is formed by combining a rotating body with an eco-friendly material molecule separation processor. A nature-friendly nature that cleans naturally by separating and extracting light-weight fluid material molecules and heavy specific gravity fluid material molecules combined with salt components, contaminated air, contaminated mineral substances, or contaminated fluid material molecules. Eco-friendly material molecule separation processor The method of claim 3
The circular eco-friendly material molecule separator is mixed in food waste, which features a circular eco-friendly material molecule separator that has a narrow upper and lower part and a rhombic jar shape larger than the size of the upper and lower parts. A nature-friendly, eco-friendly material molecule that cleans naturally by separating and extracting the light-weight fluid material molecules and the heavy-weight fluid material molecules combined with trace salts, polluted air or polluted fluid material molecules. Separation processing machine In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The shape of one side is a rectangle and the other side is a rectangle, and the size of the other side is 10% to 500% larger than that of the one side, but between one side and the other side, fluid material molecules with a light specific gravity are used. The structure of an eco-friendly material molecule separation and processing machine, which is combined by material molecule push-inducing walls configured in a rhombus shape so that fluid material molecules are pushed in the left and right directions and float in the upward direction;
A structure for supporting the environment-friendly material molecule separation processor by having a support formed at one lower end of the eco-friendly material molecule separation processor;
A structure of a fluid material molecule separation guide plate in which the inner floor of the eco-friendly material molecule separation processor is inclined in one direction and the front and rear directions are inclined from the rear to the front;
A structure in which an injection line for injecting fluid material molecules such as water is configured at an upper end of one side of the eco-friendly material molecule separation processor:
A structure in which a discharge line for discharging fluid material molecules such as water is coupled to a discharge control valve at the lower end of the other side of the eco-friendly material molecule separation machine;
A structure in which a plurality of material molecule separation induction films and a plurality of material molecule rise guide plates are installed inside one side of the eco-friendly material molecule separation processor to form respective upward induction passages;
A structure for guiding fluid material molecules having a heavy specific gravity to move upward by configuring a passage for moving material molecules of each upper layer at a lower end of the material molecule separation induction film;
A structure for guiding fluid material molecules having a heavy specific gravity to move in a downstream direction by configuring a passage for moving material molecules in an upper layer above the material molecule rising guide plate;
The other side of the eco-friendly material molecule separation processor is configured to be combined with a plurality of rotating striking bodies, and a plurality of striking devices combined with the rotating body on the upper side are combined to prevent fluid material molecules flowing into the interior of the eco-friendly material molecule separation machine. A structure configured to strike;
At the upper edge of the eco-friendly material molecule separation machine, there is a collection port coupled with an outlet that collects and discharges the light-weight fluid material molecules floating to the upper side of the eco-friendly material molecule separation machine by the action of gravity. Constructed structure;
A structure in which a hopper is formed in layers in the form of a rhombus-shaped funnel on the other side of the eco-friendly material and molecular separation machine;
A structure in which a plurality of rotating striking bodies are combined with a rotating body in the inside of the hopper;
A structure in which discharge control valves for controlling discharge amount are respectively coupled to a lower portion of the hopper;
A structure in which an inflow line through which fluid material molecules such as water are introduced is coupled to an inflow amount control valve on the upper side of the hopper;
One side of the hopper uses a structure consisting of an outlet on the upper side of the hopper that acts to discharge fluid material molecules with a light specific gravity that floats upwards by the material pushing action, and fluids such as water, sea water, milk or alcohol. A trace amount mixed in food waste featuring a multi-stage material molecule separator that is used as a nature-friendly eco-friendly water purifier that extracts and uses fluid material molecules with a heavy specific gravity by removing the fluid material molecules with light specific gravity contained in the sexual material molecules. The nature-friendly that cleans naturally by separating and extracting the light-weight fluid material molecules and the heavy fluid material molecules combined with the salt component of salt or contaminated air or contaminated mineral material or contaminated fluid material molecules. Phosphorus eco-friendly material molecule separation processor According to claim 6
The shape of one side is a rectangle and the other side is a rectangle, and the size of the other side is 10% to 500% larger than that of the one side. The structure of an eco-friendly material molecule separation and processing machine, which is combined by material molecule push-inducing walls formed in a rhombus shape so that fluid material molecules are pushed to the left and right and upwards and float;
A structure at one side of the eco-friendly material molecule separation machine to support the eco-friendly material molecule separation machine;
A structure of a fluid material molecule separation guide plate in which the inner floor of the eco-friendly material molecule separation processor is inclined in one direction and the front and rear directions are inclined from the rear to the front;
A structure in which an injection line for injecting fluid material molecules such as water is configured at an upper end of one side of the eco-friendly material molecule separation processor:
A structure in which a discharge line for discharging fluid material molecules such as water is coupled to a discharge control valve at the lower end of the other side of the eco-friendly material molecule separation machine;
A structure in which a plurality of material molecule separation guide films and a plurality of material molecule rise guide plates are used inside one side of the eco-friendly material molecule separation processing machine to form respective upward induction passages;
A structure in which a material molecule movement path of each upper layer is formed at a lower end of the material molecule separation induction film to induce fluid material molecules having a heavy specific gravity to move upward;
A structure in which an upper material molecule movement path is formed on the upper side of the material molecule rising guide plate to induce fluid material molecules having a heavy specific gravity to move in a downstream direction;
The other side of the eco-friendly material molecule separation processor is configured to be combined with a plurality of rotary striking bodies, and a plurality of striking devices combined with the rotating body are combined on the upper side to prevent fluid material molecules flowing into the environment A structure configured to strike;
A structure in which a collecting port coupled to an outlet for collecting and discharging fluid material molecules floating above the environment-friendly material molecule separation processor is formed at an upper edge of the eco-friendly material molecule separation processor; The eco-friendly material molecule separation processor is configured to separate and extract fluid material molecules with heavy specific gravity and contaminated fluid material molecules with light specific gravity combined with contaminated fluid material molecules. Separation of fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity combined with trace salt components or contaminated air or contaminated mineral materials or contaminated fluid material molecules mixed in food waste characterized by Nature-friendly, eco-friendly material molecular separation processing machine that extracts and purifies naturally In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
An eco-friendly material molecule separator is constructed in a rectangular shape;
Structure in which an injection line injects fluid substance molecules such as water at the top of one side:
A structure in which a discharge line for discharging fluid substance molecules such as water is configured at the lower end of the other side;
A structure coupled to a discharge control valve that opens and closes the discharge line at one side of the discharge line;
At the bottom of the eco-friendly material molecule separation processor, a material molecule separation guide plate is constructed in a form in which 0.1% to 20% is inclined from right to left and 0.1% to 20% more inclined from rear to front. rescue;
A structure in which a fluid material molecule discharge port for discharging fluid material molecules having a light specific gravity to the outside is formed around an upper circumference of the eco-friendly material molecule separator;
A structure in which a plurality of rotational shafts coupled with a rotating body cross between the front and rear surfaces in one direction of the eco-friendly material molecule separation processor;
A structure in which a plurality of rotating striking bodies are sequentially cross-linked between the rotation shafts;
A structure in which a material molecule separation induction film is formed across the front and rear directions at the other side of the material molecule separation processor;
A structure in which the lower part of the material molecule is formed in the lower part of the material molecule separation induction film in the form of an open lower part so that fluid material molecules having a heavy specific gravity are discharged in a downstream direction;
In the front part of the material molecule separation induction film, a material molecule rising guide plate is provided so that a fluid material molecule rising path and a fluid material molecule discharge path are configured to be discharged in the downstream direction as fluid material molecules with a heavy specific gravity rise. A structure constructed between the front and rear surfaces of the material molecule separation machine;
The upper part of the material molecule separation guide plate constitutes a passage for moving material molecules in the upper layer to sequentially pass through the fluid material molecules with light specific gravity and the fluid material molecules with heavy specific gravity contained in the contaminated fluid material molecules. A small amount of salt or contaminated air or contaminated mineral substances mixed in food waste, characterized by a material molecular separation processor, characterized by a nature-friendly eco-friendly water purifier composed to separate and process fluid material molecules and heavy fluid material molecules. Or a nature-friendly eco-friendly material molecule separator that separates and extracts light-weight fluid material molecules and heavy fluid material molecules combined with contaminated fluid material molecules and cleans them naturally. In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
Structure of an eco-friendly material molecule separation processing machine composed of multiple stages in the form of an inverted rhombus from the top to the bottom so that the fluid material molecules with a light specific gravity are pushed by the fluid material molecules with a heavy specific gravity and float upwards;
A structure in which a material molecule separation guide plate is formed in a form in which the lower end of the material molecule separation processor is inclined from one side to the other side;
A plurality of material molecule descending guide plates are formed in the material molecule separation machine; A structure in which a plurality of lower part material molecule movement passages are configured to preferentially discharge fluid material molecules having a heavy specific gravity at a lower end of the material molecule descending guide plate;
In the next step of the material molecule movement passage, fluid material molecules with heavy specific gravity are discharged in the downstream direction, while fluid material molecules with light specific gravity are pushed upward and preferentially discharged to the downstream part. A structure in which a plurality of material molecule separation compartments are formed in a stepwise manner by a structure in which each molecular rise guide plate is configured, and an upper layer material molecule movement path is configured, respectively;
A support plate body, an elastic cushioning material, and a support column are each coupled to each other to face each other at the lower end of the eco-friendly material molecular separation machine;
A crankshaft configured to be coupled with a rotating motor is configured between the support pillar and the support pillar; A structure in which a rotating vibrator is coupled to the crankshaft;
A structure in which an injection line for injecting fluid material molecules such as water is configured at the upper end of the other side of the eco-friendly material molecule separation processor:
A structure in which a discharge line for discharging fluid substance molecules such as water is coupled with a discharge control valve at one lower end of the eco-friendly substance molecule separation processor;
A structure in which a material molecule collection port for collecting fluid material molecules with light specific gravity and a fluid material molecule discharge port are formed at the upper edge of the material molecule separation processor
Contaminated fluid material molecules with heavy specific gravity combined with contaminated fluid material molecules and contaminated fluid material molecules with light specific gravity are separated and extracted using a material molecule separation processing machine in which the fluid material molecule outlet is combined. A fluid with a light specific gravity combined with a trace amount of salt or contaminated air or contaminated mineral substances or contaminated fluid substances molecules mixed in food waste, characterized by a nature-friendly eco-friendly water purifier and eco-friendly material molecular separator. A nature-friendly eco-friendly material molecule separation and processing machine that separates and extracts polymeric and fluid material molecules with heavy specific gravity and purifies them naturally. In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
Structure of an eco-friendly material molecule separation processing machine composed of multiple steps in the form of a circular staircase;
A structure comprising a fluid material molecule injection line configured in multiple steps on one side of the eco-friendly material molecule separation processor configured in multiple steps;
A structure in which 20cm to 200cm are inserted deeper with respect to the position of the discharge port at the end of the injection line based on the upper point of the eco-friendly material molecular separation processor;
A structure of a fluid material molecule outlet configured on the other side of the eco-friendly material molecule separation machine to discharge fluid material molecules having a light specific gravity;
A structure of a plurality of rotating striking bodies coupled with a rotating body configured at a lower end of the material molecule separation processor;
The discharge line for discharging fluid material molecules with a heavy specific gravity at the lower end of the eco-friendly material molecule separation processor has a specific gravity combined with contaminated fluid material molecules using a material molecule separation processor configured with a discharge control valve. A trace amount of salt or contaminated air mixed in food waste characterized by a nature-friendly eco-friendly water purifier and eco-friendly material molecule separation processor configured to separate and extract heavy fluid material molecules from contaminated fluid material molecules with light specific gravity. Or, a nature-friendly, eco-friendly material molecule separation processor that separates and extracts and extracts and cleanses the light-weight fluid material molecules and the heavy-weight fluid material molecules combined with contaminated mineral substances or contaminated fluid material molecules. In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The structure of an eco-friendly material molecule separation processor composed of a rectangular or circular structure;
A structure comprising an injection line that injects fluid substance molecules such as water, milk, or liquor into a lower position of 30cm to 2m in the lower direction from the upper position of the other side of the eco-friendly material molecule separation processor to the upper side. ;
A structure of a fluid material molecule outlet through which fluid material molecules having a light specific gravity are discharged to the outside at an upper side of the eco-friendly material molecule separation processor;
A structure of a rotating striking body in which a plurality of rotating bodies are configured at an unspecified position inside the eco-friendly material molecule separation machine, and are respectively coupled to an upper portion of the rotating body to rotate and hit the fluid material molecules flowing in the upward direction;
Using a material molecule separating machine consisting of a discharge line configured to be combined with a discharge control valve on one side of the lower end of the eco-friendly material molecule separation processor, the specific gravity combined with the contaminated fluid material molecules is heavy and the specific gravity is A trace amount of salt or contaminated air or contaminated mineral substances or contaminated air or contaminated air or contaminated mineral substances mixed in food waste, characterized by a nature-friendly eco-friendly water purifier and eco-friendly material molecular separation processor configured to separate and extract light contaminated fluid material molecules. A nature-friendly, eco-friendly material molecule separator that separates and extracts light-weight fluid material molecules and heavy-weight fluid material molecules combined with fluid material molecules and purifies them naturally In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
Structure of eco-friendly material molecule separation processing machine composed of circular or rectangular shape
Injection that injects seawater, water, beverage, or fluid substance molecules such as milk or alcohol into a lower position of 30cm to 2m in the lower direction from the upper position of the other side of the eco-friendly material molecular separation processor to the upper side. The structure of the line; A structure of a fluid material molecule outlet through which fluid material molecules having a light specific gravity are discharged to the outside at an upper side of the eco-friendly material molecule separation processor;
A structure of a material molecule flow guide plate configured in a lower portion of the eco-friendly material molecule separation processor in a form in which 3 to 8 degrees is further inclined in one direction to induce fluid material molecules having a heavy specific gravity to flow in one direction;
A rotating friction plate configured to be coupled to a rotating body and having a protrusion formed at an end portion coupled to the rotating body by a rotating shaft is configured; A structure in which a plurality of rotating friction plates including a plurality of rotating brushes are installed in the middle of the rotating shaft in opposite directions facing the inside of the eco-friendly material molecule separation processor;
Using a material molecule separating machine consisting of a discharge line configured to be combined with a discharge control valve on one side of the lower end of the eco-friendly material molecule separation processor, the specific gravity combined with the contaminated fluid material molecules is heavy and the specific gravity is A trace amount of salt or contaminated air or contaminated mineral substances or contaminated air or contaminated air or contaminated mineral substances mixed in food waste, characterized by a nature-friendly eco-friendly water purifier and eco-friendly material molecular separation processor configured to separate and extract light contaminated fluid material molecules. A nature-friendly, eco-friendly material molecule separator that separates and extracts light-weight fluid material molecules and heavy-weight fluid material molecules combined with fluid material molecules and purifies them naturally According to any one of claims 1, 2, 3, 4, 6, 8, 9, 10, 11, and 12
A fluid material flowing into the environment-friendly material molecular separation processor by installing a plurality of rotating striking bodies in the form of cup brushes to face each other, and then rotating each other in different directions. A material for both eco-friendly water purifiers that is configured to blow the molecules A small amount of salt mixed in food waste or contaminated air or contaminated mineral substances or contaminated fluid substance molecules. A nature-friendly eco-friendly material molecule separation processor that separates and extracts light fluid material molecules from heavy fluid material molecules and purifies them naturally. According to any one of claims 1, 2, 3, 4, 6, 8, 9, 10, 11, and 12
A structure in which an injection line in which a spray nozzle is configured across the horizontal direction at a position of a lower end of 20 cm to 100 cm from an upper side of the eco-friendly material molecule separation processor;
After configuring a plurality of horizontal supports in layers in the interior of the eco-friendly material molecular separation processor, and combining a vibration generating device configured with a support ring at the lower end of the horizontal support, fluidity through the injection line configured with the injection nozzle Consisting of injecting material molecules into the interior of the eco-friendly material molecule separator and processing the fluid material molecules by hitting the heavy material molecules and the light fluid material molecules combined with the fluid material molecules. A fluid material molecule with a light specific gravity combined with a trace amount of salt or contaminated air or contaminated mineral material or contaminated fluid material molecules mixed in food waste, characterized by an eco-friendly water purifier and eco-friendly material molecule separator. A nature-friendly eco-friendly material molecule separation and processing machine that separates and extracts and extracts and purifies fluid molecules with heavy specific gravity According to any one of claims 1, 2, 3, 4, 6, 8, 9, 10, 11, and 12
When the fluid material molecules flowing into the environment-friendly material molecular separation machine are introduced, air compressed at a high pressure between 1 atm and 1000 atm is simultaneously injected with the fluid material molecule using an air compressor. A material for both nature-friendly water purifiers that is configured to separate and process molecules A trace amount of salt mixed in food waste or contaminated air or contaminated mineral substances or contaminated fluid substances. A nature-friendly, eco-friendly material molecule separation processor that separates and extracts fluid material molecules with a light specific gravity from fluid material molecules with a heavy specific gravity and purifies them naturally. According to any one of claims 1, 2, 3, 4, 6, 8, 9, 10, 11, and 12
A trace amount of salt or contaminated in food waste, characterized in that a plurality of rotary striking bodies composed of crushing blades are installed in an upright rotating structure to process fluid substance molecules. A nature-friendly, eco-friendly material molecular separation processor that separates and extracts and extracts and cleanses the light-weight fluid material molecules and the heavy-weight fluid material molecules combined with air or contaminated mineral substances or contaminated fluid material molecules. According to any one of claims 1, 2, 3, 4, 6, 8, 9, 10, 11, and 12
A material molecule for both nature-friendly water purifiers configured to separate and process fluid material molecules by introducing fluid material molecules compressed at a high pressure between 1 atm and 1000 atm using a compressor inside the eco-friendly material molecule separation processor A small amount of salt or contaminated air or contaminated mineral substances or contaminated fluid substance molecules combined with a small amount of salt mixed in food waste characterized by a separation machine Molecular separation and processing machine for nature-friendly eco-friendly materials that separate and extract molecules and purify them naturally According to any one of claims 1, 2, 3, 4, 6, 8, 9, 10, 11, and 12
When constructing a rotary striker that is combined with a plurality of rotary bodies at an unspecified position inside the eco-friendly material molecular separation machine, a rotary striker that rotates from the lower direction to the upper direction and the rotary strike that rotates from the upper direction to the lower direction Each of the sieves and the rotating striking body configured to rotate in a direction opposite to each other in the left and right directions are processed by rotating and hitting the fluid material molecules flowing into the interior of the material molecule separating machine at each position or into ultrafine particles. A trace amount of salt mixed in food waste characterized by an eco-friendly water purifier and a material molecular separation processor configured to separate and process heavy material molecules combined with fluid material molecules by grinding and processing. Or, a nature-friendly eco-friendly material that cleans naturally by separating and extracting the light-weight fluid material molecules and the heavy fluid material molecules combined with contaminated air or contaminated mineral substances or contaminated fluid material molecules. Molecular Separation Processing Machine According to any one of claims 1, 2, 3, 4, 6, 8, 9, 10, 11, and 12
A plurality of rotating bodies are configured at an unspecified position inside the eco-friendly material molecule separation machine, and are respectively coupled to the lower end of the rotating body and rotated downward to rotate fluid material molecules flowing from the top to the bottom from the bottom position. By constructing a rotating striking body configured to strike, the fluid material molecules flowing into the material molecule separation processing machine are rotated at each position to process or crushed into ultrafine particles so that the specific gravity combined with the fluid material molecules is reduced. A trace amount of salt or contaminated air or contaminated mineral substances or contaminated fluids mixed in food waste, characterized by an eco-friendly water purifier combined with a material molecular separation processor that is configured to separate and process heavy material molecules and low specific gravity fluid material molecules. A nature-friendly eco-friendly material molecule separation processor that separates and extracts light-weight fluid material molecules and heavy-weight fluid material molecules combined with sexual material molecules and purifies them naturally. According to any one of claims 1, 2, 3, 4, 6, 8, 9, 10, 11, and 12
Food, characterized in that a rotary striking device having a grinding blade configured to crush materials inside the eco-friendly material molecule separation machine is configured in opposite directions to face each other to blow-process undissolved fluid material molecules. Clean nature by separating and extracting a small amount of salt or contaminated air or contaminated mineral substances or contaminated fluid substance molecules combined with a small amount of salt mixed in the garbage. Nature-friendly, eco-friendly material molecule separation processor that purifies According to any one of claims 1, 2, 3, 4, 6, 8, 9, 10, 11, and 12
When configuring a pusher configured on the upper part of the eco-friendly material molecule separation processor, the eco-friendly substance molecule separation processing machine uses a pusher configured to push it from left to right by combining a length adjusting device and an adjusting device coupled to the pusher. It features an eco-friendly material molecule separation machine that processes fluid material molecules using the structure of a pusher configured to push and remove pollutant material molecules with a lighter specific gravity rising to the outside of the eco-friendly material molecule separation machine. A trace amount of salt or contaminated air or contaminated mineral substances or contaminated fluid substance molecules mixed with food waste are separated and extracted. Molecular separation and processing machine for eco-friendly materials that cleanly and naturally purify nature According to any one of claims 1, 2, 3, 4, 6, 8, 9, 10, 11, and 12
Contaminant material molecules with a light weight floating on the top of the eco-friendly material molecule separation machine by combining a length adjusting device and a control device coupled with the pusher when constructing a pusher configured on the top of the eco-friendly material molecule separation processor A trace amount of salt or contaminated air mixed in food waste, characterized by an eco-friendly material molecule separation machine that processes fluid material molecules by using the structure of a pusher configured to push and remove them from the front to the rear. A nature-friendly, eco-friendly material molecule separation processor that separates and extracts and extracts and extracts light-weight fluid material molecules combined with contaminated mineral substances or contaminated fluid material molecules and cleanses naturally. In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The structure of a material molecule separation and processing machine in which a plurality of material molecules inducing walls and a material molecule diffusion inducing walls are combined in a shape of a rhombic shape between a box having a rectangular shape;
A structure in which a material molecule separation guide plate is formed at a lower end of the material molecule separation machine to be inclined in one direction and inclined in a front direction to a rear direction;
In the interior of the eco-friendly material molecule separation and processing machine, a plurality of material molecule separation induction film, a plurality of material molecule rise guide plates, a plurality of upper material molecule movement passages, a plurality of material molecule lower layer movement passages, and a plurality of material molecule rise guidance passages are multi-stage. Structure each composed of;
A structure in which rotational furry brushes, which are configured to face each other, are coupled to the rotating body in the interior of each of the material molecule rising guide passages and the material molecule rising guide plate;
The other side of the eco-friendly material molecule separation processor is configured with an injection line for introducing fluid material molecules such as water and milk or alcohol or sea water; On one lower part
Separation of heavy fluid material molecules from contaminated fluid material molecules from contaminated fluid material molecules with light specific gravity by using a material molecule separating machine consisting of each discharge line configured with the discharge control valve Contaminated with a trace amount of salt or contaminated air or contaminated mineral substances or contaminated fluid substance molecules mixed in food waste, characterized by a nature-friendly eco-friendly water purifier combined with an eco-friendly material molecular separation processor configured to extract A nature-friendly, eco-friendly material molecule separation processor that separates and extracts fluid material molecules with a light specific gravity from fluid material molecules with a heavy specific gravity and purifies them naturally. The method according to any one of claims 1, 2, 3, 4, 6, 8, 9, 10, 11, 12,
A rotating shaft made of a non-ferrous metal material such as wood, plastic or glass, ceramics or ceramics or stone in the interior of the eco-friendly material molecular separation processor made of a non-ferrous metal material such as wood, glass, plastic, ceramics or ceramic or stone A trace amount of salt or contaminated air or contaminated mineral substances or contamination in food waste, characterized in that a plurality of uneven grooves are formed in the rotary blower after being formed in the shape of a cross in the air, and then the fluid material molecules are blow-processed. A nature-friendly eco-friendly material molecule separation processor that separates and extracts light-weight fluid material molecules and heavy-weight fluid material molecules combined with the resulting fluid material molecules and cleans them naturally. According to any one of claims 1, 2, 3, 4, 6, 8, 9, 10, 11, 12,
A rotating shaft made of a non-ferrous metal material such as wood, plastic or glass, ceramics or ceramics or stone in the interior of the eco-friendly material molecular separation processor made of a non-ferrous metal material such as wood, glass, plastic, ceramics or ceramic or stone A trace of salt or contaminated air or contaminated mineral material or contaminated fluid material molecules mixed in food waste, characterized in that it is formed in a shape that is laid at an angle and is processed by striking fluid material molecules. A nature-friendly eco-friendly material molecule separation processor that separates and extracts the combined fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity and purifies them naturally. The method according to any one of claims 1, 2, 3, 4, 6, 8, 9, 10, 11, 12,
A trace amount of salt or contaminated air or contaminated mineral substances mixed in food waste, characterized in that a plurality of sonic impactors are constructed in the eco-friendly material molecule separation processor to separate and process contaminated air or fluid material molecules. Or a nature-friendly eco-friendly material molecule separator that separates and extracts light-weight fluid material molecules and heavy fluid material molecules combined with contaminated fluid material molecules and cleans them naturally. According to any one of claims 1, 2, 3, 4, 6, 8, 9, 10, 11, 12, and 23
A trace amount of salt or contaminated air mixed in food waste, characterized in that processing contaminated air or fluid material molecules by installing a plurality of rotating friction plates in opposite directions facing the inside of the eco-friendly material molecular separation processor A nature-friendly, eco-friendly material molecule separation processor that separates and extracts and extracts and extracts light-weight fluid material molecules combined with contaminated mineral substances or contaminated fluid material molecules and cleanses naturally. In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and the eco-friendly material molecule separation processor applied thereto, in a circular shape The structure of the material molecule separation processing machine consisting of multiple stages;
A structure of a rotating striking body coupled with a rotating body inside the material molecule separation processor;
A structure in which an injection line for injecting fluid material molecules such as water, milk, or liquor into the upper side of the material molecule separator;
The structure of the material molecule separation processor configured in multiple stages in the next step of the material molecule separation processor;
A structure in which an upper transfer and discharge line connected to an upper end of the material molecule separation processor configured in multiple steps at a lower end of the material molecule separation processor is coupled with an upper discharge control valve;
A structure of a discharge line coupled with a discharge control valve at a lower end of the material molecule separation processor at the end of the eco-friendly material molecule separation processor configured in multiple stages;
At the upper edge of the eco-friendly material molecule separation processor, the eco-friendly material molecule collection port collects and discharges the fluid material molecules with a low specific gravity floating to the top of the eco-friendly material molecule separation processor by the action of gravity. A structure composed of a ∪-shape starting from the lower part of the upper upper rim of the material molecule separation processor;
One side of the material molecule collection port is configured with a fluid material molecule outlet to separate and process fluid material molecules with light specific gravity from fluid material molecules with heavy specific gravity. A trace amount of salt mixed in food waste or contaminated air or contaminated mineral substances or contaminated fluid substance molecules, characterized by a multi-stage material molecular separation processor configured to separate and extract material molecules and fluid material molecules with heavy specific gravity A nature-friendly, eco-friendly material molecule separation processor that separates and extracts the light-weight fluid material molecules and the heavy-weight fluid material molecules combined with the field and cleans them naturally. In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The lower part is a structure in which the lower-layer separation compartment is configured to be wider than the width of the upper side; In the middle part, the intermediate separation compartment for inducing a material cut-off action is configured in a triangular shape to act to preferentially descend in a downward direction while pushing up the fluid material molecules with a light specific gravity upwards by the fluid material molecules having a heavy specific gravity upward;
The structure of an eco-friendly material molecule separation processor in which the upper part of the intermediate separation compartment for inducing the material cut-out action is formed in a rectangular and rectangular shape, and the upper separation compartment is combined in a stepwise manner in multiple stages;
Around the upper end of the upper separation compartment, there is a material molecule collection port that collects fluid material molecules with a low specific gravity flowing through the upper end of the eco-friendly material molecule separation processor.

A structure having a ruler shape, and a fluid material molecule outlet at one side of the material molecule collection port;
A structure in which a material molecule separation guide plate is formed at a lower end of the material molecule separation machine to be inclined in one direction and inclined in a front direction to a rear direction;
A structure in which a plurality of material molecule descending guide plates are formed in a stepped form in the environment-friendly material molecule separation processor, which is composed of a structure of the lower separation compartment, the intermediate separation compartment for inducing the material cutting action, and the upper separation compartment;
A structure in which a plurality of lower part material molecule movement passages are configured to preferentially discharge fluid material molecules having a heavy specific gravity at a lower end of the material molecule descending guide plate;
A fluid material that discharges fluid material molecules with a heavy specific gravity in the downstream direction at the rear part of the lower material molecule movement passage, and simultaneously pushes the fluid material molecules with a light specific gravity upward and preferentially discharges them to the downstream area. A structure in which a plurality of material molecule separation compartments are formed in a stepwise manner by a structure in which a molecular ascending guide plate is formed and a material molecule movement path is formed on the upper side;
In the state of continuously injecting water, seawater, alcohol, or fluid substance molecules such as milk or beverage into the multi-stage material molecule separation compartment through the injection line configured in the eco-friendly material molecule separation processor configured as described above. A fluid material with a light weight that is processed by hitting the fluid material molecules by using a rotary striker configured at the lower end of the eco-friendly material molecule separation machine and at the same time floating upwards through the material molecule movement passage by the action of gravity Molecules are collected and processed using a fluid material molecule outlet at one side of the material molecule collection port, and at the same time, the eco-friendly material molecule separation and processing machine is provided through a multi-step upper material molecule movement path at the upper end of the fluid material molecule rising guide plate. Contaminated fluid with heavy specific gravity and light specific gravity combined with contaminated fluid material molecules using a material molecule separation machine configured to discharge to the outside through a discharge line configured at the end of A trace amount of salt or contaminated air or contaminated mineral substances or contaminated fluid substance molecules mixed in food waste, characterized by a nature-friendly eco-friendly water purifier and eco-friendly material molecular separation processor configured to separate and extract sexual substance molecules A nature-friendly, eco-friendly material molecule separation processor that separates and extracts the light-weight fluid material molecules and the heavy-weight fluid material molecules combined with the field and cleans them naturally. In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The lower part is a structure in which the lower layer separation compartment is configured to be wider than the width of the upper side; In the middle part, the intermediate separation compartment for inducing a material cut-off action is configured in a triangular shape to act to preferentially descend in a downward direction while pushing up the fluid material molecules with a light specific gravity upwards by the fluid material molecules having a heavy specific gravity upward;
The structure of an eco-friendly material molecular separation processor in which the upper separation compartment is formed in a horizontal shape having the same height on the left and right sides in a rectangular and rectangular shape on the upper side of the intermediate separation compartment for inducing the material cutting action;
Around the upper end of the upper separation compartment, there is a material molecule collection port that collects fluid material molecules with a low specific gravity flowing through the upper end of the eco-friendly material molecule separation processor.

A structure having a ruler shape, and a fluid material molecule outlet at one side of the material molecule collection port;
A structure in which a material molecule separation guide plate is formed at a lower end of the material molecule separation machine to be inclined in one direction and inclined in a front direction to a rear direction;
A structure in which a plurality of material molecule descending guide plates are formed inside the material molecule separation, which is composed of the structure of the lower layer separation compartment, the intermediate separation compartment for inducing the material cutting action, and the upper separation compartment;
A structure in which a plurality of lower part material molecule movement passages are configured to preferentially discharge fluid material molecules having a heavy specific gravity at a lower end of the material molecule descending guide plate;
A fluid material that discharges fluid material molecules with a heavy specific gravity in the downstream direction at the rear part of the lower material molecule movement passage, and simultaneously pushes the fluid material molecules with a light specific gravity upward and preferentially discharges them to the downstream area. A structure in which a molecular elevation guide plate is constructed;
A structure in which a plurality of material molecule separation compartments are configured by a structure in which an upper layer material molecule movement path is configured on the upper side of the fluid material molecule rising guide plate;
In a state in which water, sea water, or fluid substance molecules such as alcohol or milk or beverage are continuously injected into the material molecule separation compartment consisting of multiple stages through the injection line configured in the eco-friendly material molecule separation processor configured as described above.
Fluidity with a light weight that is processed by hitting the fluid material molecules by using a rotary striker configured at the lower end of the eco-friendly material molecule separation machine, and at the same time floating upward through the movement passage of the material molecules at the lower end by the action of gravity Material molecules are collected and processed using a fluid material molecule outlet at one side of the material molecule collection port, and at the same time, the eco-friendly material molecules are separated through an upper material molecule movement path configured in multiple stages at the upper end of the fluid material molecule rising guide plate. High specific gravity fluid material molecules and light specific gravity pollution combined with contaminated fluid material molecules using a material molecule separation machine configured to discharge to the outside through a discharge line configured at one end of the processing machine A trace amount of salt mixed in food waste or contaminated air or contaminated mineral substances or contaminated fluid properties, characterized by a nature-friendly eco-friendly water purifier and eco-friendly material molecule separation processor that is configured to separate and extract the fluid material molecules. A nature-friendly eco-friendly material molecule separation processor that separates and extracts light-weight fluid material molecules and heavy-weight fluid material molecules combined with material molecules and purifies them naturally. In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
An eco-friendly material that is configured to separate contaminated food waste or salt contained in contaminated soil or heavy metals with a light specific gravity. The structure of the molecular separator has a conical shape at the top and a wide shape and a narrow inclined funnel at the bottom. A structure of a hopper in which a molecular separation induction part and an outlet are combined;
A structure in which a plurality of rotating striking bodies are combined with a rotating body such as a motor acting to strike food waste or contaminated soil flowing into the hopper around the material molecule separation induction part;
A discharge port is formed at the lower side of the hopper; A structure in which a discharge valve is coupled to the discharge port;
A structure in which a discharge line is coupled with a discharge control valve on one side of the lower end of the hopper;
A rotating body such as a motor is coupled to an upper side of the hopper by a cradle; A structure in which a rotating striking body is coupled to a lower side of the rotating body;
A material molecule collection port is formed around the upper circumference of the hopper in a state that is 1 cm to 30 cm lower than the height of the upper end of the hopper and 1 cm to 30 cm higher than the height of the hopper; A structure in which a fluid material molecule discharge port is configured at one side of the material molecule collection port for discharging fluid material molecules floating above the hopper to the outside;
A structure in which an injection line through which fluid material molecules such as water are introduced is coupled to an upper side of the hopper;
At one side of the hopper, a conveyor belt unit is configured to be coupled with an inlet in an inclined form;
At the lower end of the discharge port, using the structure of an eco-friendly material molecular separation machine that combines a horizontal transfer conveyor belt unit, the specific gravity that is combined with food waste is processed by removing light salt components or cooking oil, or the specific gravity contained in contaminated soil. A trace amount of salt mixed in food waste, characterized by an eco-friendly material molecular separation processor configured to separate and extract these light heavy metal components from the soil or separate and extract sedimentary sludge contained in sediment-contaminated mud or heavy metals with a light specific gravity, or A nature-friendly eco-friendly material molecule that cleans naturally by separating and extracting the light-weight fluid material molecules and the heavy fluid material molecules combined with contaminated air, contaminated mineral substances, or contaminated fluid material molecules. Separation processing machine In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The structure of the eco-friendly material molecule separation processing machine composed of a rectangular shape;
A structure in which a material molecule-separating guide plate is formed in the form of a multi-step step shape while being inclined toward one side at the lower end of the eco-friendly material molecule separation processor;
Each material molecule descending guide plate is constructed with an interval of 1mm to 200cm upward on the upper side of the material molecule separation guide plate configured inside the eco-friendly material molecule separation processor to form each material molecule separation compartment. rescue;
A structure in which a rotational striking body configured to be coupled with a rotating body acting to strike fluid material molecules or air at a lower end of the material molecule separation compartment is configured, respectively;
A structure in which each fluid material molecule rise guide plate is formed between the material molecule separation compartments;
The material molecule separation compartment and the fluid material molecule rise guide plate have a structure in which each intermediate part movement path is formed.
A structure in which an upper layer material molecule movement path is formed with an interval of 1 cm to 100 cm above the fluid material molecule rising guide plate;
A structure in which a gravity guide plate is formed at a height of 1 cm to 2 m at an upper portion at a lower end of the fluid material molecule rising guide plate with the material molecule separation guide plate as a starting point to form a low-level water passage;
A structure in which a material molecule inducing film is formed in a triangular shape on the upper side of the low water passage;
A structure in which a passage for moving fluid material molecules having a heavy specific gravity on the upper portion of the material molecule induction film is configured to move to a lower layer and a passage for moving fluid material molecules having a light specific gravity upward;
A structure in which an injection pipe is formed between one side and the other side of the middle portion of the eco-friendly material molecule separation processor;
A structure in which a plurality of outlets for supplying fluid water molecules, water or air, etc. to the injection pipe;
At the top of one side of the injection pipe, a pump for injecting water, fluid material molecules, or air into a position 10% to 20% higher than the upper end position of the eco-friendly material molecule separation processor is configured to be connected to the injection pipe. rescue;
A structure in which a second injection pipe is formed at the lower end of the injection pipe;
A structure in which a plurality of second ejection ports are formed in the second injection pipe;
A second pump configured to inject fluid water molecules or air or contaminated air or water or liquids to one side of the second injection pipe; Eco-friendly material molecules combined with a nature-friendly, eco-friendly water purifier configured to separate fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity combined with fluid material molecules composed of air, water or liquid A small amount of salt or contaminated air or contaminated mineral substances or contaminated fluid substance molecules combined with a small amount of salt mixed in food waste characterized by a separation machine Molecular separation and processing machine for nature-friendly eco-friendly materials that separates and extracts molecules and purifies them naturally In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The structure of the material molecule separating machine, which is composed of a plurality of pieces, is in the form of a hopper, the upper part is in a horizontal form, and the lower part is inclined from one side to the other, and at the same time, the material molecule separation guide plate is configured so that it is inclined from the front to the rear. Structure;
A material molecule collection port is provided around the upper end of the eco-friendly material molecule separation machine to collect fluid material molecules with a low specific gravity flowing from the upper end.

A structure having a ruler shape, and a fluid material molecule outlet at one side of the material molecule collection port;
At one side and the lower end of the eco-friendly material molecule separation processor, an injection line for introducing fluid material molecules is provided.

A structure constructed in the form of a ruler;
A structure in which a connection pipe is coupled in a ∪ shape at the lower end of the eco-friendly material molecule separating processor configured in separate forms;
A structure of a discharge line coupled with a discharge control valve at a lower end of the material molecule separation processor configured at an end thereof; Separation of material molecules for both eco-friendly and eco-friendly water purifiers that are configured to separate fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity combined with fluid material molecules composed of air, water or liquid Clean by separating and extracting a small amount of salt mixed in the food waste, which features a processor, or a fluid material molecule with a light specific gravity and a fluid material molecule with a heavy specific gravity combined with contaminated air or contaminated fluid material molecules. Nature-friendly, eco-friendly material molecular separation processing machine that purifies nature The method of any one of claims 9, 29, 30, 32,
A structure in which air ejection units having a plurality of air ejection ports are separately inserted into the material molecule separation compartment configured in an eco-friendly material molecule separation processor;
The air blowing unit has a structure of a material and molecular separation machine in which a pump connected to an air injection pipe is combined; A small amount of salt mixed in food waste, or contaminated air or contaminated mineral substances or contaminated fluid substance molecules. Nature-friendly, eco-friendly material molecular separation processing machine that separates and extracts and purifies naturally In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
In the interior of the material molecule separation and processing machine, a plurality of material molecule separation induction film, a plurality of material molecule rise guide plates, a plurality of upper material molecule movement passages, a plurality of material molecule lower layer movement passages, and a plurality of material molecule rise induction passages are multi-stepped. Each structure;
A structure in which a plurality of rotating striking bodies are formed in the environment-friendly material molecular separation machine;
A structure of a hinge shaft support configured on an upper side and the other side of the eco-friendly material molecule separation processor;
A structure of a crankshaft and a rotating body coupled to the hinge shaft support;
A structure for configuring a vibration assembly coupled to the crankshaft inside the material molecule separation processor;
After configuring the vibrator configured at the lower end of the vibration assembly inside the material molecule separation machine, the crankshaft, the vibration assembly and the vibrator, which are configured to be coupled with the rotating body by rotating the rotating body, are vibrated. The eco-friendly material molecule is processed by striking and processing the fluid material molecules flowing into the material molecule separation machine, and at the same time, by hitting and processing the fluid material molecules flowing into the material molecule separation machine using the rotational striking body. An eco-friendly material molecule separation machine configured to separate and process the light-weight fluid material molecules and the heavy fluid material molecules combined with contaminated air or contaminated fluid material molecules flowing into the separation processor. Separation of fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity combined with trace salt components or contaminated air or contaminated mineral materials or contaminated fluid material molecules mixed in food waste characterized by Nature-friendly, eco-friendly material molecular separation processor that extracts and purifies naturally In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The structure of the lower part of the material molecule separation processing machine is inclined in one direction and at the same time, a structure in which the material molecule separation guide plate is combined so as to be inclined from the rear direction to the front direction;
A structure of an eco-friendly material molecule separation and processing machine in which a material molecule separation induction unit is combined with a material molecule separation guide unit having a rhombic rectangular shape on an upper side of the material molecule separation guide plate and a triangular rhombic shape on the top;
Between the upper one side and the other side of the material molecule separation guide plate
A structure in which an air injection pipe is formed, and a plurality of ejection ports are formed in the injection pipe and then combined with a pump;
A structure in which a rotating striking body configured to be coupled with a plurality of rotating bodies is coupled in an opposite direction and an upward direction at the front rear and lower ends of the material molecule separation processor;
A structure in which a plurality of material molecule separation induction boxes are combined in the form of an inverted rhombus at an upper end of the material molecule separation processor;
A material molecule collection port is provided around the upper end of the material molecule separating processor to collect fluid material molecules with a light overflowing specific gravity flowing from the upper end of the material molecule separation induction box.

A structure having a ruler shape, and a fluid material molecule outlet at one side of the material molecule collection port;
A structure in which an injection line for introducing a fluid material molecule such as water is coupled to an upper side of the material molecule separation induction box configured on the other side of the material molecule separation processor;
A structure of a discharge line coupled with a control valve at one side of the lower end of the eco-friendly material molecule separation processor; It is configured to separate and extract fluid material molecules with a heavy specific gravity and fluid material molecules with a light specific gravity by hitting the fluid material molecules combined with the fluid material molecules with the air generated by the rotating body and the pump. A fluid material molecule with a light specific gravity and a fluid with a heavy specific gravity combined with a trace amount of salt or contaminated air or contaminated mineral material or contaminated fluid material molecules mixed in food waste characterized by a material molecule separator Nature-friendly, eco-friendly material molecule separation and processing machine that separates and extracts sexual material molecules and purifies them naturally
delete Paragraph 1, Paragraph 2, Paragraph 3, Paragraph 4, Paragraph 6, Paragraph 8, Paragraph 9, Paragraph 10, Paragraph 11, Paragraph 12, Paragraph 23, Paragraph 31, 32 The method of any one selected from item, item 33, item 36
The specific gravity of the fluid material molecules and the specific gravity combined with the fluid material molecules by using the multi-layered material molecule transfer path consisting of layers in the form of a plurality of passages through the upper layer material molecule movement path of the eco-friendly material molecule separation processor Contaminated with a trace amount of salt or contaminated air or contaminated mineral substances or contaminated fluid substance molecules mixed in food waste, characterized by an eco-friendly molecular separation processor configured to separate these heavy fluid substance molecules. A nature-friendly, eco-friendly material molecule separation processor that separates and extracts fluid material molecules with a light specific gravity from fluid material molecules with a heavy specific gravity and purifies them naturally. The method of any one of claims 9 and 32,
The structure of the plurality of material molecule descending guide plates and the plurality of fluid material molecule rising guide plates configured inside the material molecule separating machine is constructed in the form of a double layer, and a fluid material molecule or air is ejected on one side. A structure consisting of an outlet;
At one side of the spout, a trace amount of salt or contaminated air or contaminated mineral material or contaminated fluid material molecules mixed in food waste, characterized by an eco-friendly material molecular separation machine comprising a pump coupled to the supply pipe, A nature-friendly, eco-friendly material molecule separator that separates and extracts the combined fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity and purifies them naturally. The method of claim 32,
A structure in which a multi-layered space is formed by using a plurality of partitions at the lower end of the eco-friendly material molecule separation processor;
A structure in which each moving hole for moving substances such as air in the upper and lower directions is formed in the partition;
A structure in which a material molecule separation guide plate is formed on the upper side of the duplex space in a shape inclined in one direction and inclined in a rear to front direction;
A structure in which a pump coupled to a supply pipe is coupled to the other side of the double-layer space;
A structure in which a plurality of the fluid material molecule rising guide plate, an upper material molecule movement path, a plurality of the material molecule descending guide plates, and a plurality of the material molecule separation compartments are respectively configured on the upper side of the material molecule separation guide plate; A small amount of salt mixed in food waste or contaminated air or contaminated mineral material or contaminated fluid material molecule combined with a small amount of salt component or contaminated fluid material molecule, characterized by an eco-friendly material molecule separator A nature-friendly eco-friendly material molecule separation processor that separates and extracts heavy fluid material molecules and purifies them naturally In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The upper part is in the form of a horizontal shape and the upper structure of an eco-friendly material molecular separation machine configured in a rectangular shape;
A structure in which a material molecule mixer unit having a rhombic shape and an inclined shape from one side to the other is configured at a lower end of the material molecule separation processor;
A structure in which an injection line for injecting fluid material molecules such as air or water is coupled to an upper portion of one side of the material molecule separation processor;
A structure in which a material molecule collection port for collecting fluid material molecules with light specific gravity and a fluid material molecule discharge port are formed at the upper edge of the material molecule separation processor
A structure in which a discharge line coupled with a discharge control valve is configured at the lower end of the other side of the material molecule separation machine;
A plurality of material molecule descending guide plates are configured in the form of inclined multi-steps inside the material molecule separation machine;
A structure in which a plurality of material molecule movement paths are combined in a multi-step shape in which each material molecule is inclined at a lower end of the material molecule descending guide plate;
In the next compartment of the material molecule descending guide plate, each material molecule separation compartment is configured to be coupled to the interior of the material molecule mixer unit in a multi-level inclined form;
A structure in which a plurality of fluid material molecule rise guide plates and a plurality of upper material molecule movement passages are combined in an inclined form in the next compartment of the material molecule separation compartment;
In the interior of the material molecule mixer unit, a rotating striking body, which is configured to be coupled with a plurality of rotating bodies acting to strike fluid material molecules or air, is configured in a diagonal direction in a direction opposite to each other;
An injection pipe is formed inside the material molecule mixer unit;
A structure in which a plurality of outlets for supplying fluid material molecules or air to the injection pipe;
A structure in which a pump is configured at a position 10% to 20% higher than an upper end position of the eco-friendly material molecule separation processor on one side of the injection pipe;
A structure in which a second injection pipe is formed at the lower end of the injection pipe;
A structure in which a second injection pipe is coupled inside the material molecule mixer unit;
A structure in which a plurality of second ejection ports are formed in the second injection pipe;
At one side of the second injection pipe, a structure of an eco-friendly material molecular separation processor configured to be coupled with a second pump configured to inject air or contaminated air or water or liquids; a trace amount of salt component mixed in food waste, or A nature-friendly eco-friendly material molecule that cleans naturally by separating and extracting the light-weight fluid material molecules and the heavy fluid material molecules combined with contaminated air, contaminated mineral substances, or contaminated fluid material molecules. Separation processing machine The method of claim 41
The upper side is in a horizontal form and the lower part is inclined with the eco-friendly material molecule separating processor and the material molecule mixer unit which is combined in an inclined form. The upper and lower separating guide plates are inclined in a multi-stage form to separate and extract fluid substance molecules with a heavy specific gravity and fluid substance molecules with a light specific gravity by separating the upper and lower separation guide plates that act to float fluid substance molecules with a light specific gravity upward. A fluid material with a light specific gravity combined with a trace amount of salt or contaminated air or contaminated mineral material or contaminated fluid material molecules mixed in food waste, characterized by the structure of an eco-friendly material molecule separation processor A nature-friendly eco-friendly material molecular separation machine that separates and extracts molecules and fluid substances with heavy specific gravity and purifies them naturally. In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
Each base seat is configured on the floor, and a material molecule processing unit is configured in a circular shape inclined from one direction to the other on the upper side of the base seat;
A structure in which a plurality of rotating striking bodies are combined with the rotating body around the circular circumference of the material molecule processing unit;
A structure of an eco-friendly material molecule separating machine configured to be combined with the upper side of the material molecule processing unit in a rectangular box shape;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity and an outlet port for fluid material molecules are formed around the upper circumference of the eco-friendly material molecule separator;
A structure in which injection pipes are formed through left and right sides of the material molecule processing unit;
A structure of the eco-friendly material molecule separation processor in which a plurality of ejection ports are formed in the injection pipe and then combined with a pump;
A structure comprising an injection line on one side of the material molecule separation processor;
A structure in which a discharge line coupled with a discharge control valve is configured in the other direction of the material molecule separation machine;
Separation of material molecules acting to cause the action of gravity between the inner one side and the other side of the eco-friendly material molecule separation machine to lower the fluid material molecules with heavy specific gravity while causing the fluid material molecules with light specific gravity to float upwards. A structure in which guide rods are inserted into layers;
A plurality of material molecule descending guide plates are formed in the environment-friendly material molecule separation processing machine in a form having a wide lower end and a narrow upper end through the material molecule separation guide rod and the injection pipe; A structure in which a plurality of lower material molecule movement passages are respectively configured to preferentially discharge fluid material molecules having a heavy specific gravity at a lower end of the material molecule descending guide plate;
In the next step of the lower material molecule movement passage, fluid material molecules with heavy specific gravity are discharged in the downstream direction, while fluid material molecules with light specific gravity are pushed upward and preferentially discharged to the downstream part. An eco-friendly material molecule separation processor in which a plurality of material molecule separation compartments are formed in a stepwise manner by a structure in which each material molecule rise guide plate is configured, and an upper material molecule movement path is respectively configured on the upper side of the fluid material molecule rise guide plate. By using the structure of a fluid material molecule with a light specific gravity, a fluid material molecule with a heavy specific gravity, and a gaseous material molecule such as air collide with each other, the material friction action, material explosion action, and material collision action are used. A trace amount of salt mixed in food waste or contaminated air or contaminated mineral substances or contaminated fluid properties, characterized by an eco-friendly material molecular separation processor configured to separate and extract fluid material molecules and heavy fluid material molecules. A nature-friendly eco-friendly material molecule separation processor that separates and extracts light-weight fluid material molecules and heavy-weight fluid material molecules combined with material molecules and purifies them naturally. In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The lower part has a material molecule separation guide plate inclined from one side to the other side; A structure in which a material molecule separating unit is configured in a rectangular shape on an upper side of the material molecule separation guide plate and a horizontal shape at an upper end thereof;
The structure of the upper end of the material molecule separating unit in the form of a rhombus at the lower end of the material molecule separating unit and a horizontal upper end thereof;
A structure of a material molecule separation processing machine in which a plurality of material molecule descending guide plates including a material molecule movement path and a plurality of material molecule descending guide plates each including a material molecule movement path in an upper layer are combined in the material molecule separation unit;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity and a fluid material molecule discharge port are formed around the upper circumference of the eco-friendly material molecule separation machine;
A structure in which injection pipes are formed through left and right sides of the material molecule separation machine;
A structure of the eco-friendly material molecule separation processor in which a plurality of ejection ports are formed in the injection pipe and then combined with a pump;
A structure in which a plurality of rotating striking bodies coupled with a rotating body are opposed to each other on one side, the other side, and a lower end of the material molecule separation processor;
A structure in which an injection line is formed on one side of the material molecule separation processor;
In the other direction of the material molecule separation processor, a material molecule separation processor comprising a discharge line 8028 coupled with a discharge control valve is configured in multiple stages in a layered form to purify contaminated fluid material molecules or contaminated air. A small amount of salt mixed in food waste or contaminated air or contaminated mineral material or contaminated fluid material molecule combined with contaminated air or contaminated mineral material or contaminated fluid material molecule, characterized by an eco-friendly material molecule separator, Nature-friendly, eco-friendly material molecule separation processor that separates and extracts fluid material molecules and purifies them naturally In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
A structure in which a basic pedestal is formed on the floor, and a material molecule separating unit is configured in the form of a multi-layered and flying saucer on the upper side of the basic pedestal and the intermediate connection passage and the upper and lower portions thereof;
A structure in which a rotating striking body configured to be coupled with a plurality of rotating bodies is formed in an opposite direction facing each other in the vertical direction of the material molecule separation unit;
A structure configured to preferentially discharge fluid material molecules having a heavy specific gravity by having a discharge line formed in the shape of an a-shape at the lower part of the material molecule separating unit;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity and a fluid material molecule discharge port are formed around the upper circumference of the material molecule separation unit;
A structure in which an injection pipe is formed through the upper and lower directions in the material molecule separation unit;
A structure of the eco-friendly material molecule separation processor in which a plurality of ejection ports are formed inside the injection pipe and then coupled to a pump at an upper end thereof;
An injection line is formed on one side of the upper side of the material molecule separation unit to continuously inject fluid material molecules, and then continuously strike the fluid material molecules flowing into the interior of the material molecule separation unit by using the rotary smasher. At the same time, air is continuously injected through the ejection port of the injection pipe coupled to the pump to continuously strike and process the fluid material molecules, while at the same time, 100% of the total amount of fluid material molecules introduced through the injection line Contaminated fluid by separating and discharging fluid material molecules with a light specific gravity through the material molecule collection port and the fluid material molecule discharge port for the remaining 0.01% to 10% after 90% to 99.99% are continuously discharged through the discharge line. A trace amount of salt or contaminated food waste mixed with food waste, characterized by an eco-friendly material molecule separator, which is configured to separate and extract fluid material molecules with a heavy specific gravity and fluid material molecules with a light specific gravity combined with the contaminated material. A nature-friendly, eco-friendly material molecular separation processor that separates and extracts and extracts and cleanses the light-weight fluid material molecules and the heavy-weight fluid material molecules combined with air or contaminated mineral substances or contaminated fluid material molecules. In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
A structure in which a material molecule separating processor is configured in the form of a material molecule separating unit in the form of a material molecule separating unit in the form of a rectangular shape and a horizontal upper end thereof;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity and a fluid material molecule discharge port are formed around the upper circumference of the material molecule separation unit;
A structure in which a plurality of rotating striking bodies configured to be combined with a rotating body in a shape facing each other around the material molecule separation unit are configured;
A structure in which an injection line is coupled to an injection amount control valve at an upper side of the material molecule separation unit;
At the lower end of the material molecule separation unit, a material molecule separation processor consisting of a discharge line configured to be combined with a discharge control valve is configured in multiple stages in the form of a multilayer, so that the specific gravity combined with the fluid material molecule is heavy and the specific gravity is A trace amount of salt or contaminated air or contaminated mineral substances or contaminated fluid substance molecules mixed in food waste, characterized by a multi-stage material molecule separating machine to separate light fluid substance molecules. A nature-friendly eco-friendly material molecule separation processor that separates and extracts the combined fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity and purifies them naturally. In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
Each basic pedestal is configured on the floor, and a material molecule processing unit is configured in the form of a rhombus inclined from one direction to the other on the upper side of the basic pedestal;
A structure in which a plurality of rotating striking bodies are coupled to the rotating body in opposite directions facing each other around the material molecular processing unit;
A structure of an eco-friendly material molecule separating machine configured to be combined with the upper side of the material molecule processing unit in a rectangular box shape;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity and a fluid material molecule discharge port are provided around the upper circumference of the eco-friendly material molecule separation processor;
A structure in which injection pipes are formed through left and right sides of the material molecule processing unit;
A structure of the eco-friendly material molecule separation processor in which a plurality of ejection ports are formed in the injection pipe and then combined with a pump;
A structure in which a second pump, a second injection pipe, and a second ejection port are configured in the material molecule separation machine;
A structure in which an injection line is formed on one side of the material molecule separation processor;
A structure in which a discharge line coupled with a discharge control valve is configured in the other direction of the material molecule separation machine;
A plurality of material molecule descending guide plates are respectively configured in the environment-friendly material molecule separation machine; A structure in which a plurality of lower material molecule movement passages are respectively configured to preferentially discharge fluid material molecules having a heavy specific gravity in a downstream direction at a lower end of the material molecule descending guide plate;
In the next step of the lower material molecule movement passage, fluid material molecules with heavy specific gravity are discharged in the downstream direction, while fluid material molecules with light specific gravity are pushed upward and preferentially discharged to the downstream part. Eco-friendly material molecules consisting of a plurality of material molecule separation compartments in the form of an inclined step by a structure in which each material molecule rise guide plate is configured, and an upper layer material molecule movement path is respectively configured on the upper side of the fluid material molecule rise guide plate The structure of the separating machine;
Each collection roof that collects gaseous substance molecules on the upper side of the substance molecule separation compartment, which is formed in combination with a plurality of substance molecule descending guide plates and a fluid substance molecule rise guide plate configured on one side of the eco-friendly substance molecule separation processor The structure of the structure;
A structure in which a separating container is formed at one side of the material molecule separating machine;
A structure in which a transfer pipe for transferring gaseous material molecules or fluid material molecules is formed between the upper side of the collection roof and the separation compartment;
A structure in which each injection pipe is formed on the upper part of the separation compartment;
One side of the separation compartment is mixed with food waste, characterized by the structure of a material molecule separation processor, each comprising a discharge pipe for discharging gaseous substance molecules or fluid substance molecules flowing into each of the separation compartments to the outside. Nature that cleans naturally by separating and extracting low specific gravity fluid material molecules and heavy specific gravity fluid material molecules combined with trace salt components or contaminated air or contaminated mineral materials or contaminated fluid material molecules Friendly eco-friendly material molecular separation processor
In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The structure of an eco-friendly material molecule separation processing unit consisting of a structure of a material molecule processing unit in which a material molecule separation guide plate is coupled in a shape in which the upper part is in a circular horizontal shape and the lower part is inclined from one side to the other;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity and a fluid material molecule discharge port are formed around the upper circumference of the material molecule processing unit;
A structure in which an injection line is formed on one side of the material molecule processing unit;
A structure in which a discharge line coupled with a discharge control valve is configured in the other direction of the material molecule processing unit;
A structure in which a plurality of rotating striking bodies are coupled to each other in a direction opposite to each other around the material molecule processing unit;
A structure in which a plurality of separators in the interior of the material molecule processing unit, which act to move fluid materials having a light specific gravity in an upward direction while inducing fluid material molecules having a heavy specific gravity, to move in a downward direction, are formed in a layered structure;
In the interior of the separation membrane, a fluid material molecule having a light specific gravity and a fluid material having a heavy specific gravity by using a structure consisting of a plurality of guiding holes that induce the movement of fluid material molecules in the upward direction or induce the movement in the downward direction are used. It is composed to separate and extract fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity using material friction, material explosion, and material collision that occur when material molecules and gaseous material molecules such as air collide. A small amount of salt mixed in food waste or contaminated air or contaminated mineral material or contaminated fluid material molecule combined with contaminated air or contaminated mineral material or contaminated fluid material molecule, characterized by an eco-friendly material molecule separator, Nature-friendly, eco-friendly material molecule separation processor that separates and extracts fluid material molecules and purifies them naturally
In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The structure of a material molecule separating machine consisting of a circular shape on the upper end of the material molecule separation guide plate in which the lower part is inclined from one side to the other so that fluid material molecules such as water flow in one direction by the action of gravity. ;
A structure in which a material molecule collecting port for collecting fluid material molecules having a light specific gravity is inclined from one side to the other side around the upper circumference of the material molecule separation processor;
A structure in which a fluid material molecule outlet for discharging fluid material molecules having a light specific gravity is provided at the other side of the material molecule collection port;
A structure in which a discharge line coupled with a discharge control valve is configured on the other side of the lower end of the material molecule separation processor;
In the interior of the material molecule separating machine, a rotating striking body for striking the fluid material molecules is provided in the form of a threshing machine;
A structure in which a rotating means for rotating the rotating striking body is configured outside the material molecule separation machine;
A structure in which a floor area ratio control means is coupled to the inside of the material molecule separation processing machine in a rubber balloon-like structure that acts to increase or increase the area ratio of fluid material molecules such as water flowing into the material molecule separation processing machine;
A structure in which an air pump acting to increase or decrease the volume of the floor area ratio adjusting means is coupled to the outside of the material molecule separation processor; Fluidity with light specific gravity by using mass friction, material explosion and material collisions generated by collision between fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity and gaseous material molecules such as air A trace amount of salt or contaminated air or contaminated mineral substances or contaminated fluid substance molecules mixed in food waste, characterized by an eco-friendly substance molecular separation processor configured to separate and extract substance molecules and fluid substance molecules with heavy specific gravity A nature-friendly, eco-friendly material molecule separation processor that separates and extracts the light-weight fluid material molecules and the heavy-weight fluid material molecules combined with the field and cleans them naturally. Paragraph 1, Paragraph 2, Paragraph 3, Paragraph 4, Paragraph 6, Paragraph 8, Paragraph 9, Paragraph 10, Paragraph 11, Paragraph 12, Paragraph 23, Paragraph 31, 32 The method of any one selected from item, item 33, item 36, and item 49
A salt mixture made by diluting 70wt%~99wt% of salt made by processing seawater and 1wt%~30wt% of water was introduced into the interior of the eco-friendly material molecule separation machine through an injection line composed of the eco-friendly material molecular separation machine. After performing the process of continuously hitting the salt mixture by using the rotating blower and the rotating body, the discharge control valve is closed, and the interior of the eco-friendly material molecule separation processor and the material molecule collection port are filled with salt water. Out of 100wt% of the total inflow of salt water continuously flowing into the environment-friendly material molecule separation processor, 70wt% to 99wt% of salt water is discharged to the discharge line by adjusting the discharge control valve configured at the lower end of the environment-friendly material molecule separation processor At the same time, while performing a work process of collecting and reusing or reprocessing, the remaining fluid material molecules with a light weight of 1 wt% to 30 wt% are connected to the material molecule collection port and the material molecule outlet configured on the upper side of the eco-friendly material molecule separation processor A trace amount of salt or contaminated air or contaminated minerals mixed in food waste characterized by the nature-friendly environment-friendly material molecule separation processing method that is discharged to the outside of the eco-friendly material molecule separation processor and collected, disposed of, or reused. A nature-friendly, eco-friendly material molecule separation processor that separates and extracts light-weight fluid material molecules and heavy fluid material molecules combined with substances or contaminated fluid material molecules and cleans them naturally. In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
An eco-friendly material molecule separator is constructed in a rectangular shape;
Structure in which an injection line injects fluid substance molecules such as water at the top of one side:
A structure in which a discharge line for discharging fluid substance molecules such as water is combined with a discharge control valve at the lower end of the other side;
A structure in which a fluid material molecule separation guide plate is configured at a lower end of the eco-friendly material molecule separation processor;
The structure of the fluid material molecule separation guide plate is inclined in one direction from the other direction so that water molecules with heavy specific gravity push the fluid material molecules with light specific gravity in a lower direction by the action of gravity and collect in one direction. The structure in the vertical direction is inclined from the rear to the front;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity and a fluid material molecule discharge port for discharging the collected fluid material molecules to the outside are formed at the upper edge of the eco-friendly material molecule separation processor;
A structure in which a plurality of material molecule rise-inducing films are each configured in a triangular shape in the environment-friendly material molecule separation processor;
The upper part of the material molecule rising induction film is configured in the form of a compartment, thereby exhibiting the action of lowering fluid material molecules having a heavy specific gravity such as water, and simultaneously moving the fluid material molecules having a heavy specific gravity upward. A material molecule separation guide plate that acts to move to the rear portion of the molecular rise induction film and acts as a passageway, and at the same time acts to prevent the combination of fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity. A small amount of salt or contaminated air mixed in food waste, characterized by an eco-friendly material molecule separation processor that is combined in a ∧ shape to separate heavy fluid material molecules and light fluid material molecules. Or, a nature-friendly, eco-friendly material molecule separation processor that separates and extracts and extracts and cleanses the light-weight fluid material molecules and the heavy-weight fluid material molecules combined with contaminated mineral substances or contaminated fluid material molecules. In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
An eco-friendly material molecule separator is constructed in a rectangular shape;
Structure in which an injection line injects fluid substance molecules such as water at the top of one side:
A structure in which a discharge line for discharging fluid substance molecules such as water is combined with a discharge control valve at the lower end of the other side;
A structure in which a fluid material molecule separation guide plate is configured at a lower end of the eco-friendly material molecule separation processor;
The structure of the fluid material molecule separation guide plate is inclined in one direction from the other direction so that water molecules with heavy specific gravity push the fluid material molecules with light specific gravity in a lower direction by the action of gravity and collect in one direction. The structure in the vertical direction is inclined from the rear to the front;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity and a fluid material molecule discharge port for discharging the collected fluid material molecules to the outside are formed at the upper edge of the eco-friendly material molecule separation processor;
A structure in which a plurality of material molecule rising induction films each having an air supply space in the form of a triangle with an empty inside are formed in the interior of the eco-friendly material molecule separation processor;
A structure in which a plurality of air outlets are respectively coupled to the material molecule rising induction film;
At the upper end of the material molecule rising induction film, it is configured in the form of a compartment, thereby exhibiting the action of lowering or discharging fluid material molecules with a heavy specific gravity such as water, while moving the fluid material molecules with a heavy specific gravity upward. It acts to move the material molecules upward or to the rear part of the film and acts as a passageway, and at the same time, it acts to prevent the combination of fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity. A structure in which the material molecule separation guide plates are combined in a ∧ shape;
The material molecule separation guide plate, which is each configured inside the eco-friendly material molecule separation processor, has a plurality of ejection ports that act to lower air or fluid material molecules with a heavy specific gravity or to raise fluid material molecules with a light specific gravity. Structure;
By injecting fluid material molecules such as water or gases such as air by penetrating the material molecule rising induction film and the lower end of the air supply space, respectively, formed at one side and the other lower end of the eco-friendly material molecule separation processor. The structure in which the lower injection pipe is installed;
The bottom injection pipe is an eco-friendly environment that acts to separate fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity in the vertical direction by configuring an outlet for ejecting fluid material molecules such as air or water. A fluid material molecule with a light specific gravity and a fluid with a heavy specific gravity combined with a trace amount of salt or contaminated air or contaminated mineral material or contaminated fluid material molecules mixed in food waste characterized by a material molecule separator Nature-friendly, eco-friendly material molecule separation and processing machine that separates and extracts sexual material molecules and purifies them naturally
In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
A structure in which one side and the other side of the lower part are in the form of an inverted triangle and inclined from one direction to the other, and a fluid material molecule separation guide plate;
The structure of the eco-friendly material and molecular separation processing machine in which the upper part comprises a material molecule collection port formed in a horizontal shape and a fluid material molecule discharge port for discharging the collected fluid material molecules to the outside;
An injection pipe coupled with a pump is configured between one side and the other side on the upper portion of the fluid material molecule separation guide plate;
A structure in which a plurality of ejection boxes for ejecting air or liquid are coupled between the injection pipes;
A structure in which a discharge line for discharging fluid material molecules such as water is coupled to a discharge control valve on one side of the eco-friendly material molecule separation processor;
A structure in which an injection line is coupled to an upper portion of the other side of the eco-friendly material molecule separation processor;
A plurality of plurality of primary material molecule descending guide plates are respectively configured in the environment-friendly material molecule separation processor;
A structure in which a material molecule movement passage at a lower end portion which serves to preferentially discharge fluid substance molecules having a heavy specific gravity at a lower end of the primary substance molecule descending guide plate is coupled;
In the next step of the first material molecule descending guide plate, the fluid material molecule rising guide plate is combined to form each material molecule separation compartment;
A structure in which an upper material molecule transfer passage for moving fluid material molecules having a heavy specific gravity is formed on the upper side of the fluid material molecule rising guide plate;
In the next step of the fluid material molecule rising guide plate, a secondary material molecule descending guide plate is combined to form a second lower layer material molecule movement path;
At the lower end of the secondary material molecule descending guide plate, there is a secondary lower part material molecule movement path that acts to raise fluidic material molecules with a light specific gravity while allowing fluid material molecules with heavy specific gravity to descend and rise. To food waste characterized by a nature-friendly eco-friendly method that separates and extracts heavy fluid material molecules and light specific fluid material molecules by simultaneously injecting water and air into the environment-friendly material molecule separation processor each combined. It cleans naturally by separating and extracting the lightly specific fluid material molecules and the heavy fluid material molecules combined with the trace amount of salt or contaminated air or contaminated mineral material or contaminated fluid material molecules. Nature-friendly, eco-friendly material molecule separation processor In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The structure of an eco-friendly material molecule separation processing machine in which the upper part is of a horizontal structure and the lower part is combined with a fluid material molecule separation guide plate in a shape inclined from one side to the other to form a cylindrical shape;
A structure in which a material molecule collection port and a fluid material molecule discharge port for discharging the collected fluid material molecules to the outside are respectively formed at an upper end of the eco-friendly material molecule separation processor;
A structure in which a discharge line for discharging fluid material molecules such as water is coupled to a discharge control valve on the other side of the lower end of the eco-friendly material molecule separation processor;
The inside of the eco-friendly material molecule separation machine has a rising passage that increases fluid material molecules with light specific gravity while lowering fluid material molecules with heavy specific gravity and moves fluid material molecules with heavy specific gravity in one direction. A structure in which a material molecule movement induction pipe constituted by a material molecule movement passage is 5cm to 50cm higher than the height of the eco-friendly material molecule separation machine;
A structure in which an injection line for injecting fluid material molecules is formed on the other side of the eco-friendly material molecule separation processor;
The discharge line and the discharge control valve configured at the lower end of the eco-friendly material molecule separation processor are stepwise combined in a stepwise manner to the upper part of the eco-friendly material molecule separation processor in a stepwise manner to the next step, A trace amount of salt or contaminated air or contaminated mineral substances or contaminated fluid substance molecules mixed in food waste, characterized by a multi-stage eco-friendly substance molecular separation processor configured to separate and extract fluid substance molecules with heavy specific gravity A nature-friendly, eco-friendly material molecule separator that separates and extracts the combined fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity and purifies them naturally. In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The structure of the lower side is a structure in which a fluid material molecule separation guide plate is configured in a form inclined from one direction to the other direction, and an eco-friendly material molecule separation processor is configured in a square box shape at an upper end of the fluid material molecule separation guide plate;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity and a fluid material molecule discharge port for discharging the collected fluid material molecules to the outside is formed on the upper side of the eco-friendly material molecule separation processor;
A structure in which a low water discharge pipe coupled with a pump for pumping and discharging low water with a high specific gravity to the upper part is coupled to one side of the eco-friendly material molecular separation processor;
The top side that is installed in multiple stages after installing in multiple stages so that the low-water discharge pipe constructed in the eco-friendly material molecule separation processor configured as described above is coupled to the upper direction of the eco-friendly material molecule separation machine in a continuous stepwise manner in the next stage. A structure in which an injection line is installed at the uppermost end of the eco-friendly material molecule separation processor installed in the direction;
The eco-friendly substance molecule consisting of 100 wt% of the total amount of fluid substance molecules injected through the injection line after configuring a discharge line combined with a discharge control valve at one lower end of the eco-friendly substance molecule separation processor installed at the lowermost end. The eco-friendly material consisting of 95wt%~99.99wt% of the molecular weight of a fluid substance with a heavy weight in the lower part of the eco-friendly material molecule through the pump and the low-water discharge pipe at the same time as it is injected into the separation processor. A fluid material molecule outlet that discharges the material molecule collection port and the collected fluid material molecules to the outside while pumping to the inside of the molecular separation processor and the remaining excess fluid material molecules overflowing to the top of the eco-friendly material molecule separation processor The eco-friendly material molecules having a heavy specific gravity that are finally discharged through the eco-friendly material molecule separation processor configured at the end of the eco-friendly material molecule are discharged to the outside through the discharge line and used by disposing or recycling. A nature-friendly eco-friendly method that separates and extracts contaminated fluid material molecules by using a multi-stage low-bed water pumping separation method that separates fluid material molecules with light specific gravity from fluid material molecules with light specific gravity using a material molecule separation processor. Separation of fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity combined with trace salt components or contaminated air or contaminated mineral materials or contaminated fluid material molecules mixed in characterized food waste Nature-friendly, eco-friendly material molecular separation processing machine that extracts and purifies naturally
In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The lower part has a structure of an inverted triangle and has a structure inclined from one direction to the other to constitute a fluid material molecule separation guide plate;
An eco-friendly material molecule separation machine in the form of a zigzag box so that fluid material molecules with a heavy specific gravity move quickly to the lower part by the action of gravity at the upper end of the fluid material molecule separation guide plate. A structure consisting of;
The upper side of the eco-friendly material molecule separation processor is configured in a horizontal shape with one side and the other side; A material molecule collection port for collecting fluid material molecules having a light specific gravity is configured in a horizontal shape on the upper side of the eco-friendly material molecule separation processor; At one side of the material molecule collection port, a fluid material molecule discharge port is configured to discharge the fluid material molecules collected by the material molecule collection port to the outside;
A structure in which a discharge line for discharging fluid material molecules such as water is coupled to a discharge control valve on one side of the eco-friendly material molecule separation processor;
A structure in which an injection line is coupled to an upper portion of the other side of the eco-friendly material molecule separation processor;
A structure in which a plurality of material molecule descending guide plates are respectively configured in the environment-friendly material molecule separation processor;
A structure in which a material molecule transfer passage at a lower end portion that serves to preferentially discharge fluid material molecules having a heavy specific gravity at a lower end of the material molecule descending guide plate is coupled;
In the next step of the material molecule movement passage at the lower end, a structure in which a material molecule separation compartment is formed by combining a fluid material molecule rising guide plate;
A structure in which an upper material molecule transfer passage for moving fluid material molecules having a heavy specific gravity is formed on the upper side of the fluid material molecule rising guide plate;
In the material molecule separation compartment, which is configured inside the eco-friendly material molecule separation processor, the lower part is narrow and the upper part is wide so that the fluid material molecules with light specific gravity act to rise while the fluid material molecules with light specific gravity are lowered. Each of the upright injection pipes having a shape and having a spout at the end are configured;
The upper end of the upright injection pipe is coupled to an upper transverse injection pipe connected to each of the upright injection pipes; a structure coupled to a pump at one end of the upper transverse injection pipe;
It is mixed with food waste, which features a nature-friendly eco-friendly material molecule separator that separates and extracts fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity by simultaneously injecting water and air into the interior of the eco-friendly material molecular separation machine. It cleans naturally by separating and extracting the low specific gravity fluid material molecules and the heavy specific gravity fluid material molecules combined with a trace amount of salt or contaminated air or contaminated mineral material or contaminated fluid material molecules. Nature-friendly, eco-friendly material molecule separation processor In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
A structure in which a fluid material molecule separation guide plate is formed in the form of an inverted triangle while the lower part is inclined in one direction from the other side;
A structure in which an eco-friendly material molecule separation processor is configured in a rectangular shape while having a horizontal shape on one side and the other side of the fluid material molecule separation guide plate;
A material molecule collection port that collects fluid material molecules having a light specific gravity in a horizontal shape is configured on the upper side of the eco-friendly material molecule separation processor; at one side of the material molecule collection port, the collected fluid material molecules are discharged to the outside. A structure in which each discharge port of a fluid material molecule is configured;
A structure in which a discharge line for discharging fluid material molecules such as water is coupled to a discharge control valve on one side of the eco-friendly material molecule separation processor;
A structure in which an injection line is coupled to an upper portion of the other side of the eco-friendly material molecule separation processor;
In the interior of the eco-friendly material molecule separation machine, fluid material molecules with a heavy specific gravity move quickly to the lower end in one direction by the action of gravity, and a plurality of material molecules that act to exert a material cut-off and material pushing action are lowered. A structure in which each guide plate is configured;
A structure in which a material molecule transfer passage at a lower end portion that serves to preferentially discharge fluid material molecules having a heavy specific gravity at a lower end of the material molecule descending guide plate is coupled;
In the next step of the material molecule moving passage at the lower end, each fluid material molecule rise guide plate is combined to form each material molecule separation compartment;
A structure in which an upper material molecule transfer passage for moving fluid material molecules having a heavy specific gravity is formed on the upper side of the fluid material molecule rising guide plate;
A plurality of ejection openings are provided between the material molecule descending guide plate and the material molecule movement path at the lower end and the fluid material molecule rising guide plate and the material molecule separation compartment, which are formed between one side and the other side of the eco-friendly material molecule separation processor. Structure composed of multiple material molecule movement guide plates are combined in a form of ＼／; fluid material molecules are injected into the interior of the eco-friendly material molecule separation machine constructed as above, or fluid material molecules and air are mixed. Contaminated air or a trace amount of salt mixed in food waste, characterized by a nature-friendly eco-friendly material molecule separation processor configured to separate and extract fluid material molecules with a heavy specific gravity and fluid material molecules with a light specific gravity by simultaneously injecting A nature-friendly, eco-friendly material molecule separation processor that separates and extracts and extracts and extracts light-weight fluid material molecules combined with contaminated mineral substances or contaminated fluid material molecules and cleanses naturally. In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The lower part has a structure in which a fluid material molecule separation guide plate is configured in a shape similar to the shape of a peanut inclined while being inclined in one direction from the other side;
A structure in which an eco-friendly material molecule separation processor is configured in the form of a peanut in which one side and the other side are horizontal and slanted at the upper end of the fluid material molecule separation guide plate;
A material molecule collection port for collecting fluid material molecules having a light specific gravity in a horizontal shape is configured on the upper side of the eco-friendly material molecule separation processor;
A structure in which a fluid material molecule outlet for discharging the collected fluid material molecules to the outside is provided at one side of the material molecule collection port;
A structure in which a discharge line for discharging fluid material molecules such as water is coupled to a discharge control valve on one side of the eco-friendly material molecule separation processor;
A structure in which an injection line is coupled to an upper portion of the other side of the eco-friendly material molecule separation processor;
In the interior of the eco-friendly material molecule separation machine, fluid material molecules with a heavy specific gravity move quickly to the lower end in one direction by the action of gravity, and a plurality of material molecules that act to exert a material cut-off and material pushing action are lowered. A structure in which each guide plate is configured;
A structure in which a material molecule transfer passage at a lower end portion that serves to preferentially discharge fluid material molecules having a heavy specific gravity at a lower end of the material molecule descending guide plate is coupled;
In the next step of the material molecule movement passage at the lower end, a structure in which a material molecule separation compartment is formed by combining a fluid material molecule rising guide plate;
A structure in which an upper material molecule transfer passage for moving fluid material molecules having a heavy specific gravity is formed on the upper side of the fluid material molecule rising guide plate;
A plurality of at an unspecified position between the material molecule descending guide plate formed between one side and the other side of the eco-friendly material molecule separation processor, the material molecule movement passage at the lower end, and the fluid material molecule rising guide plate and the material molecule separation compartment A structure in which a plurality of injection pipes, each of which has two ejection ports, are elongated in layers across one side and the other side of the eco-friendly material molecule separation processor;
Injecting fluid material molecules into the interior of the eco-friendly material molecule separation processor configured as described above, or simultaneously injecting fluid material molecules and air to separate and extract fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity A small amount of salt mixed in food waste or contaminated air or contaminated mineral material or contaminated fluid material, which is characterized by a nature-friendly eco-friendly material molecular separation machine that is configured to have a light specific gravity combined with molecules A nature-friendly, eco-friendly material molecule separation and processing machine that separates and extracts material molecules and fluid material molecules with heavy specific gravity and purifies them naturally. Paragraph 1, Paragraph 2, Paragraph 3, Paragraph 4, Paragraph 6, Paragraph 8, Paragraph 9, Paragraph 10, Paragraph 11, Paragraph 12, Paragraph 23, Paragraph 31, 32 Paragraph, Paragraph 33, Paragraph 36, Paragraph 43, Paragraph 44, Paragraph 45, Paragraph 46, Paragraph 47, Paragraph 48, Paragraph 49, Paragraph 51, Paragraph 52, Paragraph 53, The method of any one selected from among 54, 55, 56, 57, 58
When constructing the material molecule separation processor, it is constructed to overlap in multiple stages in a zigzag form, so that fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity are combined with fluid material molecules such as water in a narrow space. The specific gravity that is combined with a trace amount of salt or contaminated air or contaminated mineral substances or contaminated fluid substance molecules is mixed in food waste, characterized by a nature-friendly eco-friendly material molecular separation machine that is separated and extracted using A nature-friendly eco-friendly material molecule separation processor that separates and extracts light fluid material molecules from heavy fluid material molecules and purifies them naturally.
The method according to any one of claims 9, 43, 53, 56 to 58,
A structure in which a plurality of the material molecule descending guide plate, the lower material molecule movement path, the fluid material molecule rising guide plate, and the material molecule separation compartment are respectively configured in the environment-friendly material molecule separation processor;
A material molecule collection port is formed on the upper side of the eco-friendly material molecule separation processor;
When configuring a fluid material molecule outlet that discharges fluid material molecules collected at one side of the material molecule collection port to the outside, a plurality of partition collection ports are additionally configured inside the material molecule collection port, and then separate for each partition collection port. A trace amount of salt mixed in food waste or contaminated air or contaminated minerals, characterized by an eco-friendly material and molecular separation machine, which is configured to separately collect fluid material molecules with a light specific gravity by adding a fluid material molecule outlet of A nature-friendly, eco-friendly material molecule separation processor that separates and extracts light-weight fluid material molecules and heavy fluid material molecules combined with substances or contaminated fluid material molecules and cleans them naturally. Contaminated water is removed by combining the structure of floating facilities such as ships and ships, which are constructed to attract injured conditions to lakes, lagoons, rivers, seas, etc., and by combining the solar collector plate and the storage battery that stores the collected electricity. In an eco-friendly material molecule separation processor that purifies,
A structure of the floating facility, such as a ship or ship, configured to attract a floating state to a lake, a lagoon, a river, or the sea;
A structure of a floating facility, such as a ship, configured to be operated by a solar collecting plate configured on one side of the floating facility and a storage battery that controls the collected electricity;
A structure of an eco-friendly material molecule separation processor configured inside the floating facility;
A structure of a plurality of intake pipes configured to have different heights of intake ports between the upper side of the eco-friendly material molecule separation processor and the bottom layer of the lower end of the floating facility;
By using the eco-friendly material molecular separation machine combined with the structure of the water intake pump configured on the upper side of the water intake pipe each configured, the specific gravity of each layer by the action of gravity in places such as lakes, dams, rivers and seas After separating and ingesting light fluid material molecules and fluid material molecules with heavy specific gravity using the intake pipe and the intake pump, each having a different height, each fluid material molecule having a different component is added to the eco-friendly material molecule separator. Fluid material molecules with heavy specific gravity and fluids with light specific gravity by using the material pushing action, material shearing action, and material explosion action generated by fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity by injecting into the inside of Nature-friendly water purification by separating and extracting sexual substance molecules A small amount of salt mixed in food waste or contaminated air or contaminated mineral substances or contaminated fluid substance molecules. A nature-friendly eco-friendly material molecule separation processor that separates and extracts light fluid material molecules from heavy fluid material molecules and purifies them naturally. Paragraph 1, Paragraph 2, Paragraph 3, Paragraph 4, Paragraph 6, Paragraph 8, Paragraph 9, Paragraph 10, Paragraph 11, Paragraph 12, Paragraph 23, Paragraph 31, 32 Paragraph, Paragraph 33, Paragraph 36, Paragraph 43, Paragraph 44, Paragraph 45, Paragraph 46, Paragraph 47, Paragraph 48, Paragraph 49, Paragraph 51, Paragraph 52, Paragraph 53, The method of any one of claims 54, 55, 56, 57, 58, and 61
Those who maintain a high temperature by installing a heating element that generates heat using sunlight or general electricity on one side of the eco-friendly material molecule separation processor to increase the temperature of the fluid material molecules flowing into the environment-friendly material molecule separation processor. A nature-friendly eco-friendly structure composed to easily separate and extract contaminated fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity by promoting material explosion and material friction that occur when fluid material molecules come into contact with each other. A fluid material molecule with a light specific gravity and a fluid with a heavy specific gravity combined with a trace amount of salt or contaminated air or contaminated mineral material or contaminated fluid material molecules mixed in food waste characterized by a material molecule separator A nature-friendly eco-friendly material molecule separation and processing machine that separates and extracts sexual material molecules and purifies them naturally In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
A structure in which a fluid material molecule separation guide plate is configured in a form inclined from one side to the other side;
A structure in which a lower end processing unit is configured in the form of an inverted triangular trumpet on an upper portion of the fluid material molecule separation guide plate;
A structure in which a jet plate configured with a plurality of jet ports is coupled to an upper side of the lower part processing unit so that air or fluid material molecules move in an upward direction and a downward direction;
A structure in which a discharge line coupled with a discharge control valve is configured at the other lower end of the lower part processing unit;
A structure in which an injection pipe coupled with a pump for supplying air or fluid material molecules is configured at one lower end of the lower end processing unit;
Between the ejection plate and the fluid material molecule separation guide plate configured on the upper side of the lower part processing unit, each material molecule descending guide plate and the lower part material molecule movement path, the fluid material molecule rise guide plate and the material molecule separation compartment The structure is configured to induce fluid material molecules having a light specific gravity to rise upward and to induce fluid material molecules having a heavy specific gravity to flow downward;
In the upper part of the lower part processing unit, the intermediate processing unit is in the form of a spiral in a spring-like structure, and the intermediate processing unit is in the form of a rotation type, so that material friction and material explosion generated between fluid material molecules and gaseous material molecules such as air. A structure configured to flow in the form of a tornado while the action and the material collision are strongly generated;
A structure in which an upper end processing unit is configured in a funnel shape on an upper portion of the intermediate processing unit;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity is configured at an upper edge of the upper processing unit;
A structure in which a fluid material molecule discharge port is provided at one side of the material molecule collection port to discharge the collected fluid material molecules to the outside;
It is generated when an injection line is configured to inject air or fluid material molecules on the other side of the upper processing unit, so that fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity and gaseous material molecules such as air collide. It is mixed in food waste, which features an eco-friendly material molecule separator, which is configured to separate and extract fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity using the material friction, explosion, and material collision. Nature that cleans naturally by separating and extracting low specific gravity fluid material molecules and heavy specific gravity fluid material molecules combined with trace salt components or contaminated air or contaminated mineral materials or contaminated fluid material molecules Friendly eco-friendly material molecular separation processor In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
A ventilation plate configured with a through hole configured to allow a fluid material molecule or a material such as air to pass therethrough is configured at the lower end; a structure in which a supply pump for supplying air or fluid material molecules is coupled to the lower end of the ventilation plate;
A structure in which upper and lower separation pipes of material molecules are formed in an upright shape at the upper end of the ventilation plate;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity is formed at an upper edge of the material molecule upper and lower separation pipe;
A structure configured to discharge fluid material molecules at one side of the material molecule collection port to discharge the collected fluid material molecules to the outside;
A structure in which an injection line for injecting fluid material molecules into the upper side of the material molecule upper and lower separation pipes;
A structure in which a material molecule separation bent pipe is formed in the form of a step that has a shape of a shovel and is gradually bent in a downward direction at the lower end of the other side of the material molecule upper and lower separation pipe;
In the material molecule separation bent pipe, which is formed in a shoal-shaped bent shape, a plurality of step-by-step discharge control valves are configured for each step, so that the amount of the fluid material molecules introduced through the injection line is differently adjusted step by step, so that the specific gravity is reduced. A structure configured to control the separation between light fluid material molecules and light fluid material molecules;
A plurality of supply pumps that supply air or fluid material molecules into the inside of the material molecule separation bend pipe are provided at the lower part of the material molecule separation bent pipe, which is formed in a step shape curved toward a lower direction. A structure combined with a substrate;
A structure in which a plurality of material molecule separation rising pipes are formed in an upright shape in the upper bent portion of the material molecule separation bent pipe located at a high place in a curved shape; ;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity is formed at an upper end of the material molecule separation and rising pipe;
A structure in which a fluid material molecule discharge port is provided at one side of the material molecule collection port to discharge the collected fluid material molecules to the outside;
A plurality of material molecule descending guide plates are formed inside the material molecule separation rising pipe, which is formed on the upper side of the material molecule separation bent pipe, so that the fluid material molecules with heavy specific gravity act to move downward, and the specific gravity is increased. A structure in which a material molecule movement path at the lower end that acts to move light fluid material molecules upward;
In the interior of the material molecule separation bent pipe, a plurality of material molecule collision plates and a material molecule movement passage at the lower end configured to move the fluid material molecules are formed, respectively, so that fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity are formed. By forming a vortex zone that acts to generate material friction and material explosions generated during collision, fluid material molecules with light specific gravity, fluid material molecules with heavy specific gravity, and gaseous material molecules such as air collide. Traces mixed in food waste characterized by an eco-friendly material molecule separator that is configured to separate and extract fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity using material friction, material explosion, and material collision The nature-friendly that cleans naturally by separating and extracting the light-weight fluid material molecules and the heavy fluid material molecules combined with the salt component of salt or contaminated air or contaminated mineral material or contaminated fluid material molecules. Phosphorus eco-friendly material molecule separation processor In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The lower part has a structure in which a fluid material molecule separation guide plate is inclined from one side to the other side;
A structure in which an eco-friendly material molecule separation processor is configured in a cylindrical shape on the upper side of the fluid material molecule separation guide plate;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity is formed on an upper side of the eco-friendly material molecule separation processor;
A structure in which a fluid material molecule discharge port is provided at one side of the material molecule collection port to discharge the collected fluid material molecules to the outside;
A structure in which an injection line for injecting fluid material molecules such as water is formed on one side of the eco-friendly material molecule separation processor;
A structure including a rotation supply pump configured to rotate simultaneously while supplying fluid material molecules such as air or water to a lower end of the eco-friendly material molecule separation processor;
A structure in which a supply pipe is configured on the upper side of the rotary supply pump;
The supply pipe has a structure in which one side direction is cut in a form in which a rotating reinforcing plate is intersected in layers;
A structure in which a plurality of ejection openings for ejecting fluid material molecules such as air or water are unspecified in an unspecified position on the rotating plate;
Features an eco-friendly material molecule separation processor configured to separate and extract fluid material molecules with a heavy specific gravity and fluid material molecules with a light specific gravity by configuring a discharge line coupled with a discharge control valve at the lower end of the other side of the eco-friendly material molecule separation processor. A trace amount of salt or contaminated air or contaminated mineral substances or contaminated fluid substance molecules mixed with food waste are separated and extracted. Molecular separation and processing machine for eco-friendly materials that cleanly and naturally purify nature In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
A ventilation plate configured with a through hole configured to allow a fluid material molecule or a material such as air to pass therethrough is configured at the lower end; a structure in which a supply pump for supplying air or fluid material molecules is coupled to the lower end of the ventilation plate;
A structure in which upper and lower separation pipes of material molecules are formed in an upright shape at the upper end of the ventilation plate;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity is formed at an upper edge of the material molecule upper and lower separation pipe;
A structure in which a fluid material molecule discharge port is provided at one side of the material molecule collection port to discharge the collected fluid material molecules to the outside;
A structure in which an injection line for injecting fluid material molecules is formed above the material molecule upper and lower separation pipes;
A structure of a gravity pipe for separating material molecules on the other side of the material molecule separating pipe in the form of a multi-stage stepped shape and a low inclined shape such that one portion is formed in a ∧ shape;
A fluid material having a heavy specific gravity by configuring a plurality of material molecule descending guide plates in the upper part of the gravity pipe for material molecule separation consisting of multiple stages, and a material molecule separation and rising pipe inside the material molecule separation and rising pipe. A structure in which the lower part material molecule movement paths are configured to move the fluidic material molecules having a light specific gravity upward while acting to move the molecules in the downward direction;
A structure in which a material molecule collection port is configured on an upper side of the material molecule separation and rising pipe, and a fluid material molecule discharge port is configured on the other side to discharge the collected fluid material molecules to the outside;
In the middle of the gravity pipe for separating the material molecules, a step-by-step discharge control valve for controlling the amount of discharge is formed;
Fluid material molecules such as water or gaseous material molecules such as air are located in the curved portion of the lower end of the gravity pipe for material molecule separation, which is configured in a stepwise manner so that fluid material molecules flow from a high place to a low place by the action of gravity. A vent plate configured with a through hole configured to communicate; a structure in which a supply pump for supplying air or fluid material molecules is coupled to a lower end of the vent plate;
The other end of the gravity pipe for material molecule separation is an eco-friendly structure configured to separate and extract fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity by configuring a discharge line coupled with an emission control valve that controls the amount of discharge. A fluid material molecule with a light specific gravity and a fluid with a heavy specific gravity combined with a trace amount of salt or contaminated air or contaminated mineral material or contaminated fluid material molecules mixed in food waste characterized by a material molecule separator A nature-friendly eco-friendly material molecule separation and processing machine that separates and extracts sexual material molecules and purifies them naturally In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
A vent plate configured with a through hole configured to allow fluid material molecules or gaseous substances such as air to pass through is configured at the lower end; and a supply pump for supplying air or fluid material molecules is coupled to the lower end of the vent plate. rescue;
A structure in which upper and lower separation pipes of material molecules are formed in an upright shape at the upper end of the ventilation plate;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity is formed at an upper edge of the material molecule upper and lower separation pipe;
A structure in which a fluid material molecule discharge port is provided at one side of the material molecule collection port to discharge the collected fluid material molecules to the outside;
A structure in which an injection line for injecting fluid material molecules is formed above the material molecule upper and lower separation pipes;
A structure in which a first rising pipe is formed in an inclined shape on the other side of the material molecule upper and lower separation pipe;
A structure in which upper and lower separation pipes of secondary material molecules are formed in an upright shape on the other side of the primary rising pipe;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity is configured at an upper edge of the upper and lower separation pipe for the secondary material molecules;
A structure in which a fluid material molecule outlet for discharging the collected fluid material molecules to the outside is provided at the other side of the material molecule collection port;
At the lower end of the upper and lower separating pipes for the secondary material molecules, a ventilation plate is configured with a through hole configured to allow fluid material molecules or gaseous substances such as air to pass through; and at the lower end of the ventilation plate, air or a fluid material is formed. A structure in which a supply pump for supplying molecules is coupled;
A structure in which a primary discharge control valve for controlling an amount of discharge is coupled between the upper and lower separation pipes of the secondary substance molecules;
A structure in which a transverse transfer pipe is coupled to the other side of the upper and lower separating pipe of the secondary material molecules in a horizontal direction inclined;
A structure in which upper and lower separating pipes of tertiary material molecules are formed in an upright shape at the end of the transverse transfer pipe;
At the lower end of the upper and lower separating pipes of the tertiary material molecules, a ventilation plate is configured with a through hole configured to allow a fluid material molecule or a material such as air to pass through; and air or fluid material molecules are provided at the lower end of the ventilation plate. A structure in which a supply pump for supplying is coupled;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity is formed at an upper edge of the upper and lower separating pipes for the tertiary material molecules;
A structure in which a fluid material molecule outlet for discharging the collected fluid material molecules to the outside is provided at the other side of the material molecule collection port;
A structure in which a descending guide pipe is inclined downward on the other side of the upper and lower separating pipe of the tertiary material molecule and has a ∨-shaped end portion rising;
A structure in which a secondary discharge control valve is coupled in the middle of the descending induction pipe;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity is formed at an upper edge of the descending guide pipe;
A structure in which a fluid material molecule outlet for discharging the collected fluid material molecules to the outside is provided at the other side of the material molecule collection port;
A structure in which a material molecule final discharge pipe is formed on the other side of the descending guide pipe;
At the lower end of the material molecule final discharge pipe, a vent plate configured with a through hole configured to allow a fluid material molecule or a substance such as air to pass through is configured; and a supply for supplying air or fluid material molecules to the lower end of the vent plate is provided. A structure in which a pump is coupled;
The other side of the final material molecule discharge pipe uses a structure of a discharge line coupled with a discharge control valve to separate and extract fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity combined with contaminated fluid material molecules. A small amount of salt mixed in food waste or contaminated air or contaminated mineral substances or contaminated fluid substance molecules with a light specific gravity combined with molecules A nature-friendly eco-friendly material molecule separation and processing machine that separates and extracts material molecules and fluid material molecules with heavy specific gravity and purifies them naturally. In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
A vent plate configured with a through hole configured to allow fluid material molecules or gaseous substances such as air to pass through is configured at the lower end; and a supply pump for supplying air or fluid material molecules is coupled to the lower end of the vent plate. rescue;
A structure in which upper and lower separation pipes of material molecules are formed in an upright shape at the upper end of the ventilation plate;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity is formed at an upper edge of the material molecule upper and lower separation pipe;
A structure in which a fluid material molecule discharge port is provided at one side of the material molecule collection port to discharge the collected fluid material molecules to the outside;
A structure in which an injection line for injecting fluid material molecules is formed above the material molecule upper and lower separation pipes;
A structure in which a plurality of material molecule separation guide holes in a circular shape are connected to one side of the material molecule upper and lower separation pipes in an inclined form of a layered layer in a stepped structure;
The inside of the material molecule separation guide hole is 10% to 50% smaller than the size of the material molecule separation guide hole, and the internal material molecule free tools are combined in a circular shape to form a plurality of material molecule rise guide paths in layers. A structure constructed in the form of a stepped type;
A structure in which a material molecule separation rising pipe is formed on the upper side of the material molecule separation induction hole;
A plurality of material molecule descending guide plates are formed in the inside of the material molecule separation and rising pipe, so that the fluid material molecules with heavy specific gravity move in the downward direction while the fluid material molecules with light specific gravity are moved upward. Structure consisting of each moving passage of material molecules in the lower part
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity is formed on the upper side of the material molecule separation rising pipe;
A structure in which a fluid material molecule outlet for discharging the collected fluid material molecules to the outside is provided at the other side of the material molecule collection port;
A ventilation plate configured with a through hole configured to allow a fluid material molecule or a gaseous material such as air to pass through is configured at a lower end corner portion of the material molecule separation guide hole having a stepped structure and combined in a layered structure; A structure in which a supply pump for supplying air or fluid material molecules is coupled to the lower end of the substrate, respectively;
A vent plate configured with a vent hole configured to allow fluid material molecules or gaseous substances such as air to pass through is formed at the rounded lower end of the material molecule separation guide hole; and air or fluid material molecules are supplied to the lower end of the vent plate. A structure in which the supply pumps are respectively coupled to each other;
A structure in which upper and lower pipes for separating material molecules are coupled to one end of the material molecule separation guide hole;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity is configured at an upper end of the upper and lower separation pipe for material molecules at the ends;
A structure in which a fluid material molecule outlet for discharging the collected fluid material molecules to the outside is provided at the other side of the material molecule collection port;
At one lower end of the upper and lower separating pipe of the material molecule at the end, a discharge line is configured to be combined with a discharge valve that controls the amount of discharge, so that it is combined with contaminated fluid material molecules with a light specific gravity. A trace amount of salt or contaminated air or contaminated mineral substances or contaminated fluid substance molecules mixed in food waste, characterized by a nature-friendly eco-friendly material molecular separation processor configured to separate and extract fluid substance molecules with light specific gravity A nature-friendly, eco-friendly material molecule separation processor that separates and extracts the light-weight fluid material molecules and the heavy-weight fluid material molecules combined with the field and cleans them naturally. In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
A vent plate configured with a through hole configured to allow fluid material molecules or gaseous substances such as air to pass through is configured at the lower end; and a supply pump for supplying air or fluid material molecules is coupled to the lower end of the vent plate. rescue;
A structure in which a plurality of material molecule separation guide holes in a circular shape are connected to each other in an inclined shape of a layered layer in a stepped structure at the upper end of the ventilation plate;
The inside of the material molecule separation guide hole is 10% to 50% smaller than the size of the material molecule separation guide hole, and the internal material molecule free tools are combined in a circular shape to form a plurality of material molecule rise guide paths in layers. A structure constructed in the form of a stepped type;
A vent plate configured with a vent hole configured to allow fluid material molecules or gaseous substances such as air to pass through is formed at the lower end of the material molecule separation induction hole configured in a stepwise manner; and air or fluid material molecules at the lower end of the vent plate A structure in which supply pumps for supplying them are respectively coupled;
A structure in which a material molecule separation rising pipe is formed on the upper side of the material molecule separation induction hole, respectively;
A plurality of material molecule descending guide plates are formed in the inside of the material molecule separation and rising pipe, so that the fluid material molecules with heavy specific gravity move in the downward direction while the fluid material molecules with light specific gravity are moved upward. Structure consisting of the lower part material molecule moving passage and the upper side moving passage respectively
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity is formed on the upper side of the material molecule separation rising pipe;
A structure in which a fluid material molecule outlet for discharging the collected fluid material molecules to the outside is provided at the other side of the material molecule collection port;
A structure in which an injection line for injecting fluid material molecules is formed on the upper side of the material molecule separation rising pipe;
The specific gravity combined with contaminated fluid material molecules by forming a discharge line that is combined with a discharge control valve that controls discharge at the lower end of the other end of the material molecule separation induction port, which is a stepwise and layered form at the end. A trace amount of salt or contaminated air or contaminated mineral substances mixed in food waste, characterized by a nature-friendly, eco-friendly material molecular separator that is configured to separate and extract these light fluid molecules and heavy fluid material molecules. Or a nature-friendly eco-friendly material molecule separator that separates and extracts light-weight fluid material molecules and heavy fluid material molecules combined with contaminated fluid material molecules and cleans them naturally. In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
A vent plate configured with a through hole configured to allow fluid material molecules or gaseous substances such as air to pass through is configured at the lower end; and a supply pump for supplying air or fluid material molecules is coupled to the lower end of the vent plate. rescue;
A structure in which upper and lower separation pipes of material molecules are formed in an upright shape at the upper end of the ventilation plate;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity is formed at an upper edge of the material molecule upper and lower separation pipe;
A structure in which a fluid material molecule discharge port is provided at one side of the material molecule collection port to discharge the collected fluid material molecules to the outside;
A structure in which an injection line for injecting fluid material molecules is formed above the material molecule upper and lower separation pipes;
On the other side of the above and below the material molecule separation pipe, a plurality of material molecule separation rings in the form of a circular pipe are in the form of a stepped and layered structure. A structure in which a material molecule separation passage configured to separate the fluid material molecules having a heavy specific gravity up and down;
A structure in which intermediate discharge control valves for controlling discharge amount introduced from the upper side are respectively configured on the material molecule separation rings respectively configured;
At the lower end of the material molecule separation ring, a ventilation plate is configured with a through hole configured to allow fluid material molecules or gaseous substances such as air to pass through; and to the lower end of the ventilation plate, air or fluid material molecules are supplied. A structure in which each supply pump is coupled;
A structure in which a material molecule separation rising pipe is formed on an upper side of each of the material molecule separation rings;
Each material molecule descending guide plate is formed in the inside of the material molecule separation and rising pipe to move fluid material molecules with a heavy specific gravity in the downward direction while acting to move fluid material molecules with a light specific gravity in the upward direction. Structure consisting of each passage of material molecules in the lower part
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity is formed on the upper side of the material molecule separation rising pipe;
A structure in which a fluid material molecule outlet for discharging the collected fluid material molecules to the outside is provided at the other side of the material molecule collection port;
The specific gravity combined with contaminated fluid material molecules by forming a discharge line that is combined with a discharge control valve that controls discharge at the lower end of the other end of the material molecule separating ring, which is a stepwise and layered form at the end. A trace amount of salt or contaminated air or contaminated mineral substances mixed in food waste, characterized by a nature-friendly, eco-friendly material molecular separator that is configured to separate and extract these light fluid molecules and heavy fluid material molecules. Or a nature-friendly eco-friendly material molecule separator that separates and extracts light-weight fluid material molecules and heavy fluid material molecules combined with contaminated fluid material molecules and cleans them naturally.
In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
A vent plate configured with a through hole configured to allow fluid material molecules or gaseous substances such as air to pass through is configured at the lower end; and a supply pump for supplying air or fluid material molecules is coupled to the lower end of the vent plate. rescue;
On the upper end of the ventilation plate

A structure in which material molecules zigzag upper and lower separation pipes are constructed in the form of a ruler;
A structure in which a material molecule separation rising pipe is formed on the upper side of the material molecule zigzag upper and lower separation pipe;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity is formed on the upper side of the material molecule separation rising pipe;
A structure in which a fluid material molecule outlet for discharging the collected fluid material molecules to the outside is provided at the other side of the material molecule collection port;
A structure in which an injection line for injecting fluid material molecules is formed on the upper side of the material molecule separation rising pipe;
At the lower end of the middle middle corner of the material molecule zigzag upper and lower separation pipe
A ventilation plate configured with a through hole configured to allow fluid material molecules or gaseous substances such as air to pass; a structure in which a supply pump for supplying air or fluid material molecules is coupled to a lower end of the ventilation plate;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity is formed at an upper portion of a middle middle corner of the material molecule zigzag upper and lower separation pipe;
A structure in which a fluid material molecule outlet for discharging the collected fluid material molecules to the outside is provided at the other side of the material molecule collection port;
A structure in which discharge control valves for controlling discharge amount are configured in the middle of the material molecule zigzag upper and lower separation pipes;
In the lower part of the other side of the above and below the material molecule zigzag separation pipe, a discharge line is formed that is combined with a discharge valve that controls discharge, so that the specific gravity is combined with the contaminated fluid material molecule with a light specific gravity. A trace amount of salt or contaminated air or contaminated mineral material or contaminated fluid material molecules mixed in food waste, characterized by a nature-friendly eco-friendly material molecular separation processor configured to separate and extract these light fluid material molecules A nature-friendly, eco-friendly material molecule separation processor that separates and extracts and extracts light-weight fluid material molecules and heavy-weight fluid material molecules combined with In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The structure of the lower part is inclined from the other side to one side, and the fluidic substance molecule separation guide plate is composed of layers in the form of ∪;
A structure in which a material molecule separation processing tool in a pentagonal shape is combined in layers on an upper side of the fluid material molecule separation guide plate;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity is formed in layers on the upper side of the material molecule separation processing tool;
A structure in which a fluid material molecule outlet for discharging the collected fluid material molecules to the outside is provided at the other side of the material molecule collection port;
A structure in which a plurality of rotating striking bodies for processing by striking fluid material molecules are respectively coupled to the rotating body on the side of the material molecule separation processing tool;
A structure in which discharge lines coupled with discharge control valves are respectively coupled to a lower end of the material molecule separation processing tool;
By combining an injection line that injects fluid material molecules on the upper side of the material molecule separation processing port, the fluid material molecules with light specific gravity and the fluid material molecules with heavy specific gravity are separated and extracted. A fluid with a light specific gravity combined with a trace amount of salt or contaminated air or contaminated mineral material or contaminated fluid material molecules mixed in food waste characterized by a nature-friendly eco-friendly material molecular separation machine configured to process A nature-friendly, eco-friendly material molecule separation and processing machine that separates and extracts and extracts polymeric and fluid molecules with heavy specific gravity and purifies them naturally.
The method according to any one of claims 9, 32, 43, 53, 56 to 58,
Contaminated fluid material molecules and contaminated fluid material molecules are generated by operating the material molecule descending guide plate and the fluid material molecule rising guide plate 201 up and down by configuring an up-and-down operation guide inside the nature-friendly eco-friendly material molecule separation machine. A small amount of salt mixed in food waste or contaminated, characterized by a nature-friendly eco-friendly material molecule separation processor configured to separate and process the combined fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity. A nature-friendly, eco-friendly material molecular separation processor that separates and extracts and extracts and cleanses the light-weight fluid material molecules and the heavy-weight fluid material molecules combined with air or contaminated mineral substances or contaminated fluid material molecules.
Paragraph 1, Paragraph 2, Paragraph 3, Paragraph 4, Paragraph 6, Paragraph 8, Paragraph 9, Paragraph 10, Paragraph 11, Paragraph 12, Paragraph 23, Paragraph 31, 32 Paragraph, Paragraph 33, Paragraph 36, Paragraph 43, Paragraph 44, Paragraph 45, Paragraph 46, Paragraph 47, Paragraph 48, Paragraph 49, Paragraph 51, Paragraph 52, Paragraph 53, The method according to any one of claims 54, 55, 56, 57, 58, and 61.
In the interior of the eco-friendly material molecule separation machine, a collision promoting member configured to promote material collision, material friction, and material explosion of fluid material molecules is inserted, and the specific gravity combined with the fluid material molecule is light fluidity. A trace amount of salt or contaminated air or contaminated mineral substances or contaminated fluids mixed in food waste, characterized by a nature-friendly eco-friendly material molecular separator that is configured to separate and process material molecules and fluid material molecules with heavy specific gravity A nature-friendly eco-friendly material molecule separation processor that separates and extracts light-weight fluid material molecules and heavy-weight fluid material molecules combined with sexual material molecules and cleans them naturally. In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
The lower part has a structure in which a fluid material molecule separation guide plate is formed in a shape inclined from one side to the other side;
A structure in which a rotating striking body is coupled to the rotating body at a lower end of the fluidic material molecule separation guide plate to strike the fluidic material molecules in a diagonal direction;
A structure in which an eco-friendly material molecule separation processor is configured in a square shape on the upper side of the fluid material molecule separation guide plate;
A structure in which a material molecule collection port for collecting fluid material molecules having a light specific gravity is formed at an upper edge of the eco-friendly material molecule separation processor;
A structure in which a fluid material molecule outlet for discharging the collected fluid material molecules to the outside is provided at the other side of the material molecule collection port;
A structure in which a plurality of rotating striking bodies for hitting and processing fluid material molecules are combined with the rotating body and configured in opposite directions facing each other on the side of the eco-friendly material molecule separation processor;
A structure in which a discharge line formed in the form of a letter ∩ is coupled to a discharge control valve so as to preferentially discharge fluid material molecules having a heavy specific gravity at the lower end of the other side of the eco-friendly material molecule separation machine;
A structure in which an injection line for injecting fluid material molecules is coupled to an upper side of the eco-friendly material molecule separation processor;
On the other side of the eco-friendly material molecule separation machine, the eco-friendly material molecule separation machine consisting of an injection pipe comprising a plurality of ejection ports is configured to overlap in multiple stages, and then contaminated through the injection line inside the multi-stage eco-friendly material molecule separation machine. The rotating striking body installed in the lateral direction and in the diagonal direction of the lower part while continuously injecting fluid material molecules and continuously injecting air through the injection pipe configured in the multi-stage eco-friendly material molecular separation machine It is assumed that the total amount of inflow of contaminated fluid material molecules injected through the injection line is 100 WT% while simultaneously striking and processing contaminated fluid material molecules and air using the rotating body in the opposite direction facing each other. At the time, a sequential discharge method in which the discharge control valve coupled with the discharge line is adjusted to inject 85WT% to 90WT% of the total amount of inflow 100WT% into the interior of the multi-stage eco-friendly material molecule separation processor composed of multi-steps at the lower end. And the sequential blow processing method to separate and process contaminated fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity combined with fluid material molecules, and at the same time move to the upper side of the multi-stage eco-friendly material molecule separation processor. Fluid material molecules with a light weight of 10 WT% to 15 WT% of the remaining surplus remaining overflowing are separately collected and reprocessed using the material molecule collection port and the fluid material molecule outlet configured on the upper side of the multi-stage eco-friendly material molecule separation processor. For food waste, characterized by a nature-friendly, eco-friendly method that separates and processes fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity using a nature-friendly multi-stage eco-friendly material molecule separation processor configured to be collected or used. For clean natural purification by separating and extracting the light-weight fluid material molecules and heavy specific gravity fluid material molecules combined with a trace amount of salt or contaminated air or contaminated mineral material or contaminated fluid material molecules. Nature-friendly, eco-friendly material and molecular separation processor The method of any one of claims 6 and 75
Features a nature-friendly eco-friendly material molecule separation machine configured to process contaminated fluid material molecules by additionally configuring the eco-friendly material molecule separation machine in an upright fashion on the upper side of the eco-friendly material molecule separation machine configured at the lower end. Separate extraction of fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity combined with trace salt components or contaminated air or contaminated mineral materials or contaminated fluid material molecules mixed in food waste Nature-friendly, eco-friendly material molecular separation processing machine that cleanses and purifies naturally
In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
A structure in which a fluid material molecule separation guide plate is configured in a form inclined in one direction from the other side;
A structure in which an upper end portion of the fluid material molecule separation guide plate has a horizontal shape and a rectangular shape at the lower end of the eco-friendly material molecule separation processor;
A material molecule collection port for collecting fluid material molecules having a light specific gravity in a horizontal shape is configured on the upper side of the eco-friendly material molecule separation machine at the lower end;
A structure in which a fluid material molecule discharge port is provided at one side of the material molecule collection port to discharge the collected fluid material molecules to the outside;
A structure in which a discharge line for discharging fluid material molecules such as water is coupled to a discharge control valve at one side of the eco-friendly material molecule separation machine at the lower end;
A structure in which an injection line is coupled to an upper portion of the other side of the eco-friendly material molecule separation processor at the lower end;
In the interior of the eco-friendly material molecule separation machine at the lower end, fluid material molecules with a heavy specific gravity move quickly to the lower end in one direction by the action of gravity and are discharged in a lower direction, thereby exerting a material cutting action and a material pushing action. A structure in which a plurality of molecular descending guide plates are each overlapped;
A structure in which a plurality of lower material molecule movement passages, which act to preferentially discharge fluid material molecules having a heavy specific gravity, are coupled to the lower end of the material molecule descending guide plate;
In the next step of the material molecule moving passage at the lower end, a plurality of fluid material molecule rising guide plates are combined so that a plurality of material molecule separation compartments are combined so as to overlap each other;
A structure in which a plurality of upper material molecule passages for moving fluid material molecules having a heavy specific gravity are overlapped on the upper side of the fluid material molecule rising guide plate;
The material molecule descending guide plate configured between one side and the other side of the eco-friendly material molecule separation processor at the lower end, the material molecule movement passage at the lower end, and the fluid material molecule rising guide plate and the material molecule separation compartment are configured in a horizontal direction. A structure in which an upright injection pipe coupled with the injection pipe is inserted in the vertical direction;
The upright injection pipe has a structure in which a plurality of ejection ports for ejecting liquids or gases are formed;
A structure in which an air diffusion plate is coupled to each end of the upright injection pipe in an inverted shape with the hat turned upside down;
A structure coupled with a pump for injecting air or fluid material molecules at one end of the injection pipe;
A structure in which a second injection pipe and a second ejection port are connected to a second pump configured outside the lower end of the eco-friendly material molecular separation processor;
The lower end of the eco-friendly material molecule separation processor is inclined in a diagonal shape and has a rhombic shape, and the other lower end is configured in a shape of a, so that fluid material molecules are injected into the interior of the lower material molecule separation processor. The structure of the upper eco-friendly material molecular separation processor configured;
A material molecule collection port for collecting fluid material molecules having a light specific gravity in a horizontal shape is formed on one side of the upper eco-friendly material molecule separation processor;
A structure of an upper eco-friendly material molecule separation processing unit configured to be coupled to one side of the material molecule collection port in a structure of a material molecule separation processing unit including a fluid material molecule discharge port for discharging the collected fluid material molecules to the outside;
A structure in which a plurality of rotational striking bodies combined with a rotating body are combined in opposite directions facing each other in four directions composed of a rhombus shape;
A structure in which an upper injection line is formed on the upper eco-friendly material molecular separation processor;
At the lower end of the material molecule separation processing unit, an upper part discharge control valve is combined to control the amount of discharge; a trace amount of salt or contamination mixed in food waste characterized by a nature-friendly multi-processing eco-friendly material molecular separation processor Separation of nature-friendly, eco-friendly material molecules that cleanly and naturally purify by separating and extracting light-weight fluid material molecules and heavy-weight fluid material molecules combined with contaminated air or contaminated mineral or contaminated fluid material molecules Processing machine
In the nature-friendly eco-friendly method of purifying water by striking with air or combining with a striking device composed of a rotating body, or purifying seawater or fluid material molecules, and an eco-friendly material molecule separation processor applied thereto,
At the lower end, a fluid material molecule separation guide plate is constructed in a shape inclined from one side to the other, and the upper part of the fluid material molecule separation guide plate has a square shape and a rectangular shape with a height of about 3m to 150m. The structure of the eco-friendly material molecular separation machine;
A structure in which a rotating striking body coupled with a plurality of rotating bodies is formed at the lower end of the fluid material molecule separation guide plate;
A structure of a material molecule collection port that serves to collect fluid material molecules having a light specific gravity floating above the eco-friendly material molecule separation processor;
A structure in which a fluid material molecule discharge port is provided at one side of the material molecule collection port to discharge the collected fluid material molecules to the outside;
A structure in which rotating striking bodies coupled with a plurality of rotating bodies are combined in opposite directions facing each other on the inside and outside of the rim of the eco-friendly material molecular separation machine;
A structure in which an injection line for injecting fluid material molecules is formed in the middle of the upper end of the eco-friendly material molecule separation processor;
A structure in which an injection pipe for injecting fluid material molecules such as air into the other upper side of the eco-friendly material molecule separation processor;
A structure in which a plurality of ejection openings are formed in the shape of a ｜ on the outer peripheral surface of the injection pipe;
A structure in which a low-level discharge line for suctioning and discharging fluid material molecules having a heavy specific gravity at the lower end of the other side of the eco-friendly material molecule separator is formed in a ∩ shape;
A structure in which a discharge control valve is formed at the other upper end of the lower discharge line;
A structure in which a discharge pump is formed at an upper end of the lower discharge line;
A structure in which a rising pipe is formed in a ∪ shape at the other end of the discharge line of the lower layer;
At the upper end of the rising pipe, fluid material molecules are injected through the injection line into the interior of the eco-friendly material molecule separating machine, which is configured with an upper discharge line. The fluid by striking and processing the fluid material molecules flowing into the environment-friendly material molecule separation machine using the rotating striking body 1503 and at the same time injecting gaseous material molecules such as air through the injection pipe and the ejection port. It is assumed that the total amount of injection flowing through the injection line is 100wt% after separating and processing the light-weight fluid material molecules and the heavy-weight fluid material molecules combined with the fluid material molecules by simultaneously striking them. When using the discharge control valve and the discharge pump, 85wt% to 95wt% of the total injection amount is discharged to the outside through the upper discharge line, or the eco-friendly material molecular separation processor is configured in multiple stages with the same structure again. Reinjected into the upper part of the machine and processed in multiple stages to separate and process fluid material molecules with a heavy specific gravity and fluid material molecules with a light specific gravity, and at the same time, the remaining fluid material molecules with a light specific gravity rising to the top of the eco-friendly material molecule separator 5wt%~15wt% is a trace amount of salt or contaminated air mixed in food waste characterized by an eco-friendly material molecule separation processor configured to be reused or reprocessed by discharging it to the outside through the material molecule collection port and the fluid material molecule discharge port. Or, a nature-friendly, eco-friendly material molecule separation processor that separates and extracts and extracts and cleanses the light-weight fluid material molecules and the heavy-weight fluid material molecules combined with contaminated mineral substances or contaminated fluid material molecules.

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