KR20160030899A - It reprocesses contaminated blood and processes it into clean blood. At the same time, it uses gravity action, gravitational acceleration action, material friction action and material explosion action, Friendly eco-friendly process for separating and processing material molecules and a fluid material separator - Google Patents
It reprocesses contaminated blood and processes it into clean blood. At the same time, it uses gravity action, gravitational acceleration action, material friction action and material explosion action, Friendly eco-friendly process for separating and processing material molecules and a fluid material separator Download PDFInfo
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- KR20160030899A KR20160030899A KR1020160020305A KR20160020305A KR20160030899A KR 20160030899 A KR20160030899 A KR 20160030899A KR 1020160020305 A KR1020160020305 A KR 1020160020305A KR 20160020305 A KR20160020305 A KR 20160020305A KR 20160030899 A KR20160030899 A KR 20160030899A
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- fluid material
- separator
- molecules
- specific gravity
- fluid
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B03—SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
- B03B—SEPARATING SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS
- B03B5/00—Washing granular, powdered or lumpy materials; Wet separating
- B03B5/28—Washing granular, powdered or lumpy materials; Wet separating by sink-float separation
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- A23L1/015—
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- A—HUMAN NECESSITIES
- A23—FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
- A23L—FOODS, FOODSTUFFS, OR NON-ALCOHOLIC BEVERAGES, NOT COVERED BY SUBCLASSES A21D OR A23B-A23J; THEIR PREPARATION OR TREATMENT, e.g. COOKING, MODIFICATION OF NUTRITIVE QUALITIES, PHYSICAL TREATMENT; PRESERVATION OF FOODS OR FOODSTUFFS, IN GENERAL
- A23L2/00—Non-alcoholic beverages; Dry compositions or concentrates therefor; Their preparation
- A23L2/70—Clarifying or fining of non-alcoholic beverages; Removing unwanted matter
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B03—SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
- B03B—SEPARATING SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS
- B03B7/00—Combinations of wet processes or apparatus with other processes or apparatus, e.g. for dressing ores or garbage
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/34—Treatment of water, waste water, or sewage with mechanical oscillations
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/40—Devices for separating or removing fatty or oily substances or similar floating material
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- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12H—PASTEURISATION, STERILISATION, PRESERVATION, PURIFICATION, CLARIFICATION OR AGEING OF ALCOHOLIC BEVERAGES; METHODS FOR ALTERING THE ALCOHOL CONTENT OF FERMENTED SOLUTIONS OR ALCOHOLIC BEVERAGES
- C12H1/00—Pasteurisation, sterilisation, preservation, purification, clarification, or ageing of alcoholic beverages
- C12H1/02—Pasteurisation, sterilisation, preservation, purification, clarification, or ageing of alcoholic beverages combined with removal of precipitate or added materials, e.g. adsorption material
- C12H1/06—Precipitation by physical means, e.g. by irradiation, vibrations
Abstract
Description
The present invention relates to a method and apparatus for measuring the amount of a substance having a specific gravity which is combined with a fluid material such as fresh water, seawater, milk, liquor, beverage, fluid food, palatable food and blood using gravity acceleration action and material explosion action The present invention relates to a naturally friendly environment-friendly process for separating and processing heavily fluid substances, and more particularly to a fluid material separator for use in seawater, fresh water, alcohol, beverage, blood, A fluidic material configured to separate light pollutant molecules and heavy hydrodynamic molecules contained in the fluid constituting the fluid and to purify them with a clean fluidic material; .
It is true that substances such as rainwater, seawater, or milk and beverages or liquor contain substances with a low specific gravity, but these substances can not be completely removed
In particular, in milk, cows are raised by feeding a large amount of preservatives into feed to prevent or treat dairy cows while raising cows
It has also been known for a long time that antiseptics and antibiotics are transferring antiseptics and antibiotics to humans who drink milk through milk, as cows are receiving large doses of antibiotics to cure diseases when they are diseased .
In addition, in order to extract chemical substances such as lithium or sodium components from the seawater, there is a problem that it is expensive to use the heating method.
When a fluid material separator constructed according to the present invention is used, a large amount of sodium components can be easily extracted through a simple process to separate fresh water and seawater.
In addition, since the pollutant molecules contained in polluted gas can not be completely separated, the problem of polluting the atmosphere by discharging polluted gas into the air is an important issue of the environment.
However, if the polluted gas is processed by injecting the contaminated gas into the fluid material separator constructed in accordance with the present invention, the pollutant molecules bound to the gaseous substance molecules are naturally released from the gas, This is to provide a technique for naturally purifying contaminating gaseous substance molecules.
It is an object of the present invention to provide a fresh water or seawater or a drink or a drink or milk which completely removes contaminant molecules contained in fluid substances such as fresh water, seawater, or alcoholic beverage or milk, I will.
It is also an object of the present invention to completely remove contaminant molecules associated with seawater and make them into edible fresh water or by drying contaminant molecules extracted from seawater to produce salt
It is also an object of the present invention to isolate pollutant molecules contained in polluted gas to purify contaminated gas cleanly
Fluid materials such as contaminated fresh water, liquor, beverages, or milk, and gaseous materials. In order to remove molecules of contaminant contaminants contained in the molecules, The air injection striking by the striking air striking device or striking by using the vibration force is used to reverse the action of gravity to completely remove the pollutant molecules attached to these fluid substance molecules and gaseous substance molecules An object of the present invention is solved by using an eco-friendly method for producing pure fluidic substance molecules inherent to a substance molecule
In addition, in order to remove contaminant molecules and particulate contaminant molecules contained in seawater, sea water is directly blown or processed by blowing air, The present invention aims at solving the problem of the present invention by using an eco-friendly method in which contaminant molecules associated with seawater are completely removed and dried to produce edible fresh water or contaminant molecules extracted from seawater to produce salt
Fluid materials such as fresh water, seawater, or alcohol, beverage, or milk. Particulate pollutants contained in molecules are directly blown or processed, or air is used to blow them. The contaminant molecules can be completely removed by using the action of gravity in reverse and processed, so that these fluid substances can be used safely
For example, it has long been known that alcohol is produced in a liquor by mixing various contaminant molecules that are lighter in weight than alcohol.
It is a well-known fact that among these components, harmful substance molecules such as whiskey and phenol, which are slightly lighter in weight than alcohol, are produced together with alcohol.
In the present invention, all of the substance molecules have a mass, and the action of gravity generated according to the mass of the substance is completely removed by using the scientific phenomenon to completely remove contaminant molecules associated with seawater components, There is also an effect of drying the substance molecules extracted from seawater and producing salt
In addition, it is possible to use salt as a energy to burn well by mixing salt ingredients and other substances which are produced by separating and extracting a lot of salt ingredients having a small amount of sodium component in seawater to produce and then drying or extracting salt. There is an effect that it is possible to produce infinite energy with infinite energy by using the construction method.
In addition, when the pollutant molecules contained in the contaminated gas are processed by using the material molecular separator constructed according to the present invention, the impact of the material generated by the impact device and the vibration device, the material friction action, A substance with a specific gravity that is bonded to a gaseous substance molecule is separated from a gaseous substance molecule by the material shock action and is combined with water, alcohol, or other substance molecules introduced into the substance substance processing machine Neutralization neutralizing action occurs, and at the same time, the gaseous material molecules with a low specific gravity due to the action of gravity are transferred to another fluid material separator constituted at the upper part, and are reworked, and at the same time, the material molecules having a heavy specific gravity and light fluids The sex material molecules are composed of a bottom vessel The pollutant molecules bound to the gaseous substance molecules are automatically extracted and separated through the process of separating and discharging the gaseous substance molecules from the outlet and the upper outlet port.
In addition, the conventional hemodialyzer uses a filter to separate the harmful substance molecules contained in the blood and then re-dialysis. However, since this method can not completely separate the contaminants bound to the blood, There are drawbacks to dialysis about twice
In addition, when the blood is purified by using the fluid material separator constructed according to the present invention, it is possible to purify the pollutant molecules bound to the pure blood by the action of material shock, material friction, material striking action and gravity And the blood is transfused to patients, thereby increasing the healing effect of the disease.
FIG. 1 is a perspective view of an apparatus for purifying a contaminated fluid which has been conventionally registered with the present invention as a patent No. 10-1291054
FIG. 2 is a perspective view of the conventional art disclosed by the present inventor and disclosed in Patent Publication No. 10-2015-0130949
3 is a front perspective view of a fluidic material molecular separator constructed according to the first to third embodiments of the present invention
Fig. 4 is a right side perspective view of a fluid material separator constructed according to the first to third embodiments of the present invention
FIG. 5 is a top partial partial perspective view of the fluid material separator according to the first to third embodiments of the present invention,
FIG. 6 is a top partial partial perspective view of the fluid material separator according to the first to third embodiments of the present invention,
FIG. 7 is a cross-sectional view of a fluid material separator according to a first embodiment, a third embodiment, a fourth embodiment, a fifth embodiment and a sixth embodiment of the present invention, Fluid material injected into the inside of the material molecule separator.
FIG. 8 is a detailed perspective view of a front machining plate in which the front plate of the fluid material separator according to the first to third embodiments of the present invention is exploded; FIG.
FIG. 9 is a top perspective detailed perspective view of the front plate of the fluid material separator according to the first to third embodiments of the present invention. FIG.
10 is a top perspective detailed perspective view of a fluid material molecular separator constructed in accordance with the first to third embodiments of the present invention before the friction rods are engaged with the front plate,
11 is a detailed perspective view of a friction rod, which is combined with the front plate of the fluid material separator according to the first to third embodiments of the present invention.
FIG. 12 is a detailed perspective view of a rear processing plate shown by explaining a back side plate of a fluid material molecular separator constructed according to the first to third embodiments of the present invention. FIG.
13 is a partially detailed perspective view of a rear processing plate shown in an exploded view of an upper end of a rear processing plate of a fluid material molecular separator constructed according to the first to third embodiments of the present invention
FIG. 14 is a partial detail perspective view showing a rotating shaft, a coupling flange, and a rotary housing engaged with a rear machining plate of a fluid material separator according to the first to third embodiments of the present invention;
15 is a partial detail perspective view showing a coupling relationship between a rotation shaft and a flange coupling bolt which are engaged with a front portion of a rear processing plate constituting a fluid material separator according to the first to third embodiments of the present invention;
16 is a partial detail perspective view showing a state in which a rotating shaft is coupled to a rotating plate installed in a front part of a rear machining plate constituting a fluid material separator according to the first to third embodiments of the present invention;
17 is an enlarged perspective view showing a coupling structure of a U-shaped coupling band formed on both side portions of the fluid material separator according to the first to third embodiments of the present invention, a filtration membrane formed on the upper end portion,
FIG. 18 is a sectional view showing a coupling member formed on both side portions of the fluid material separator according to the first to third embodiments of the present invention, a bottom air outlet formed on the bottom portion, Partial detail perspective
19 is an exploded perspective view showing a state in which a front plate, a rear plate, a fluid material molecule injection pipe and an air injection pipe are removed from the fluid material separator according to the first to third embodiments of the present invention;
20 is a perspective view showing a state in which a front plate of a fluid material separator according to a fourth embodiment of the present invention is separated and removed;
FIG. 21 is a partially exploded perspective view showing the rotary impact striking device and the air injection striking device constructed in the fluid material molecule separator according to the fourth embodiment of the present invention,
22 is a perspective view showing a state in which a front plate of a fluid material separator according to a fifth embodiment of the present invention is separated and removed;
23 is a multi-stage perspective view showing a state in which the fluidic substance molecular separator constructed in accordance with the sixth embodiment of the present invention is installed stepwise
24 is a perspective view showing a fluidic substance molecular separator constructed according to the sixth embodiment of the present invention
Fig. 25 is an exploded perspective view showing the body of the fluid material separator constructed in accordance with the sixth embodiment of the present invention,
FIG. 26 is a perspective view of a fluid material separator according to a seventh embodiment of the present invention,
27 is a cross-sectional perspective view of a fluid material separator constructed in accordance with a seventh embodiment of the present invention
28 is a partial perspective view of the forward rotation fixed striking rod and the reverse rotation rotating striking rod according to the first to eighth embodiments of the present invention
29 is a cross-sectional perspective view of a fluid material separator constructed in accordance with an eighth embodiment of the present invention;
30 is a cross-sectional perspective view of a fluid material molecular separator constructed according to the ninth embodiment of the present invention
31 is a cross-sectional perspective view of a fluid material separator constructed according to an eleventh embodiment of the present invention
32 is a cross-sectional perspective view of a fluid material separator constructed in accordance with a twelfth embodiment of the present invention
33 is a cross-sectional perspective view of a fluid material separator constructed in accordance with a thirteenth embodiment of the present invention
34 is a cross-sectional perspective view showing a cross section of a fluid material separator constructed in accordance with the fourteenth embodiment of the present invention
35 is a cross-sectional perspective view showing a cross section of a fluid material separator constructed in accordance with an embodiment 15 of the present invention
36 is a cross-sectional perspective view showing a cross section of a fluid material separator constructed in accordance with the sixteenth embodiment of the present invention
37 is a cross-sectional perspective view showing a cross section of a fluid material separator constructed in accordance with the seventeenth embodiment of the present invention
38 is a cross-sectional perspective view showing a cross section of a fluid material separator constructed in accordance with the eighteenth embodiment of the present invention
Fig. 39 is a photograph showing the bubbles generated in the bottled water bottles photographing the shape of the bubbles generated by the material friction action and the material explosion action naturally occurring in the bottled water when the bottled water bottle is shaken
[First Embodiment]
The present invention relates to a method for producing a food or beverage, which comprises the steps of: (a) preparing a food or beverage having a high specific gravity and a high specific gravity by mixing a fluid material such as seawater, milk, The eco-friendly method for separating and processing gaseous substance molecules and the fluidic substance molecular separator applied here are explained as follows.
FIG. 3 is a front perspective view of a fluidic material molecular separator constructed according to the first to third embodiments of the present invention, and FIG. 4 is a right side perspective view of a fluidic material molecular separator constructed according to the first to third embodiments of the present invention. And FIG. 5 is a top partial partial perspective view of the upper part of the fluid material separator according to the first to third embodiments of the present invention,
FIG. 6 is a detailed top perspective view of the upper part of the fluid material separator according to the first to third embodiments of the present invention. FIG. 7 is a cross- According to the fourth, fifth, and sixth embodiments, the portion of the fluid substance molecule ejecting rod, which is formed at the upper end of the fluid substance separator and ejects the fluid substance molecules into the fluid substance separator, FIG.
FIG. 8 is a detailed perspective view of a front machining plate in which a front plate of the fluid material separator according to the first to third embodiments of the present invention is exploded, and FIG. 9 is a cross- FIG. 10 is a perspective view of a front surface plate of a fluid material separator according to an embodiment of the present invention. FIG. 10 is a cross- 11 is a detailed perspective view of a frictional rod which is combined with a front plate of a fluid material separator according to the first to third embodiments of the present invention, FIG. 13 is a detailed perspective view of a rear processing plate shown by explaining a back side plate of a fluid material separator constructed in accordance with an embodiment. FIG. 13 is a perspective view of a fluid material molecule FIG. 14 is a sectional view of a rear surface machining plate according to the first to third embodiments of the present invention. FIG. FIG. 15 is a partial detail perspective view showing a coupling flange and a rotating housing according to an embodiment of the present invention. FIG. 15 is a perspective view illustrating a coupling flange and a rotating housing, And Fig.
16 is a partial detailed perspective view showing a state in which a rotary shaft and a rotary plate provided on a front portion of a rear machining plate formed in a fluid material separator according to the first to third embodiments of the present invention are engaged; 18 is a substantial partial detail perspective view showing a coupling structure formed on both side portions of the fluid material separator according to the first to third embodiments of the present invention and a coupling relationship between the filtration membrane formed on the upper portion and the upper rear portion of the upper plate, A lower portion detailed perspective view showing a coupling member formed on both side portions of the fluid material separator according to the first to third embodiments of the present invention and a coupling relation between the lower air outlet port formed on the lower end portion and the base frame and the vibrator; And FIG. 19 is a graph showing the results obtained by removing the front plate, the back plate, the fluid material molecule injection pipe and the air injection pipe of the fluid material separator according to the first to third embodiments of the present invention Fig.
Evidence-based explanations of empirical and logical actions on the underlying scientific principles of the present invention are provided.
These logic are summarized by the present inventors while registering patents by the academia and the patent office examiners after the inventors have studied various patents for 30 years.
Definition of gravitational acceleration action:
It is common knowledge that all materials are subject to gravitational acceleration and gravity.
It is also a basic common sense that molecules of fluid matter also exert gravitational acceleration in response to the action of gravity.
But it is also true that there are no scholars who logically explain that clouds in the atmosphere are subject to gravity.
Therefore, there is no scholarly proof that hydrodynamic molecules can be separated by reverse use of gravitational acceleration.
The gravitational acceleration effect is the logic that when a material falls at a certain height, the weight increases as the speed increases.
Therefore, in order to separate clean fluid material molecules with high specific gravity and light contaminant fluid material molecules with high specific gravity, we construct a hermetic fluid material mass processing machine with a high height of 5m ~ 80m, So as to achieve the object of the present invention
More specifically, the present invention is characterized in that a gravitational force and a gravitational acceleration action are used in reverse, whereby a fluid material molecule having a specific gravity and a fluid material molecule having a heavy specific gravity, which are bonded to the fluid material molecule, The invention was invented to provide an eco-friendly construction method.
Definition of Material Explosion:
Instead of explosive explosives, all fluidic and gaseous material molecules generate gases when they come into contact with material molecules that have other components and other components.
Evidence 1: methane gas produced from the flour
Evidence 2: When tap water is shaken in a bottled water bottle, gas bubbles are generated in the bottled water bottle. Since the air is lighter than water, it can not penetrate into the bottled bottle. Proof of Truth
Evidence 3: As a phenomenon that bubbles are generated when a wave is hit in the sea, the substance A and the substance B contained in the seawater come into contact with each other,
Evidence 4: Soap and water are in contact with each other and cause a bubble by the explosion of matter.
Evidence 5: When you see urine in the left-hand side, the bubbling foam is generated when the water in the left-hand side contacts with the urine because the water molecule and another substance contained in the urine come into contact with each other, Logical proof of material explosion
Definition of material friction action:
Evidence 1: Stone pie phenomenon caused by drowning in the eaves
Definition of material tremor:
Evidence 1: All material molecules are subject to the action of mass specific mass and corresponding weight,
Evidence 2: Therefore, all material molecules combined with water molecules can be separated into layers according to the action of gravity and mass and weight.
Definition of the logic that all matter molecules are separated:
Evidence 1: A proof of the scientific logic that clouds floating in the sky are a combination of material molecules vaporized on Earth
The definition of the logic that all materials are governed by gravity:
Evidence 1: All materials, whether small or large, are all gravitationally stuck on the earth's surface.
By using the above-mentioned natural action, it is possible to separate and process the pollutant molecules with a small specific gravity, which are combined with fresh water, seawater or various fluid substances, The fluidic material molecular separator applied here consists of
The fluidic substance
A
A
A structure of a
A structure of the vibrator 1585 formed at the lower end of the
A structure of a
A structure of a
A structure of a lower end
A material molecule separation chamber 1560 is formed on the other side of the lower
And an air injection
The air injection
The other end of the
A structure in which an upper
A top plate upper
A plurality of upper plate upper flange
The upper second
A structure in which an
A structure in which an inverted triangular
The lower end of the fluid material
A structure of the
The lower plate of the
The end portion of the low-layer
In the middle portion of the low-level
A plurality of front
Between the upper and lower ends of the
The friction
The
A plurality of rear
A structure in which a plurality of
A structure in which each
A structure of a shaft screw and a
Since the rotating means for rotating the
The reason for this is that the rotating means can be changed and configured at any time according to the input amount of the fluid material molecules to be processed since the known mechanisms and the changing means are very various. In drawings and detailed description formed according to the present invention will be
The structure of each of the
The structure of each
The rotating means for rotating the
A structure of a plurality of
A structure of a plurality of
A structure of a
The
As described above, the fluid material separator 1500 is connected to the fluid material molecule injection pipe 1508 through the conical spray rod 1520, By continuously introducing the substance molecules at high pressure, the pollutant molecules with a low specific gravity combined with the fluid substance molecules and the clean substance molecules with a high specific gravity are processed so as to be automatically separated by the action of gravity, A fluid material separator (not shown) is formed by using a friction plate 1530 and a striking rod 1551 and a striking groove 1552 formed on a friction plate 1530 and a back plate 1513 of a front plate 1518 The fluid material molecules flowing into the interior of the fluid material separator 1500 are continuously blown and processed by using a vibrator 1585 formed on the base seat plate 1502, The fluid material molecules are continuously blown and processed and the air is introduced into the fluid material separator 1500 using the second pump 1515 at a high pressure, The fluid material molecules flowing into the fluid material separator 1500 are continuously blown and processed while the fluid material molecules flowing into the fluid material separator 1500 are processed through a conical spout 1520 formed at one side, Or liquid such as beverage or blood is continuously introduced into the fluid material separator 1500, so that the fluid material molecule having a specific gravity and the fluid material molecule having a heavy specific gravity act on the action of gravity, The total amount of the fluidic substance molecules flowing into the fluidic material molecular sieve 1500 at the time of processing so as to be naturally separated by the explosion action is 100 wt% 70WT% ~ 99.99WT% of heavy specific substance molecules moving to the lower end of the fluid material separator 1500 due to the action of the force and the difference between the specific gravity and the mass are transferred to the lower end of one side of the fluid material separator 1500 And discharges the fluid material to the outside of the molecular material separator 1500 using the low-level water discharge pipe 1505 and the discharge pump 1507 combined with the low-layer water intake port 1558, The fluid material molecules which are not discharged to the lower layer water intake port 1558 and have a low specific gravity to float up to the upper end of the fluid material molecule separator 1500 are discharged to the upper discharge port 1501 ), Collected, used or reworked, and a fluid-state molecular separator applied to the environment-friendly process is proposed
The fluidic material molecules, which can be separated from the pollutant molecules having a specific gravity and the heavy specific gravity molecules using the fluidic material molecular separator constructed according to the present invention, The fluid material molecules having a specific gravity and the fluid material molecules having a large specific gravity are separated and processed so that only the clean substance molecules having a heavy specific weight can be separated and extracted separately. It is no wonder that all of the contractors who separate and process material molecules and heavy material molecules should be punished.
[Second Embodiment]
The method of
When the facilities constituted in the
[Third Embodiment]
In
The fluidic material
[Fourth Embodiment]
The fourth embodiment of the present invention is configured as follows
FIG. 20 is a perspective view showing a state in which a front plate of a fluid material separator constructed according to a fourth embodiment of the present invention is separated and removed. FIG. 21 is a perspective view illustrating a fluid material separator according to a fourth embodiment of the present invention, Fig. 2 is a partially exploded perspective view of the rotary impact device and air blow striking device shown in Fig.
The fluidic material
A vibrator (107) is formed at the center lower end of the fluid material separator (1000);
A lower plate 121 is provided at an upper portion of the lower end of the
An
A structure in which an
An
An
The
A fluidic material
The fluidic substance
A structure of a plurality of
A plurality of
An
A structure in which a
The rotating means for rotating the
As described above, the fluidic substance molecules such as water are continuously introduced into the fluidic substance molecule separator 1000 through the fluidic substance molecule injection port 111 at a high pressure, The material molecules and the clean substance molecules having a large specific gravity are separated from each other and at the same time the fluid material molecules are separated from the fluid material separator 1000 through the inlet hole 103 and the outlet hole 118, The fluid material molecules such as air or water are continuously supplied to the inside of the fluid material separator 1000 by the pressure and at the same time, the fluid is supplied to the fluid material separator 1000 by using the friction plate 102 and the friction wing 117, The gas or fluid substance molecules flowing into the interior of the molecular sieve separator 1000 are successively struck so that the specific gravity combined with the pollutant molecules is light The fluid material which is separated from the pollutant molecules and the heavy specific gravity molecules and which is introduced into the fluid material separator 1000 by using the vibrator 107 formed on the base seat plate 109, The material molecules are continuously blown and processed and at the same time air is introduced into the fluid material separator 1000 by using the air pump 116 at a high pressure to be introduced into the fluid material separator 1000 Gas or fluid material molecules are successively bombarded and processed into the fluidic material molecular sieve 1000 through the fluidic material molecule injection port 111 formed at the upper part of the fluidic material molecular sieve separator 1000 Fluid material molecules with a low specific gravity and heavier fluids with high specific gravity by continuously inflowing fresh water, seawater, or alcohol or milk or drinks or blood The gravity action, the material collision action, the material friction action, and the material explosion action, the gravity action and the specific gravity are compared with the total influx of the fluid material molecules flowing into the molecular material separator 1000 70WT% ~ 99.99WT% of the fluidic material molecules having a high specific gravity moving to the lower end of the fluidic material molecular sieve 1000 due to the difference in mass are collected in the lower layer water intake port Layer water intake port 106 due to the action of gravity and the difference in mass and specific gravity when discharging it out of the fluid material separator 1000 using the low-level water discharge pipe 133 and the discharge pump 105 combined with the low- The fluidic material molecules that are not discharged to the outside of the fluidic material molecular separator 1000 and come up to the upper end of the fluidic material molecular sieve 1000 The fluid material separator 1000 is separated and discharged to an upper discharge port 110 formed at the upper end of the fluid material separator 1000 and collected and used or reworked. Fluid materials such as fresh water and seawater, milk, liquor and beverages, liquid materials such as palatable food and blood, lightweight materials with heavy specific gravity, and liquid materials with heavy specific gravity. Separate molecules or gaseous substances. Friendly environment-friendly process and a fluidic substance molecular separator applied to it.
[Fifth Embodiment]
The fifth embodiment of the present invention is configured as follows.
22 is a perspective view showing a state in which a front plate of a fluid material separator constructed according to a fifth embodiment of the present invention is separated and removed,
The
A structure in which a vibrator (107) is placed at the center lower end of the fluid material separator (200);
A structure in which the
The
The
The
The fluid
A plurality of high-
The
The
In the
[Sixth Embodiment]
The sixth embodiment of the present invention is configured as follows.
FIG. 22 is a perspective view showing a state in which a front plate of a fluid material separator constructed in accordance with a fifth embodiment of the present invention is separated and removed. FIG.
The fluidic material
A structure formed on an upper portion of the
The fluid
A plurality of high-
The fluidic material molecules, which have a low specific gravity and float above the fluidic material
The fluidic material molecules collected at the lower end of the fluidic material
The
The other end of the
One end of the
The lower high-
The end portion of the lower
The other end of the
After the
Stage
[Seventh Embodiment]
The method of claim 6, wherein
The fluidic material
The body shape of the
[Eighth Embodiment]
The eighth embodiment of the present invention is configured as follows.
Fig. 28 is a partial perspective view of a forward rotation fixed striking rod and a reverse rotation striking rod applied to the first to eighth embodiments of the present invention, Fig. 29 is a partial perspective view of a fluid material molecule Sectional view of the separator as follows
A structure of a fluid
A
A lower plate 121 is provided at an upper portion of the lower end of the
An
A gas injection pump 720 is provided at an upper portion of one side of the fluid
A structure in which fresh air introduced from the outside or polluted air or an
Between the gas injection pump 720 and the
The
A structure for constructing a secondary fluidic material
A
A structure in which a ciphone downfalling discharge pipe 713 for discharging heavy fluid molecules is combined with a discharge amount control valve 715 at one side of the secondary
A fluid
A structure in which a fluid material molecule diffusion hole 718 is formed at an end of the fluid material
At the other side of the upper part of the fluidic material
On the upper side of the
(Such as an inflow pipe or a pump that pumps liquid or water or a commonly constructed milk, alcohol or beverage, or contaminated fluid substance molecules into the liquid injection orifice 705) It is possible to omit the illustration of the detailed connection structure)
A plurality of forward rotation fixed
A structure for constructing a rotating
The rotary
(The rotary structure for rotating the rotary
As described above, the
Fresh air or contaminated air is continuously injected into the fluid
The fluid material molecules such as water are continuously introduced into the fluid
Environmentally friendly method for collecting and reusing or reworking the material after discharging the material through an
[Ninth Embodiment]
The ninth embodiment of the present invention is configured as follows.
Fig. 30 is a cross-sectional perspective view of a fluid material separator constructed in accordance with the ninth embodiment of the present invention as follows.
A structure coupled with four pairs of rotating
A structure in which a fluidic substance
A
A lower plate 121 is provided at an upper portion of the lower end of the
An
A gas injection pump 720 is provided at an upper portion of one side of the fluid
A structure in which fresh air introduced from the outside or polluted air or an
Between the gas injection pump 720 and the
The
The upper portion of the ascending
An
At the other end of the upper portion of the
A first material molecule separation column 739 for collecting fluid material molecules and gaseous material molecules having a light specific gravity is formed on the upper portion of the fluid material molecule inlet pipe 738, And a primary discharge pipe 750 for discharging fluidic substance molecules having a specific gravity is connected to the primary discharge control valve 756 at one side,
A structure that constitutes a phyis lifting pipe 735 at the other side of the primary material molecular separator 739;
A first material molecular reservoir 8000 is formed at one side of the siphon uprising pipe 735 in the form of an enclosure capable of opening and closing;
The first material molecular reservoir (8000) is provided with a movable wheel-shaped elastic body (736) at four lower ends thereof;
A structure for constituting a vibration vibrator 737 for generating vibration at the lower end of the first material molecular reservoir 8000;
An
A connection pipe 758 for introducing the backside of the
An air diffuser 757 for injecting the air supplied from the
A structure for constituting a fluid material
Injecting a contaminated substance (732) into the first material molecular reservoir (8000) configured as described above;
Continuously injecting water or seawater into the interior of the first material molecule reservoir 8000 and the interior of the fluid
The
Continuously injecting air into the fluid material separator (7000) using a gas injection pump (720) coupled to the fluid material separator (7000);
Through the process as described above, the fluid material molecules such as water or seawater that have passed through the siphon riser pipe 735 formed at the lower end of the first material molecular reservoir 8000 are separated from the first material molecular sieve 739 ) To the primary material molecular sieve 739 through the first material molecular reservoir 8000 by adjusting the primary emission control valve 756 coupled to the primary material molecular sieve 739 to a concentration of 0.01 wt% % ~ 10wt% is discharged through a first discharge pipe 750 and then collected separately for use or collecting and reused or re-introduced into a first material molecular reservoir 8000 to perform reprocessing, 90% by weight to 99.99% by weight of the remaining fluidic substance molecules introduced into the column 739 are transferred to the inside of the fluidic substance
0.01wt% to 10wt of a fluidic substance molecule having a specific gravity relative to the total amount of the fluidic substance influx introduced into the primary substance molecular separation column 739 through the fluidic substance molecule inlet pipe 738 is 100wt% The upper end of the molecular separator (7000)
And the remaining 90 wt% to 99.99 wt% of the
[Tenth Embodiment]
The tenth embodiment of the present invention is configured as follows.
Diluting 50 wt% to 95 wt% of salt with 5 wt% to 50 wt% of water to prepare a liquid brine;
The second
[Eleventh Embodiment]
The following will describe the twelfth claim constructed according to the eleventh embodiment of the present invention
31 is a cross-sectional perspective view of a fluid material separator constructed in accordance with an eleventh embodiment of the present invention as follows.
The
A fluid material
A structure in which a
A structure in which an
A
A
At one lower end of the
A structure in which an
The
A structure in which a discharge control valve 715 for controlling the discharge amount is coupled to one side of the upper side of the
A structure in which a surplus material
A structure in which a
A structure in which a rotary shaft 921 is coupled between the
A structure in which a fixed
A structure in which the fixed
The rotary shaft 921 is provided with a plurality of
A structure in which a
A structure in which a plurality of
As described above, the
Fresh air or contaminated air is continuously injected into the fluid
The fluidic substance molecules flowing into the fluidic
Fluid material molecules such as water are continuously introduced at a high pressure through a fluid
Which is coupled to the low-
0.1 WT% ~ 30 WT%, which can not be discharged through the ascending siphon
The environmentally friendly eco-friendly method of collecting and reusing or re-processing after discharging through a surplus material
[Twelfth Embodiment]
Next, a description will be given of the thirteenth aspect constructed in accordance with the twelfth embodiment of the present invention.
32 is a cross-sectional perspective view of a fluid material separator constructed in accordance with a twelfth embodiment of the present invention.
The
A fluid material
A structure in which a
A
A
At one lower end of the
A structure in which an
The
A structure in which a
A structure in which a surplus material
A fluid material
The fluidic material
The fluidic
The inlet port of the second surplus material
A plurality of
The
The rotating plate 907 is formed in a diagonal or lagged shape rather than in a straight line direction to exert an effect of hitting the fluid material molecules and the gaseous material molecules flowing into the fluid
The diagonal
An ultrasonic hitting unit 986 coupled with a shock absorber for absorbing an impact is coupled to a
As described above, the
Fresh air or contaminated air is continuously injected into the fluid
The fluidic substance molecules flowing into the fluidic
Fluid material molecules such as water are continuously introduced at a high pressure through a fluid
The
[Thirteenth Embodiment]
The following will describe the fourteenth embodiment constructed in accordance with the thirteenth embodiment of the present invention.
33 is a cross-sectional perspective view of a fluid material separator constructed in accordance with a thirteenth embodiment of the present invention.
The fluidic material
A fluid material
A structure in which a
A
A
At one lower end of the
A structure in which an
The
A structure in which a discharge
In the middle of the
At the lower end of the fluid material
A structure in which each of the
A plurality of molecular material discharge ports 937, 939, 941 and 943 are provided at one side of each of the
A structure in which
A rotating shaft 956 coupled with a rotating body 951 such as a motor is provided between each of the
The
The diagonal inclination
As described above, the vertical vibrating
Fresh air or contaminated air is continuously injected into the fluid
Fluid material molecules such as water are continuously introduced at a high pressure through a fluid
The
[Fourteenth Embodiment]
The following describes the fifteenth aspect constructed in accordance with the fourteenth embodiment of the present invention
34 is a cross-sectional perspective view showing a cross section of a fluid material separator constructed in accordance with the fourteenth embodiment of the present invention.
The fluidic substance molecular separator 9800 having a height of about 5 m to 100 m is formed on the upper part of the four pairs of rotating
The structure of the fluidic material molecular separator in the form of an enclosure can be varied by a person skilled in the art, and it is natural that all of these structural changes belong to the scope of the present invention
A fluidic substance
A structure in which a
A
A
At one lower end of the
A structure in which an
The fluid material separator 9800 is provided at the lower end of the fluid material separator 9800 with a low-layer water withdrawal port (hereinafter, referred to as " fluid material separator 9800 " 901) is provided in combination with the lifting siphon suction pipe (902);
A structure in which a discharge
A structure in which a
(The electrolytic apparatus can be changed and configured in a wide variety of ways, so that the detailed structure is omitted and only the relationship with the electrode is shown)
A structure in which a
The structure of the surface structure of the polygonal
A structure in which a surplus material
As described above, the vertical vibrating
Fresh air or contaminated air is continuously injected into the fluid material molecule separator 9800 using the
Fluid material molecules such as water are continuously introduced at a high pressure through a fluid
Electric power is supplied to the
The
The low
[Example 15]
The following is a description of Claim 16 constructed in accordance with the fifteenth embodiment of the present invention
35 is a cross-sectional perspective view showing a cross section of a fluid material separator constructed in accordance with an embodiment 15 of the present invention.
The structure of the
The reason for configuring the
A structure of the fluid
A structure in which a
A structure of a plurality of
The total height length of the
The fluidic material
A fluid material
A structure in which a
A structure in which the left and right direction vibrator 826 coupled with the transverse support 825 is formed at the upper end of the
A structure in which a
A
A
At one lower end of the
A structure in which an
The
A structure in which a
A structure in which a surplus material
A structure in which a plurality of
A
The
The rotary friction rod 823 has a structure in which the rotary protrusion is formed in a spiral screw shape;
A mounting structure of the front and
A
At one lower end of the
A structure in which an
As described above, the vertical vibrating
Fresh air or contaminated air is continuously injected into the fluid
The fluidic substance molecules flowing into the
The fluidic substance molecules flowing into the fluidic material
Fluid material molecules such as water are continuously introduced at a high pressure through the fluid
The fluid material molecules and the gaseous substances introduced into the
The low-
0.1 WT% to 30 WT% which can not be discharged through the ascending
The environmentally friendly eco-friendly method of collecting, reusing, or reworking after discharging through a surplus material
Suggest
[Sixteenth Embodiment]
The following describes the seventeenth aspect constructed in accordance with the sixteenth embodiment of the present invention
36 is a cross-sectional perspective view showing a cross section of a fluid material separator constructed in accordance with the sixteenth embodiment of the present invention.
The structure of the
The fluid material molecules or the gaseous material molecules flowing into the
A structure of a top
The reason for constructing the upper rotating
A structure in which a friction-causing
A structure in which a frictional
The ratio of the length of the upper end rotating
The
A fluid material
A structure in which a
A
A
At one lower end of the
A structure in which an
At the other end of the lower end of the
A structure in which a
A structure in which a surplus material
A structure in which a plurality of
A
The
A structure in which the rod 823 is coupled;
The rotary friction rod 823 has a structure in which the rotary protrusion is formed in a spiral screw shape;
A structure in which a high-
A
A structure that is configured to exert an action of bringing a magnetic force into contact with the fluid material molecules and the gaseous material molecules flowing into the inside of the
A
At one lower end of the
A structure in which an
As described above, the vertical vibrating
Fresh air or contaminated air is continuously injected into the fluid
The fluid material molecules flowing into the
Fluid material molecules such as water are continuously introduced at a high pressure through the fluid material inlet pipe 716, so that the pollutant molecules having a specific gravity, which are combined with the fluid material molecules and the gaseous substance molecules, Magnetic substances are separated and the magnetic force is inputted to the magnet rod 840 and the + magnet bar 839 to separate the metallic substances contained in the fluid substance molecules and the gaseous substance molecules, and at the same time, the lower end enclosure 838 The fluid material molecules and the gaseous material molecules flowing into the fluid material molecule separator 20000 are blown by using the rotating body 821, the rotating friction plate 836 and the rotating friction rod 823 A fluid material molecule with a small specific gravity and a fluid material molecule with a large specific gravity are finely pulverized at the same time as the mixer compartment, and the gravity action, the gravity acceleration action, the specific gravity and the mass difference The mass of the substance that is in contact with the mass and the specific gravity while colliding with the material collision action, the material friction action, and the material explosion action When the molecules are naturally separated into the upper layer and the lower layer, 70WT% ~ 99.99WT% of the fluidic substance molecules having a heavy specific gravity moving to the lower end of the fluid material separator (20000) due to the action of gravitational acceleration and gravity and the difference of specific gravity and mass The lower layer water intake port 936 formed at the lower end of one side of the fluid material molecule separator 20000 and the discharge control valve 931 coupled to the upper siphon suction pipe 930 are controlled and discharged and then the specific gravity, 0.1 WT% to 30 WT%, which can not be discharged through the ascending cyclone suction pipe 930 due to the difference of the constituent components of the fluid material separator 20000, Collected after discharged through the air excess molecular material discharge pipe 927, which will be presented to the fluid material to be applied to the molecular separator eco-friendly method with this nature-friendly for processing or re-use material.
The shape of the top rotating
The method of constructing the upper rotating
It is possible to use a method in which the springs are wound in a conventional manner, and the interval between the projections can be enlarged or narrowed, and the angle of the projections can be changed in various ways.
In addition, the shape of the rotary projection type rotary body 999 may be a type of a striking rod, a fan blades type, or an irregular projection in the form of a worm wheel type, a turbo compression type, or a rotary screw type, May be configured to apply a blow or mixer to the fluid material molecules or the gaseous material molecules flowing into the lower end container, so that all of these design changes belong to the scope of the present invention
The shape of the rotation protrusion can be formed by a coiled spring, and the elbow, which is a pipe structure, can be constructed continuously. It is to be understood that all such modifications are within the scope of the present invention.
[Seventeenth Embodiment]
The following will describe the eighteenth embodiment constructed in accordance with the seventeenth embodiment of the present invention.
38 is a cross-sectional perspective view showing a cross section of a fluid material separator constructed in accordance with the seventeenth embodiment of the present invention.
A structure of the lower end enclosure 510 having a lower end portion in the shape of an armature and an upper end in the form of a lower end portion of the upper arm;
A structure constituting a
A structure of an upper end housing 508 having an upper end and a lower end formed in a shape of an upper and a lower end, respectively, at an upper portion of the
A structure in which a material friction action and an
The structure in which the
The
The ratio of the length of the
The lower end housing 510 is structured on top of four pairs of rotating
A fluid
The fluid material
A structure in which a
The lower end portion of the lower end housing 510 is immersed in a fluid material molecule having a high specific gravity and a specific gravity which is coupled to a fluid material molecule such as blood flowing into the fluid
A
At one lower end of the
The
The
A structure in which a
The upper end of the ascending
A structure in which a surplus material
As described above, the left and right vibration vibrators (505, 506) and the up and down vibration vibrator (707) constituting the fluid material separator (5000) The fluid material molecules having a specific gravity and the fluid material molecules having a large specific gravity are coupled to the fluid material molecules such as blood flowing into the inner space, Nitrogen or oxygen is continuously injected into the
Fluid material with a light weight of a specific gravity and a fluidic material with a high specific gravity are collided by a material collision action, a material friction action and a material explosion action due to the action of gravity and the action of gravity acceleration and the specific gravity and mass, In the case of processing such that the molecules are naturally separated into the upper layer and the lower layer, the gravity acceleration action and gravity action and the gravity action and the specific gravity and mass of the fluid material molecules flowing into the fluid material separator (5000) The fluidic substance molecules 70WT% to 99.99WT% such as blood having a heavy specific gravity moving to the lower end of the fluidic material
The following will describe the nineteenth aspect constructed in accordance with the eighteenth embodiment of the present invention.
39 is a cross-sectional perspective view showing a cross section of a fluid material separator constructed in accordance with an eighteenth embodiment of the present invention.
A structure of the fluidic substance
The composition ratio of the length of the fluidic material
The
A structure in which four pairs of rotating
A fluid material
The fluid material
A structure in which a
The fluidic
A
The
A structure in which a
The siphon
A structure in which a surplus material
A structure in which a detachable blood processor 6002 having a
In the detachable blood processor 6002, a fluid material molecule having a specific gravity and a fluid material molecule having a specific gravity, which are combined with the blood flowing into the inside of the detachable blood processor 6002, The structure of the
A structure in which a material friction action and a shock-generating protrusion /
A structure in which an
In each portion of the detachable blood processor 6002, a fluid material
Introducing nitrogen, oxygen, or hydrogen from the
As described above, the left and right direction vibration vibrators 505 and 506 and the up and down direction vibration vibrator 707 constituting the fluid material separator 6000 are operated to move into the interior of the detachable blood processing apparatus 6002 The blood type fluid machine 6002 vibrates the fluid substance molecules having a specific gravity having a specific gravity and the fluid substance molecules having a specific gravity which are combined with the fluid substance molecules such as blood to be infused, It is possible to prevent the blood from flowing into the detachable blood processing device 6002 by preventing the blood from being corrupted while injecting nitrogen or oxygen into the inside of the detachable blood processor 6002, It is possible to generate a function of separating the substance molecules and the fluidic substance molecules having a high specific gravity and at the same time, The blood type blood pressure monitor 6002 is a blood type blood pressure monitor which can be used to prevent the blood from flowing into the detachable blood type processing apparatus 6002 and to prevent the blood from flowing into the detachable blood type blood pressure monitor 6002, The blood that has been collected from the human body through the fluid material inflow pipe 716 is continuously supplied to the blood at a high pressure under pressure while generating the action of separating the light specific fluid substance molecules and the heavy specific fluid substance molecules, And to process the pollutant molecules with a specific gravity combined with the fluidic substance molecules and the clean substance molecules having a large specific gravity to separate them
Fluid material with a light weight of a specific gravity and a fluidic material with a high specific gravity are collided by a material collision action, a material friction action and a material explosion action due to the action of gravity and the action of gravity acceleration and the specific gravity and mass, The difference between gravity acceleration action and gravity action and specific gravity and mass difference compared to the total amount of fluidic substance molecules flowing into the detachable blood processing apparatus (6002) when the same material molecules are naturally moved to the upper and lower layers 70WT% to 99.99WT% of the fluid substance molecules such as blood having a heavy specific gravity moving to the lower end of the detachable blood processor 6002 are lifted up to the
The shape of the detachable blood processor 6002 can be changed to a very different shape
It is a matter of course that all of the constitutions of the detachable blood processor 6002 configured to form the contaminating blood differently from the shape or shape thereof belong to the scope of the present invention.
Since the method of purifying polluted rainwater or polluted river water or fluid material molecules such as seawater or milk or milk or alcoholic beverage or general fresh water by clean substance molecules is applied at a low cost, The possibilities of industrial use will be very large because of the limitlessness.
Also, the market of the eco-friendly method of the present invention, which functions to purify contaminated blood after collecting blood, will be endless.
In addition, since the polluted fresh water can be purified by clean tap water without the input of chemicals, the environment-friendly environment-friendly method constructed according to the present invention and the market of the fluid material molecule separator applied thereto are endless
200,300,1000,1500: Fluid material molecule separator 1502: Base plate 1513: Back plate
Claims (20)
A fluid material separator having a height of about 5m to 50m so as to exert a gravity action and a gravity acceleration action even more on the basis of a structure constituted on an upper part of a base seat coupled with four pairs of rotating wheels;
A first pump for pumping water and liquid into the interior of the fluid material separator is connected to the liquid inlet at one side of the base seat;
A second pump for pumping air or contaminated soot into the fluid material separator is connected to the air inlet at the other side of the base seat;
A structure of a base frame in the form of a U-shape at the center of the base seat;
A structure of a vibrator configured at a lower end of a base frame;
A structure of a U-shaped coupling band which is configured to be opposed to one side and the other side of the base frame;
A structure of a rear coupling part formed at a front coupling part and a rear part formed at a front part of the C-shaped coupling band;
The structure of the lower air vent formed at the lower portion of the U-shaped coupling band;
The other side of the lower air exhaust port is constituted by a material molecule separation compartment, and a low-layer water intake port connected to the low-level water discharge pipe is placed so that the fluid material molecules having a high specific gravity flowing into the fluid material molecule separator are pumped by the second pump A structure for separating soot and the like from being rotten;
A structure in which an air injection pipe coupling port for injecting air or soot generated in the second pump into the fluid material separator is formed in the lower end portion of the front air injection port of the lower air injection port;
The air injection pipe coupling port is formed with an air injection pipe for injecting air or contaminated soot into the fluid material separator;
And the other end of the air injection pipe is coupled to a second pump formed on the base seat;
A structure in which an upper plate filtration membrane is formed in the form of a long hole at the upper end of the U-
The first upper flange is formed in the form of a plate on the front and rear sides of the upper end of the U-shaped coupling band composed of two pairs, respectively;
A plurality of top plate upper flange first coupling portions are formed in the first upper flange of the upper plate;
An upper second upper flange is formed at the upper end of the first upper flange of the upper plate;
A structure in which an upper outlet is formed in a lance shape at an upper end of the upper second upper flange;
A structure in which an inverted triangular conical spray rod is combined with a fluid material molecule injection pipe in the lower part of the upper discharge port;
The conical ejection rod maintains a small discharge amount of 1WT ~ 20WT% higher than the total influent amount of 100WT% flowing into the fluid material molecule injection pipe, which is a high pressure ejection port for ejecting a plurality of fluid material molecules or gaseous substance molecules, A structure in which the total discharge amount of the high-pressure discharge port is made small so as to be ejected;
Fluid material The lower part of the molecular injection pipe is connected to the first pump on the base seat plate and functions to introduce various liquid material molecules composed of liquid such as water into the fluid material separator together;
A front plate having a U shape is formed on the front portion of the U-
In the lower part of the front plate, a low-level water discharge pipe joining port is formed. In the low-level water discharge pipe joining port, fluid substances having heavy specific gravity moving to the lower end of the fluid material separator are pumped, And a low-layer water discharge pipe configured to discharge the outside of the molecular separator, wherein the position of the low-layer water intake port formed at the lower end of the low-level water discharge pipe is between 3 cm and 25 cm from the upper end of the lower end air-
The end portion of the low-level water intake port is formed in the form of a fan so that air or polluted soot ejected from the lower-end air exhaust port can not be directly introduced into the inlet of the low-level water intake port (not shown in detail)
In the middle part of the low-level water discharge pipe, the fluidic substance molecules having a large specific gravity moving to the lower end of the fluidic substance molecular separator are quantified to preferentially pump and discharge the fluidic substance molecules having a heavy specific weight to the outside of the fluidic substance molecular separator Constituting a working discharge pump;
A plurality of front plate coupling parts are formed between the outer peripheral surfaces of the front plate so as to facilitate coupling with the front coupling parts formed in the C-
A plurality of frictional rod engaging portions are provided between the upper end portion and the lower end portion of the front plate so as to frictionally move the fluidic substance molecules or the gaseous substance molecules to crush or size the particle size;
The friction rod engaging portion includes a plurality of friction rods;
The front plate constructed as described above is combined with the front plate coupling unit and the front plate coupling unit formed in the C-type coupling unit with a bolt or the like to complete the front portion of the fluid material separator;
A plurality of rear plate coupling parts are formed on an outer circumferential surface of a rear plate which is formed in a U-shape on a rear part of the U-shaped coupling band;
A structure in which a plurality of flange coupling holes and a shaft coupling hole are respectively formed between the upper end portion and the lower end portion of the rear plate;
A structure in which each rotary housing coupled with a rotary shaft is combined with a coupling flange so that two bearings (not shown) are inserted and rotated easily;
A structure of a shaft screw and a shaft bolt for coupling and supporting a friction plate at one end of the rotation shaft;
A structure of each coupling flange and the rotary housing, the flange coupling and the shaft coupling being formed on the rear plate being coupled to the rear face of the rear plate by bolts or the like;
A structure of each friction plate coupled to the rotational axis;
The rotating means for rotating the friction plate coupled to the rotating shaft is configured to directly couple the rotating motor to rotate the driving pulley or to connect the driving pulley connected to the rotating motor to the driven pulley by a belt or the like, It is not shown because it is possible to make various changes)
A structure of a plurality of striking grooves formed on the outer circumferential surface of the friction plate;
A structure of a plurality of striking rods formed on a friction plate;
A structure of a friction plate coupled to the rotary shaft by a shaft screw and a shaft bolt formed on each rotary shaft;
A structure of a rear plate constituted by connecting a rear coupling unit constituted by the c-type coupling unit and a rear plate coupling unit constituted by the rear plate and then connecting them with bolts or the like;
The fluid material molecules such as water are continuously introduced into the fluid material molecule separator through the conical ejection rods connected to the fluid material molecule injection pipe in the fluid material molecule separator constructed as described above at a high pressure The friction material is composed of a frictional rod and a backing plate, which are formed on the front plate of the fluid material separator and are formed so as to separate the light pollutant molecules and heavy clean substances, which are combined with the fluid material molecules. The fluid material molecules flowing into the fluid material separator are continuously blown and processed by using the blowing grooves and the fluid material molecules are introduced into the fluid material separator by using a vibrator formed on the base plate The fluidic material molecules are continuously blown and processed and the second pump The fluid material molecules introduced into the fluid material separator are continuously blown and processed by introducing air into the fluid material separator using a high pressure to the inside of the fluid material separator, Through the formed conical ejection rods, fresh water, seawater, alcohol, milk, beverage, or blood is continuously introduced into the fluid material separator, and the fluid material molecule having a light specific gravity and the fluid material molecule having a heavy specific gravity The effect of gravity and the difference in specific gravity and mass compared to the total amount of molecules of fluid material flowing into the fluid material separator when processed to separate naturally by action and material impact action and material friction action and material explosion action, A heavy fluid mass moving to the lower end of the sex material molecular separator 70WT% ~ 99.99WT% of the molecules are discharged to the outside of the fluid material separator by using the low-level water discharge pipe and the discharge pump which are combined with the low-layer water withdrawal port formed at the lower end of the fluid material separator, Due to the difference in mass and specific gravity, the fluid material molecules that are not discharged to the bottom water inlet and emerge at the upper end of the fluid material separator are separated and discharged to the upper outlet port formed at the upper end of the fluid material separation. Which is characterized by the nature-friendly eco-friendly method and the fluidic material molecular separator applied to it, is used for the separation and processing of light-weight substance molecules and heavy-specific fluid substances molecules Environment-friendly eco-friendly method and molecular material separation
When the facilities constituted in the fluid material separator are used to process a fresh food, seawater, or a preferential food such as milk, sake, or beverage, 0.01 WT of the amount of 100 WT% % ~ 10WT% is configured such that the size of the low-level water discharge pipe is smaller than the size of the fluid material molecule injection pipe by 0.01% to 10% so as to be discharged to the upper discharge port formed on the other side of the upper part of the fluid material separator Water discharge pipe due to the structural characteristic of the fluidic substance molecular separator which is configured to have a smaller amount of discharge than the inflow amount, and is discharged to the upper end of the fluidic substance molecular separator due to the action of gravity, The fluidic material molecules having a specific gravity are arranged at the upper end of the fluidic material molecular separator In addition, the lower part of the fluid material separator is separated from the upper outlet, and fluid substances having heavy specific gravity due to gravity action and difference in mass and specific gravity are mixed with the lower layer water discharge pipe Friendly method of eco-friendly method for separating and processing naturally pollutant molecules and clean substance molecules with heavy specific gravity, which are bonded to fluidic substance molecules by discharging them first to the outside of fluid material separator. Which is characterized by a molecular material separator, is separated and processed into a fluid material molecule having a specific gravity and a specific gravity, and a fluid material molecular separator
In the process of processing a fresh food, a seawater, or a favorite food such as milk, sake, or beverage by using the fluid material separator, the fluid material separator composed of the first to the tenth step is continuously installed step by step, Step 10 The fluid material is connected to the fluid outlet of the fluid material separator and the fluid inlet of the fluid material separator of the first to tenth stages, The fluidic substance molecules discharged from the low-level water discharge pipe are transferred to a liquid inlet formed in each of the fluidic substance molecular separators composed of 1 to 10 sites, The fluid material molecules are repeatedly re-injected 1 to 10 times through the conical ejection rod with the re- Is a molecule of liquid material or gaseous substance which is bonded to a molecule of liquid substance or gaseous substance through the process and a substance of light specific substance which is combined with a fluid substance molecule or gaseous substance molecule having a heavy specific gravity And fluidic substance molecules or gaseous substance molecules are separated in stages 1 to 10 by using a fluidic substance molecular separator installed to separate the fluidic substance molecules having a high specific gravity and the fluidic substance molecules or gaseous substance molecules And the fluid material molecule separator is applied to the hydrophilic material molecule, which is a natural-friendly method for separating and processing the light material molecules having a low specific gravity and the fluid material molecules having a high specific gravity combined with the fluid material molecules.
The fluid material separator, which is composed of an enclosure type and has a height of about 5m to 60m so as to exert a gravity action and a gravitational acceleration action even more, has a structure constituted on an upper part of a base seat coupled with four pairs of rotating wheels;
A vibrator is configured at a central lower portion of the fluidic material molecular separator;
A lower plate is provided on an upper portion of a lower end of the fluid material separator;
An air diffuser is formed at the upper part of the lower plate;
A structure in which an air vent for diffusing air into the fluid material separator is formed at the upper end of the air diffuser;
An air pump is provided at an upper portion of one side of the fluid material separator;
A structure for supplying air or polluted soot into the fluid material separator by combining the air supply pipe for transferring the air between the air pump and the air diffuser;
At the other side of the fluid material separator, a low-layer water discharge pipe with a low-layer water outlet, which discharges fluid substance molecules having a high specific gravity collected at the lower end of the fluid material separator to the outside of the fluid material separator, ≪ / RTI >
And a fluidic substance molecule injection port for introducing fluidic substance molecules such as water into the fluidic substance molecular separator is coupled to the control valve at one end of the upper end of the fluidic substance molecular separator,
The upper part of the fluid material separator is provided with an upper discharge port for discharging the fluid material molecules having a specific gravity, which is bonded to the fluid material molecules such as water flowing into the fluid material separator, ;
A structure of a rotating shaft composed of a plurality of pipes in the other side and one side of the fluid material separator;
A plurality of rotating shafts) are coupled to one side and the other side of the fluid material separator by being coupled with the rotating shaft housing;
Inside the rotating shaft, there is provided a friction plate coupled with an inlet hole through which fluidic substance molecules such as air or water are introduced, and a diffusion supply port through which fluid molecules such as air or water are diffused and supplied to the end of the rotating shaft ;
A structure in which a jet port for ejecting fluid substances such as air or water and a friction wing are coupled to one end of the friction plate;
The rotating means for rotating the friction plate coupled to the rotating shaft is configured to directly couple the rotating motor to rotate the driving pulley or to connect the driving pulley connected to the rotating motor to the driven pulley by a belt or the like, It is not shown because it is possible to make various changes)
As described above, the fluidic material molecules such as water are continuously introduced into the fluidic material molecular separator through the fluidic material molecule injection port at a high pressure to continuously inject the contaminant molecules having a small specific gravity and heavy specific gravity The fluid material molecules such as air or water are separated from the fluid material separator by a high pressure through the inlet hole and the outlet port, And a friction plate and a friction blade coupled to the rotating shaft to continuously blow the gas or fluid material molecules flowing into the fluid material separator, This light pollutant molecule and heavy specific gravity clean By separating and processing one molecule of material, the fluid material molecules flowing into the fluid material separator are continuously blown and processed by using a vibrator constructed on the base seat, Air is introduced into the molecular sieve separator at a high pressure to continuously blow and process the gas or fluid material molecules flowing into the molecular material separator, and at the same time, Fluid material molecules are injected continuously into the interior of the molecular material separator through fresh water, seawater, alcohol, milk, beverage, or blood, so that liquid matter molecules with a low specific gravity and fluids with high specific gravity molecules can be gravity- Material Collision and Material Friction and Material Explosion In the process of separating, the total amount of molecules of fluid material flowing into the molecular material separator is 100WT%. Due to the action of gravity and the difference of specific gravity and mass, 70WT% ~ 99.99WT% is the effect of gravity and mass when discharging to the outside of fluid material separator by using low water discharge pipe and discharge pump combined with low water withdrawal port which is formed at one side lower part of fluid material separator Which is not discharged to the outside of the fluid material separator through the bottom water intake port due to the difference in specific gravity between the fluid material separator and the fluid material separator, The fluid substances separated and discharged after being separated and discharged to the upper outlet are collected It is a nature-friendly environment-friendly process that uses or recycles materials and fluid materials that are applied to it. Fluid materials that are characterized by molecular separators. Lightweight materials that are combined with molecules. Fluid materials that have heavy specific gravity. Friendly eco-friendly method and a fluid material molecular separator
The fluid material separator, which is composed of a hollow body and has a height of about 5m to 70m so as to exert more action of gravity and gravity acceleration action, is constructed on the upper part of the base seat coupled with four pairs of rotating wheels;
A structure in which a vibrator is housed in a central lower portion of the fluid material separator;
A structure in which a lower plate is formed at the lower end of the fluidic material molecular separator;
In the upper part of the lower plate, a fluid material molecule with a high specific gravity and a fluid material molecule with a light specific gravity are combined with an intermediate plate which separates the fluid material molecules into grains by gravity, mass and specific gravity, Providing a separation chamber;
(Not shown) so that the molecules of the fluid material move freely up and down in the intermediate plate;
The upper part of the middle plate is composed of a filtration membrane that filters light pollutant molecules and heavy hydro-mass molecules combined with fluid material molecules; A detailed description thereof is omitted), a conical spraying rod connected to and connected to a fluidic substance molecule supply pipe for introducing fluidic substance molecules into the fluidic substance molecular separator is provided at one side of the fluidic substance molecular separator Being;
A structure in which a plurality of high-pressure air outlets for injecting high-pressure air into the fluid material separator are coupled to the outer circumferential surface of the lower end of the conical ejection rod;
The fluid material separator is provided at the other side of the molecular separator with a low-layer water discharge pipe, which discharges fluid material molecules having a high specific gravity to the outside of the fluid material separator, A structure in which a low-layer water intake port is coupled to the inner end of the molecular separator;
Fluid material The top outlet on the other side of the molecular separator is a top outlet that discharges fluid molecules with a specific gravity that floats above the fluid material separator due to gravity action and difference in specific gravity and mass difference. ≪ / RTI >
In the fluid material separator having the above configuration, 100 wt% of the total amount of the fluid material molecules such as water is injected at a high pressure through the conical ejection bar formed at one side of the fluid material separator. The fluid material separator is operated at the lower end of the fluid material separator to operate the vibrator to vibrate the fluid material separator, and at the same time, the discharge control valve , It is necessary to control the discharge control valve to discharge only 0.01wt% ~ 10wt% of 100wt% of the total amount of the inflow into the fluid material separator. Re-treatment or separate collection and reuse, and at the same time, the action of gravity and the mass and specific gravity The fluid material molecules of 90 wt% ~ 99.99 wt%, which are not discharged to the upper outlet due to the difference of the mass and collected in the material molecule separation compartment, use the action of gravity to absorb the fluid material separator coupled low- Fluid material that is configured to be reused or reprocessed by automatically discharging it to the outside of the fluid material separator by using a pipe is used. It is a natural environment friendly process to separate and process hydrodynamic molecules and a fluid material molecule that is characterized by a fluid material molecule separator applied to it. It separates a light specific substance molecule and a heavy specific fluid substance molecule Environment-friendly eco-friendly process to process and fluid materials Here breakers
The fluid material separator is composed of a circular shape and has a height of about 5m to 80m so that the action of gravity and the action of gravitational acceleration can be further enhanced.
A structure formed on an upper portion of a rectangular base plate;
The fluid material separator is provided at one side of the fluid separator with a conical discharge rod connected to and connected to a fluid material supply pipe for introducing the fluid material molecules into the fluid material separator;
A structure in which a plurality of high-pressure air outlets for injecting high-pressure air into the fluid material separator are coupled to the outer circumferential surface of the lower end of the conical ejection rod;
In the upper part of the fluidic substance molecular sieve separator, an upper discharge port for discharging the fluidic substance molecules having a specific gravity floating to the upper part of the fluidic substance molecular separator due to the action of gravity and the difference in specific gravity and mass, Is configured to be coupled with the emission control valve;
Fluid material The other part of the lower part of the molecular separator discharges the fluid material molecules collected at the lower part of the fluid material separator to the outside of the fluid material separator due to the action of gravity and the difference in mass and specific gravity. The pipe is combined in the form of an ∩ character;
A structure in which a low-layer water discharge pipe and a low-layer water discharge pipe are connected to the inner end of the fluid material separator;
The other end of the base plate is connected to a reservoir tank coupled with a low-layer water discharge pipe;
One end of the reservoir tank is coupled to a lower high pressure pump;
The lower high-pressure pump temporarily stores fluid molecules such as water supplied from the low-level water discharge pipe, and simultaneously controls the first lower discharge control valve that controls the amount of discharged fluid substances, A lower first discharge pipe connected to the lower first discharge pipe;
And an end of the lower first discharge pipe is connected to a fluid material molecule supply pipe constituted on the upper part of another fluid material molecular separator formed step by step;
At the other end of the reservoir tank, fluid materials with heavy specific gravity, which pass through the fluid material separator installed step by step, are supplied from the bottom water discharge pipe and stored in the reservoir tank. A second lower discharge pipe for discharging the molecules to the outside, and a second discharge control valve connected to the second lower discharge pipe;
After the fluidic material molecular separator constructed as described above is connected to the first to the 10th steps, the lower first discharge pipe formed at the lower end of the second fluid material molecule separator is disposed at the upper end of the fluid material separator The fluid material separator is connected to the fluid material supply pipe of the first stage, and then the fluid material separator of the first stage is connected to the fluid material separator, And the first bottom discharge rate control valve coupled to the first bottom discharge pipe formed at the lower end of the fluidic material molecular separator is controlled so that the total amount of the fluidic substance influx into the first-stage fluidic material separator is 100 wt% And 90% by weight to 99.99% by weight of the fluid material is discharged to the first lower discharge pipe, The fluid material is supplied to the molecular material supply pipe formed at the upper end of the separator, and then, through the circular discharge rod and the high pressure discharge port coupled with the material molecule supply pipe, A continuous process of feeding and spraying material molecules is performed
The liquid material having a specific gravity floating at the upper end of the fluid material separator, which can not move to the lower end of the fluid material separator of step 2 to step 10 installed due to the action of gravity and the difference in specific gravity and mass, 0.01wt% ~ 10wt% of the molecules are discharged to the upper discharge port formed at the upper end of each fluid material separator, collected, treated, collected and reused, and a fluid material molecular separator It is a nature-friendly eco-friendly method for separating light-weight material molecules and heavy-specific fluidic material molecules combined with fluidic material molecules,
The fluidic material molecular separator has a body shape of a rectangular enclosure shape to process a fluid material molecule, and it is combined with a fluid material molecule characterized by a nature-friendly eco- Which is a natural substance that separates and processes the light material molecules and the heavier fluid material molecules, and the fluid material molecular separator
A structure of a fluidic substance molecular separator composed of an enclosure shape and having a height of about 5m to 90m so as to exert a gravitational action and a gravitational acceleration action even more;
A vibrating vibrator is configured at the lower central portion of the fluid material separator;
A lower plate is provided on an upper portion of a lower end of the fluid material separator;
An air diffuser is formed at the upper part of the lower plate;
A gas injection pump is provided at an upper portion of one side of the fluid material separator;
A structure in which fresh air introduced from the outside or contaminated air or an air inlet for injecting contaminated soot into the gas air pump is provided at one side of the gas injection pump;
A structure in which fresh air or polluted soot is supplied into the fluid material separator by combining an air supply pipe for transferring air between the gas injection pump and the air diffuser;
On the other side of the fluid material separator, there is a low water intake pipe which discharges the fluid material molecules having a high specific gravity collected to the lower end of the fluid material separator to the outside of the fluid material separator, ;
A structure for forming a second fluid material molecule separation tube in the form of an enclosure at the upper part of the ascending cyphon suction pipe;
A second discharge pipe connected to the second discharge control valve at an upper portion of the second fluid material separator to discharge molecules of liquid material having a specific gravity to the outside;
A second fluid material separator having a siphon downflow pipe coupled to a discharge control valve at one side of the molecular sieve,
A fluid material inlet pipe for introducing fluid material molecules such as water into the fluid material separator is coupled to the control valve at one end of the upper end of the fluid material separator;
A structure in which a fluid material molecule diffusion hole is formed at an end of a fluid material inlet pipe;
At the other side of the upper part of the fluidic substance molecular separator, there is provided an upper part for discharging the fluidic substance molecules having a specific gravity, which is bonded to the fluidic substance molecules such as water, flowing into the fluidic substance molecular separator, A structure comprising an outlet;
On the upper side of the upper discharge port, the fluidic component in the liquid phase is injected to the fluidic foam components floating above the fluidic substance molecular separator, because it can not move to the lower side of the fluidic substance molecular separator due to the action of gravity and difference in specific gravity and mass. A structure for constituting a liquid-jet opening which exerts a function of deforming a bubble component into a liquid;
A structure in which a plurality of forward rotation fixed striking rods are formed in a spiral shape so as to exhibit a material collision action and a material friction action to collide the fluid material molecules by rotating the molecules of the fluid material,
A structure for constructing a rotating striking plate coupled to a plurality of rotating bodies on the other side of the inner side of the fluid material separator;
The rotating striking plate has a structure that combines a plurality of rotating striking rods in a helical shape so as to exhibit a material collision action and a material friction action to collide the fluid material molecules by rotating them.
(The rotating structure that rotates the striking plate is not shown in detail because it can be configured in various ways by using a driving gear or a driving poly which is coupled with a rotating means such as a motor.
As described above, the vibrating vibrator constructed in the fluid material separator is operated to vibrate the fluid material separator, and at the same time, fresh air or contaminated air is introduced into the fluid material separator by using the gas injection pump The fluid material molecules such as water are continuously introduced at a high pressure through the fluid material inlet pipe formed at the upper part of the fluid material separator and the specific gravity of the fluid material molecules And a plurality of rotating striking plates are rotated on the fluid material separator to separate the gas or fluid substance molecules flowing into the fluid material separator, while simultaneously processing the light pollutant molecules and the clean substance molecules having a large specific gravity, Continuous striking with rotating fixed striking rod and counter rotating striking rod A fluid material with a small specific gravity and a fluid material with a large specific gravity are collided by the action of gravity, the gravity and the mass, The mass of molecules of liquid material flowing into the molecular material separator when it is processed so as to separate the molecules naturally from each other, and the mass of heavy molecules moving to the lower end of the molecular material separator due to the difference of specific gravity and mass, 70WT% ~ 99.99WT% of the substance substance molecule is discharged through the ascending siphon suction pipe and the secondary fluid substance molecular separation passage through the descending pipe of the siphon combined with the low-level water intake port formed at the lower end of the fluidic substance molecular separator Adjust the discharge control valve, which is connected to the siphon descending pipe, 0.1 WT% ~ 30 WT% of the fluidic substance molecules, which can not be discharged through the siphon descending pipe due to the difference of mass and gravity, are discharged through the upper outlet formed at the upper part of the other side of the fluid material separator The method of separating and processing fluid material molecules with heavy specific gravity and heavy specific gravity, which are combined with fluid material molecules, characterized by a nature-friendly environment-friendly method of collecting, reusing or reworking, Which is applied to the environmentally-friendly eco-friendly method and the fluid material separator
A horizontal discharge inducing pipe for discharging the fluid material molecules having a high specific gravity to the outside of the fluid material separator, which is combined with the low-layer water intake port formed in the fluid material separator, is inclined in the transverse direction, The fluid substance molecules having a high specific gravity push the fluid substance molecules having a low specific gravity by the action of gravity, and the fluid substances A structure for constituting a siphon pipe for inducing the ascending fluid material molecules in a one-letter form so as to easily move to the outside of the material molecule separator;
A structure for constituting a molecular fluid separating column of a second fluid material on the upper part of the hydroponic molecular induction inducing siphon pipe;
Second Fluid Material Molecule Separating the fluidic material molecule with a heavy specific gravity on the upper part of the separating cylinder, due to the action of gravity and the difference between specific gravity and mass, A second discharge port for discharging the second discharge control valve;
And a ciphone downfalling discharge pipe for discharging the fluidic substance having a high specific gravity to the outside of the fluid material separator, And a discharge amount control valve.
As described above, the vibrating vibrator constructed in the fluid material separator is operated to vibrate the fluid material separator
The gas injection pump continuously injects fresh air or contaminated air into the fluid material separator
Fluid Material Molecule Separator The Fluid Molecule Molecule Separator is made up of a fluidic substance molecule inlet pipe that continuously injects fluid substance molecules such as water at a high pressure, The fluid substance molecules separator is rotated to rotate the plurality of rotating impact plates to move the gas or fluid substance molecules flowing into the fluid substance molecule separator to the forward rotation fixed bar and the reverse rotation bar Fluid material molecules with heavy specific gravity and fluid material molecules with heavy specific gravity are struck successively by rotary striking rod and collide due to action of gravity, difference of specific gravity and mass due to material collision, material friction and material explosion Processed so that material molecules with similar mass and specific gravity are separated naturally Fluid materials Fluid material molecules entering the molecular separator Total mass of molecules Moving to the bottom of the fluid material separator due to gravity action and difference of specific gravity and mass compared to 100WT% Fluid material with high specific gravity 70WT% ~ 99.99 WT% controls the discharge control valve associated with the siphon downflow pipe and is connected to the horizontal discharge induction pipe combined with the low-level water withdrawal port at the lower end of the fluid material separator
Fluid material Molecular Ascension Siphon Pipe and Siphon Drain Pipe, and then discharged through the siphon descending pipe due to difference of specific gravity, mass and gravity. ~ 30WT% is discharged through the upper discharge port formed on the other side of the fluidic substance molecular separator, collected and reused or reworked, and a fluid characterized by a fluid material molecule separator applied thereto Friendly environment-friendly method of separating light-weight substance molecules and heavy-specific fluid substance molecules combined with sex-substance molecules and a fluid-state substance molecular separator
A structure coupled with four pairs of rotating wheels coupled with a base seat;
A structure in which a fluidic substance molecular separator is formed in the form of a rectangular enclosure at the upper part of the base seat plate;
A vibrating vibrator is configured at the lower central portion of the fluid material separator;
A lower plate is provided on an upper portion of a lower end of the fluid material separator;
An air diffuser is formed at the upper part of the lower plate;
A gas injection pump is provided at an upper portion of one side of the fluid material separator;
A structure in which fresh air introduced from the outside or contaminated air or an air inlet for injecting contaminated soot into the gas air pump is provided at one side of the gas injection pump;
A structure in which fresh air or polluted soot is supplied into the fluid material separator by combining an air supply pipe for transferring air between the gas injection pump and the air diffuser;
At the other side of the fluid material separator, there is a low-layer water intake pipe which discharges fluid material molecules having a large specific gravity collected at the lower end of the fluid material separator to the outside of the fluid material separator, The pipe is constructed in the form of an ∩ character;
The upper portion of the rising siphon suction pipe is provided with a discharge control valve for controlling the discharge amount;
The upper part of the fluid material separator has an upper discharge port connected to the discharge control valve for discharging the fluid substance molecules and the gaseous substance molecules having a specific gravity.
The fluid material separator is provided at the other side of the upper end with a fluid material inlet pipe for introducing fluid material molecules such as water into the fluid material separator,
Fluid material Molecule inlet In the upper part of the pipe, a first material molecule separation column for collecting liquid material molecules and gaseous material molecules having a low specific gravity is formed. Then, one side of the first material molecule separation column is provided with liquid material molecules The primary exhaust pipe for discharging is combined with the primary discharge control valve, and at the same time,
A structure for constructing a lifting pipe for the siphon on the other side of the primary material molecular separation column;
Forming a first material molecular reservoir in the form of an enclosure capable of opening and closing at one side of the lifting pipe of the cyphon;
Wherein the first material molecular reservoir is provided with a movable wheel-shaped elastic body at four lower sides of the first material molecular reservoir;
A structure that constitutes a vibrating vibrator that generates vibration at a lower end of the first material molecular reservoir;
An injection pump is configured on the other side of the first material molecule reservoir;
A connection pipe for introducing the backside of the infusion pump and the air or contaminated soot floating above the first material molecular reservoir back into the interior of the first material molecule reservoir;
An air diffusion port for injecting air supplied from the injection pump is formed at the bottom of the lower portion of the first material molecular reservoir,
A structure for constructing a fluid material molecule injection pipe for supplying fluid material molecules such as water into the first material molecule reservoir at the other side of the first material molecule reservoir;
Injecting a contaminated substance into the first material molecular reservoir constituted as described above;
Continuously injecting water or sea water into the interior of the first material molecule reservoir and the interior of the fluid material molecule separator;
The fluid material separator and the vibrating vibrator constructed in the first material molecular reservoir continuously operate to vibrate the water, seawater, or contaminants entering the fluid material separator, Continuously vibrating the contaminants and water or seawater loaded in the vessel;
Continuously injecting air into the fluid material separator using a gas injection pump coupled to the fluid material separator;
Through the above-described processing, the fluid material molecules such as water or seawater passing through the lifting pipe of the siphon constituted at the lower end of the first material molecular reservoir are separated into the primary emission control valve To the first material molecular reservoir through the first material molecular reservoir by controlling the amount of the fluid material introduced into the first material molecular reservoir through the first discharge pipe, And then re-introduced into the first material molecular reservoir and reworked, and at the same time, 90 wt% ~ 99.99 wt% of the remaining fluid material molecules introduced into the first material molecular separator are discharged through the first emission control pump and the fluid material The process of transferring the material to the inside of the fluid material separator using a pipe is performed, and at the same time, Combined fluid material Fluid material entering through molecular inlet pipe Fluid material with a small specific gravity relative to total amount of 100wt% 0.01wt% ~ 10wt is discharged through the top outlet formed at the upper part of the fluid material separator And the remaining 90wt% ~ 99.99wt% is discharged through a low-layer water intake port and a rising water suction pipe and a siphon down discharge pipe which are formed at one side of the lower end of the fluid material separator, By regulating the valve, it is possible to separate and extract light-weight fluidic substance molecules combined with heavy-specific fluidic substance molecules, and then reuse the fluidic substance molecules having light specific gravity and light- Friendly eco-friendly process to be processed, and a fluid material separator Which is characterized in that the fluid material molecules are separated from the fluid material molecules, and the fluid material molecules separator
Diluting 50 wt% to 95 wt% of salt with 5 wt% to 50 wt% of water to prepare a liquid brine;
The fluid material separator, the fluid material separator, and the second bottom discharge pipe or the siphon down discharge pipe or the siphon down discharge pipe or the siphon down discharge pipe, And discharging 90 wt% ~ 99.99 wt% of the total amount of the liquid brine flowing into the fluid material separator through the low-level water discharging pipe, collecting and reusing the same, 0.01wt% to 10wt% of the fluidic substance molecules which can not be discharged through the second bottom discharge pipe, the siphon down discharge pipe, the siphon down discharge pipe or the bottom discharge pipe, The upper outlet port formed at the upper end of the separator This is a natural eco-friendly method for separating and processing liquid material molecules with a low specific gravity and heavy material molecules, which are combined with fluid material molecules, which are collected, reused or reprocessed after discharge. Sexual substance molecular separator
The fluid material separator 2000, which is composed of a hollow body and has a height of about 5m to 30m so that the molecules of the fluid material can exert a gravitational action and a gravitational acceleration action more greatly, is provided on the upper part of the four pairs of rotating wheels 703 The structure being constructed;
A fluid material molecule inlet pipe 716 for injecting water, liquid, or the like into the fluid material separator 2000 is provided on one side of the fluid material separator 2000;
A structure in which a control valve 916 for controlling the inflow amount is coupled to the middle of the fluid material inflow pipe 716;
A structure in which an ultrasonic vibrator 980 coupled with a vibration absorbing rubber pad 981 is coupled to an intermediate side of the fluid material inflow pipe 716;
A vertical vibration vibrator 707 is formed at the center lower end of the fluid material molecule separator 2000;
A gas injection pump 917 is provided at a lower portion of one side of the fluid material separator 2000;
At one lower end of the gas injection pump 917, an air diffuser 918 is formed;
A structure in which an air inlet 728 for injecting fresh air or polluted air or contaminated soot flowing into the gas air pump 917 from the outside is provided at one side of the gas injection pump 917;
The fluid material separator 2000 is provided at the other side of the fluid material separator 2000 with a low-layer water withdrawal port 991 for discharging fluid substances having a high specific gravity to the outside of the fluid material separator 2000 ) Is coupled with the lifting phyton suction pipe (928) in a spiral shape;
A structure in which a discharge control valve 715 for controlling the discharge amount is coupled to one side of the upper side of the upsiphone suction pipe 928;
A structure in which a surplus material molecule discharge pipe 927 for discharging liquid material molecules having a light specific gravity to the outside is coupled to the other side of the fluid material separator 2000;
A structure in which a rotating shaft 992 is provided at the center lower end of the fluid material separator 2000 and a rotating body 920 is formed at the upper end;
A structure in which a rotary shaft 921 is coupled between the rotary shaft support 992 and the rotary body 920;
A structure in which a fixed friction plate 925 constituting a plurality of fluid movement grooves 926 in an unspecified form is formed in the middle of the fluid material molecule separator 2000;
A structure in which the fixed friction plate 925 is provided with the uneven groove 996 functioning to increase the frictional force;
The rotary shaft 921 is provided with a plurality of rotary friction plates 922 between the fixed friction plates 925;
A structure in which a rotating friction plate 922 is provided with a recessed groove 995 functioning to increase frictional force;
A structure in which a plurality of fluid transfer grooves 923 are formed in the rotary friction plate 922 in an unspecified form;
As described above, the vertical vibration vibrator 707 constituted in the fluid material molecule separator 2000 is operated to vibrate the fluid material molecule separator 2000
Fresh air or contaminated air is continuously injected into the fluid material molecule separator 2000 using the gas injection pump 917
The fluidic substance molecules flowing into the fluidic material molecule separator 2000 are blown and processed by using the ultrasonic vibrator 980 formed at the upper part of the fluidic material molecule separator 2000
Fluid material molecules such as water are continuously introduced at a high pressure through a fluid material inlet pipe 716 so as to separate contaminant molecules having a low specific gravity and clean substance molecules having a large specific gravity, The rotating body 920 such as a motor configured at the upper portion of the fluid material separator 2000 is continuously rotated to rotate the rotating body 920 and the fixed friction plate 925 The fluid material molecules and the gaseous material molecules introduced into the fluid material separator 2000 are mixed and pulverized by using the friction plate 922 to form fluid material molecules having a specific gravity and heavy fluid material molecules Due to the effect of gravity and gravitational acceleration and the difference of specific gravity and mass, (2000), the total amount of molecules of fluid material flowing into the molecular material separator (2000) is 100WT% compared to the total amount of 100WT%. Therefore, due to the action of gravity and the difference between specific gravity and mass, The fluidic material molecules 70WT% to 99.99WT% having a high specific gravity moving to the lower end of the molecular sieve separator 2000 are arranged at the lower end of one side of the molecular material separator 2000
Which is coupled to the low-layer water intake 991 and the lifting cyphon suction pipe 928
0.1 WT% ~ 30 WT%, which can not be discharged through the ascending siphon suction pipe 928 due to the difference in specific gravity, mass and gravity after the discharge amount control valve 715 is regulated and discharged
The environmentally friendly eco-friendly method of collecting and reusing or re-processing after discharging through a surplus material molecular discharge pipe 927 formed on the other side of the fluidic material molecular separator 2000,
The fluid material separator 9000, which is composed of a hollow body and has a height of about 5m to 60m so that the molecules of the fluid material can exert a gravitational action and a gravitational acceleration action more effectively, The structure being constructed;
A fluid material molecule inlet pipe 716 for injecting water and liquid into the fluid material separator 9000 is provided on one side of the fluid material separator 9000;
A structure in which a control valve 916 for controlling the inflow amount is coupled to the middle of the fluid material inflow pipe 716;
A vertical vibration vibrator 707 is formed at the center lower end of the fluid material molecule separator 9000;
A gas injection pump 917 is provided at a lower portion of one side of the fluid material molecule separator 9000;
At one lower end of the gas injection pump 917, an air diffuser 918 is formed;
A structure in which an air inlet 728 for injecting fresh air or polluted air or contaminated soot flowing into the gas air pump 917 from the outside is provided at one side of the gas injection pump 917;
The fluid material separator 9000 is provided at the other side thereof with a low water withdrawal port 901 for discharging fluid material molecules having a high specific gravity collected at the lower end of the fluid material separator 9000 to the outside of the fluid material separator 9000 ) Is provided in combination with the lifting siphon suction pipe (902);
A structure in which a discharge control valve 903 for controlling the discharge amount is coupled to the white support shaft 905 at one side of the lower end of the ascending cyclone suction pipe 902;
A structure in which a surplus material molecule discharge pipe 910 for discharging fluid material molecules having a light specific gravity to the outside is coupled to the other side of the fluid material separator 9000;
A fluid material molecular reservoir 911 is provided at the lower end of the surplus material molecular discharge pipe 910 to transform the fluid material molecules having specific gravity discharged in the form of bubbles into fluid material molecules having a high specific gravity;
The fluidic material molecular reservoir 911 serves to transform the lightweight fluidic material molecules, which are contained in the seawater or the general fresh water 913, into the foamed fluidic material, and convert the molecules into fluidic mass molecules having a high specific gravity;
The fluidic substance storage container 911 is provided at the other side of the upper side thereof with a fluidic substance material reservoir 911 for discharging the fluidic substance molecules which have become heavy fluidic substance molecules in a state of being foamed into the fluidic substance molecular reservoir 911 2 surplus material molecular discharge pipe 912 is provided;
The inlet port of the second surplus material molecular discharge pipe 912 is connected to the fluid material reservoir 911 by the action of gravity so as to exert the action of preferentially discharging heavy specific molecules of fluid material moving to the lower end of the molecular material reservoir 911, To be positioned at the lower end portion of the molecular reservoir 911;
A plurality of rotation shafts 985 coupled with the rotating body 906 such as a motor are provided in the middle of the fluid material separator 9000;
The rotary shaft 985 is provided with a rotary plate 907;
The rotating plate 907 is formed in a diagonal or lagged shape rather than in a straight line direction to exert an effect of hitting the fluid material molecules and the gaseous material molecules flowing into the fluid material molecule separator 9000 in an unspecified direction A plurality of diagonal striking rods 908 constituting the diaphragm 908;
The diagonal striking rod 908 has a structure in which a thread for generating a whirlwind is formed;
An ultrasonic hitting unit 986 coupled with a shock absorber for absorbing an impact is coupled to a support shaft 987 to be introduced into the fluid material molecule separator 9000 at a middle portion of the lower end of the fluid material molecule separator 9000 And exerts an action to strike fluid molecules and gaseous molecules;
As described above, the vertical vibration vibrator 707 constituting the fluid material separator 9000 is operated to vibrate the fluid material molecule separator 9000
Fresh air or contaminated air is continuously injected into the fluid material molecule separator 9000 using the gas injection pump 917
The fluidic substance molecules flowing into the fluidic material molecule separator 9000 are blown and processed by using the ultrasonic vibrator 986 formed therein
Fluid material molecules such as water are continuously introduced at a high pressure through a fluid material inlet pipe 716 so as to separate contaminant molecules having a low specific gravity and clean substance molecules having a large specific gravity, The rotating body 906 such as a motor formed on the side surface of the fluid material separator 9000 is continuously rotated to rotate the rotary body 905 using the diagonal striking rod 908 coupled with the rotary shaft 985, The fluidic substance molecules and the gaseous substance molecules flowing into the fluidic substance molecular sieve separator 9000 are mixed and pulverized or struck to form fluidic substance molecules having a light specific gravity and fluidic substance molecules having a heavy specific gravity Due to the action of gravity acceleration and the difference of specific gravity and mass. (9000), the total amount of molecules of fluid material flowing into the molecular material separator (9000) is different from that of gravity by the action of gravity and the difference of specific gravity and mass The fluidic substance molecules 70WT to 99.99WT% of which specific gravity is heavy and move to the lower end of the fluidic substance molecular sieve separator 9000 are formed at the lower end of one side of the fluidic substance molecular separator 9000
The drainage control valve 903 coupled with the low-layer water intake port 901 and the rising-siphon suction pipe 902 is adjusted and discharged, and then discharged through the ascending-side suction pipe 902 due to the difference in specific gravity, And 0.1 WT% to 30 WT% of the fluidic substance molecules and the gaseous substance molecules that can not be contained in the fluidic substance molecular reservoir 9000 through the surplus material molecule discharge pipe 910 formed on the other side of the fluidic substance molecular separator 9000 ), And liquid matter molecules or gaseous substance molecules discharged in the form of a foam are liquefied by using the liquefaction action of seawater or freshwater 913 stored in the fluid material molecular reservoir 911, 2 Environmentally friendly eco-friendly method of collecting, reusing, or reworking by discharging the second surplus material to the molecular discharge pipe 912, and a fluid material separator
The fluidic material molecular separator 3000 having a height of about 5m to 90m is formed on the upper part of the four pairs of rotating wheels 703 so that the fluidic material molecules can exert the action of gravity and the action of gravitational acceleration even more, The structure being constructed;
A fluid material molecule inlet pipe 716 for injecting water, liquid or the like into the fluid material separator 3000 is provided at an upper side of the fluid material separator 3000;
A structure in which a control valve 916 for controlling the inflow amount is coupled to the middle of the fluid material inflow pipe 716;
A vertical vibration vibrator 707 is formed at the lower end of the center of the fluid material separator 3000;
A gas injection pump 917 is provided at a lower portion of one side of the fluid material separator 3000;
At one lower end of the gas injection pump 917, an air diffuser 918 is formed;
A structure in which an air inlet 728 for injecting fresh air or polluted air or contaminated soot flowing into the gas air pump 917 from the outside is provided at one side of the gas injection pump 917;
The fluid material separator 3000 is provided at the other side of the fluid material separator 3000 with a low layer water intake port 936 for discharging heavy fluid substances collected at the lower end of the fluid material separator 3000 to the outside of the fluid material separator 3000 Is provided in combination with the lifting phyton suction pipe 930;
A structure in which a discharge amount control valve 931 for controlling the discharge amount is coupled to one side of the lower end of the ascending cyclone suction pipe 930;
In the middle of the fluid material separator 3000, the fluid material molecule separators 935, 948, 949, and 955 are formed in the form of inverted triangles as the layer layers;
At the lower end of the fluid material molecule separation ports 935, 948, 949, and 955, respective outlets 957, 959, 946, 932 are formed;
A structure in which each of the outlet ports 957, 959, 946, 932 is configured with respective control valves 933, 947, 960, 958;
A plurality of molecular material discharge ports 937, 939, 941 and 943 are provided at one side of each of the fluid material separators 935, 948, 949, and 955, which are formed of a layered structure, to discharge fluid material molecules having a specific gravity and light gaseous material molecules;
Each surplus
The material molecule outlet (937,939,941,943) has a structure in which an emission control valve (938, 940, 942, 945) is arranged to control the emission amount, respectively;
A rotating shaft 956 coupled with a rotating body 951 such as a motor is provided between each of the fluid material separators 935, 948, 949, and 955 constituted of a layered structure;
The diagonal slanting rod 950 is formed on the rotary shaft 956 in a diagonal direction and a diagonal line.
The diagonal inclination striking rod 950 has a structure in which spiral rotating means for generating vortex and whirlwind when it rotates are protruded in a concavo-convex form;
As described above, the vertical vibrating vibrator 707 constituting the fluid material separator 3000 is operated to vibrate the fluid material separator 3000
Fresh air or contaminated air is continuously injected into the fluid material molecule separator 3000 using the gas injection pump 917
Fluid material molecules such as water are continuously introduced at a high pressure through a fluid material inlet pipe 716 so as to separate contaminant molecules having a low specific gravity and clean substance molecules having a large specific gravity, The rotating body 951 such as a motor constituted on the side of the fluid material separator 3000 is continuously rotated and the swirling motion of the swirling body is performed by using the diagonal slanting striking rod 950 coupled to the rotating shaft 956, And a whirlwind are generated so that the fluid material molecules and the gaseous material molecules flowing into the fluid material separator 3000 are crushed or pulverized while being mixed with the fluent material molecules having a specific gravity and heavy materials Due to the action of gravity and gravitational acceleration and the difference of specific gravity and mass, The mass and the specific gravity of the material molecules collide with each other due to the action. When the molecules are naturally moved to the upper and lower layers, the total amount of the fluid material molecules flowing into the fluid material separator (3000) The fluidic substance molecules 70WT% to 99.99WT%, which have a high specific gravity and move to the lower end of the fluidic material molecular sieve 3000 due to the difference in specific gravity and mass due to the acceleration action, are arranged at the lower end of one side of the fluidic material molecular sieve 3000 Being
The drainage control valve 931 coupled to the lower layer water intake 936 and the riser suction pipe 930 is adjusted and discharged and discharged through the riser siphon suction pipe 930 due to the difference in specific gravity, And 0.1 WT% to 30 WT% of the fluidic substance molecules and the gaseous substance molecules that can not be collected are discharged to each of the surplus material molecule outlets 937, 939, 941 and 943 constituting the layer layer on the other side of the fluidic substance molecular sieve separator 3000, Friendly and environmentally-friendly process for recycling and reusing a fluid material separator
The fluidic substance molecular separator 9800 having a height of about 5 m to 100 m is formed on the upper part of the four pairs of rotating wheels 703 so that the molecules of the fluent material can exert the action of gravity and the action of gravitational acceleration much more, The structure being constructed;
A fluidic substance molecule inlet pipe 716 for injecting water, liquid or the like into the fluidic substance molecule separator 9800 is provided at one side of the upper part of the fluidic substance molecule separator 9800;
A structure in which a control valve 916 for controlling the inflow amount is coupled to the middle of the fluid material inflow pipe 716;
A vertical vibration vibrator 707 is formed at the center lower end of the fluid material molecule separator 9800;
A gas injection pump 917 is provided at a lower portion of one side of the fluid material molecule separator 9800;
At one lower end of the gas injection pump 917, an air diffuser 918 is formed;
A structure in which an air inlet 728 for injecting fresh air or polluted air or contaminated soot flowing into the gas air pump 917 from the outside is provided at one side of the gas injection pump 917;
The fluid material separator 9800 is provided at the other side of the lower end of the fluid material separator 9800 with a low-layer water withdrawal port 901) is provided in combination with the lifting siphon suction pipe (902);
A structure in which a discharge amount control valve 931 for controlling the discharge amount is coupled to one side of the lower end of the ascending cyclone suction pipe 930;
A structure in which a liquid electrode material 1005 and a + electrode rod 1006, which electrolyze fluidic substance molecules, are combined with the electrolytic device 1007, respectively;
(The electrolytic apparatus can be changed and configured in a wide variety of ways, so that the detailed structure is omitted and only the relationship with the electrode is shown)
A structure in which a rotating body 1001 such as a motor and a plurality of diagonal slanting striking rods 1002 coupled to the rotating shaft 1003 are formed in the middle of the fluid material molecule separator 9800;
The structure of the surface structure of the polygonal bevel striking bar 1002 has a structure in which thread-like protrusions and protrusions are formed to easily generate whirlwind and vortex;
A structure in which a surplus material molecule discharge pipe 927 for discharging fluid material molecules having a light specific gravity to the outside is coupled to the other side of the fluid material separator 9800;
As described above, the vertical vibrating vibrator 707 constituted in the fluid material molecule separator 9800 is operated to vibrate the fluid material molecule separator 9800
Fresh air or contaminated air is continuously injected into the fluid material molecule separator 9800 using the gas injection pump 917
Fluid material molecules such as water are continuously introduced at a high pressure through a fluid material inlet pipe 716 so as to separate contaminant molecules having a low specific gravity and clean substance molecules having a large specific gravity, At the same time as processing
Electric power is supplied to the electrode rod 1005 and the + electrode rod 1006 by using the electrolytic apparatus 1007 so that the specific gravity which is combined with the fluid material molecules such as water flowing into the fluid material molecule separator 9800 This action creates the action of decomposing these light fluidic molecules and heavy fluvial molecules
The rotating body 1001 such as a motor constituted on the side of the fluid material separator 9800 is continuously rotated and the swirling and the whirlwind are performed using the diagonal slanting rod 1002 coupled with the rotating shaft 1003 The fluidic substance molecules and the gaseous substance molecules flowing into the fluidic substance molecular separator 9800 are mixed and pulverized or struck to form a fluidic substance molecule having a light specific gravity and a fluidic substance molecule having a heavy specific gravity The effect of gravity acceleration, gravity acceleration and mass, and mass and mass gravity are similar due to collision of material, material friction and mass explosion due to the difference of specific gravity and mass. When material is naturally moved to upper and lower layers, The effect of gravity and gravitational acceleration versus the ratio of the total amount of fluidic material molecules entering the material molecule separator 9800 to 100WT% And that by the difference fluid material molecular separator (9800) 70WT% heavier molecular weight liquid crystalline substance to move to the lower end of the ~ 99.99WT% of the mass it is configured at one side lower end of the fluid material molecular separator (9800)
The lower volume intake port 901 and the discharge volume control valve 715 coupled to the upper siphon intake pipe 902 are regulated and discharged to be recycled or reused and at the same time the difference in specific gravity, 902) and 0.1 wt% to 30 wt% of the gaseous substance molecules are discharged to the surplus material molecule discharge pipe 927 composed of a layered layer on the other side of the fluidic substance molecule separator 9800 Friendly, eco-friendly method of collecting, reusing, or reworking a fluid material separator
The structure of the lower end housing 833 in the form of an enclosure;
The reason for configuring the filter hole 831 for generating gravitational acceleration is that the clean substance molecules having a large specific gravity are discharged to the bottom end portion of the lower end enclosure 833 A structure of a filtration hole 831 for generating gravitational acceleration which is configured to be narrowed in a Λ shape in the direction of the upper end;
A structure of the fluid material molecule separator 10000 is coupled with an upper end enclosure 835 configured to widen in a shape of a letter in the direction of the upper end of the filter element 831 for generating gravitational acceleration.
A structure in which a filtration membrane 832 for friction generation is formed on the upper part of the filtration hole 831 for generating gravitational acceleration (the shape of the filtration membrane for friction generation can be variously changed by membrane, gravel, stone, wire mesh, and wood). The detailed structure is omitted)
A structure of a plurality of gas injection pipes 830 for injecting gas such as contaminated air or air into one side of the upper end of the upper end enclosure 835;
The total height length of the bottom end enclosure 833, the gravity acceleration generating filter 831 and the top end enclosure 835 is 1000% to 10000% of the width of the fluid material separator 10000 and the width of the fluid material separator 10000 The structure of the fluidic material molecular separator 10000 in which the larger 5 m to 90 m is made to a greater height;
The fluidic material molecular separator 10000 is constructed on top of four pairs of rotating wheels 703;
A fluid material molecule inlet pipe 716 for injecting water and liquid into the fluid material separator 10000 is provided at one side of the upper part of the fluid material separator 10000;
A structure in which a control valve 916 for controlling the inflow amount is coupled to the middle of the fluid material inflow pipe 716;
A structure in which the left and right direction vibrator 826 coupled with the transverse support 825 is formed at the upper end of the lower end housing 833;
A structure in which a vertical vibrator 828 is coupled to the horizontal structure support frame 827 at the lower end of the lower end enclosure 833;
A vertical vibration vibrator 707 is formed at the center lower end of the fluid material molecule separator 10000;
A gas injection pump 917 is provided at a lower portion of one side of the fluid material separator 10000;
At one lower end of the gas injection pump 917, an air diffuser 918 is formed;
A structure in which an air inlet 728 for injecting fresh air or polluted air or contaminated soot flowing into the gas air pump 917 from the outside is provided at one side of the gas injection pump 917;
The fluid material separator 10000 is provided at the other side of the fluid material separator 10000 with a low-layer water withdrawal port 936 for discharging heavy fluid substances collected at the lower end of the fluid material separator 10000 to the outside of the fluid material separator 10000 Is provided in combination with the lifting phyton suction pipe 930;
A structure in which a discharge control valve 931 for controlling the discharge amount is coupled to one side of the ascending cyclone suction pipe 930;
A structure in which a surplus material molecule discharge pipe 927 for discharging fluid substance molecules having a light specific gravity to the outside is coupled to the other side of the upper end enclosure 835;
A structure in which a plurality of rotors 821 are formed in the lower end housing 833;
A rotating friction plate 836 is formed on the rotating shaft 821;
The rotary friction plate 836 is coupled with a rotary friction rod 823 which is formed so as to intersect diagonally with the unfixed direction.
The rotary friction rod 823 has a structure in which the rotary protrusion is formed in a spiral screw shape;
A mounting structure of the front and rear direction vibrators 820 and 829 that vibrate in the forward and backward directions on one side and the other side of the lower end housing 833;
A gas injection pump 917 is provided at a lower portion of one side of the lower end housing 833;
At one lower end of the gas injection pump 917, an air diffuser 918 is formed;
A structure in which an air inlet 728 for injecting fresh air or polluted air or contaminated soot flowing into the gas air pump 917 from the outside is provided at one side of the gas injection pump 917;
As described above, the vertical vibrating vibrator 707 and the longitudinal vibrators 820 and 829, which are configured in the fluid material separator 10000, are operated to vibrate the fluid material molecule separator 10000
Fresh air or contaminated air is continuously injected into the fluid material molecule separator 10000 by using the gas injection pump 917
The fluidic substance molecules flowing into the lower end enclosure 833 are blown and processed by using the left and right direction vibrator 826 and the up and down direction vibrator 828
The fluidic substance molecules flowing into the fluidic material molecular sieve separator 10000 are bombarded and processed by using the friction generating filtration membrane 832 and the fluidic material molecule separator 10000) is blown into the fluidic material molecular sieve 10000 by blowing fresh air or contaminated air into the interior of the fluidic material molecular sieve 10000
Fluid material molecules such as water are continuously introduced at a high pressure through the fluid material inlet pipe 716, so that the pollutant molecules having a specific gravity, which are combined with the fluid material molecules and the gaseous substance molecules, As material molecules are separated and processed
The fluid material molecules and the gaseous substances introduced into the fluid material separator 10000 by using the rotating body 821, the rotating friction plate 836 and the rotating friction rod 823 formed in the lower end housing 833, Molecules are struck by a mixer and pulverized to produce fluid material molecules with a low specific gravity and fluid material molecules with a high specific gravity. The molecules are gravitational, gravitational, and gravitational. The mass of the material molecules that are in contact with the mass and the specific gravity are collided with each other, and the particles are naturally separated into the upper layer and the lower layer, the gravity acceleration action Due to the action of gravity and the difference between the specific gravity and the mass, a fluidic substance molecule 7 having a large specific gravity moving to the lower end of the fluidic substance molecular sieve separator 10000 0WT% to 99.99WT% is formed at the lower end of one side of the fluid material molecule separator 10000
The low-layer water intake 936 and the up-siphon intake pipe 930
0.1 WT% to 30 WT% which can not be discharged through the ascending suction pipe 930 due to the difference in specific gravity, mass and gravity after the discharge amount control valve 931 is adjusted and discharged
The environmentally friendly eco-friendly method of collecting, reusing, or reworking after discharging through a surplus material molecule discharge pipe 927 formed on the other side of the fluidic material molecule separator 10000,
The structure of the lower end enclosure 838 in the form of an enclosure;
The fluid material molecules or the gaseous material molecules flowing into the lower end enclosure 838 are rotated in a whirlwind fashion to collide with the mixer case to generate a material friction action and a material collision action inside the lower end case 838 A structure in which the rotary projection type rotary body 999 is combined with a rotary body 998 such as a motor constituted on the exterior of the lower end side body 838;
A structure of a top rotating spiral housing 827 in the form of a spring spiral at the upper end of the lower end housing 838;
The reason for constructing the upper rotating helical enclosure 827 in the form of a rotating spiral is that the clean substance molecules having a heavy specific gravity due to the action of gravitational acceleration and gravity are preferentially discharged toward the lower end A structure in which the upper end rotating spiral housing 827 is formed into a spiral spring shape to exert its action;
A structure in which a friction-causing filtration membrane 839 is formed in the lower end of the upper rotating spiral housing 827 (the shape of the filtration membrane for friction generation can be variously changed by membrane, gravel, stone, wire mesh, and wood) The detailed structure is omitted)
A structure in which a frictional protrusive groove 841 is formed so as to exert an action of generating a material friction action and a material impact action in the middle lower end portion of the upper rotary helical case 827;
The ratio of the length of the upper end rotating spiral housing 827 to the total height of the lower end housing 838 is preferably in a range of from 1000% to 1000% of the width in the lateral direction and the width in the longitudinal direction of the upper end rotating helical housing 827 and the lower end housing 838, A full height structure of the fluidic material molecular sieve 20000 having a height of 5m to 100m, which is greater than 10000%;
The lower end enclosure 838 is structured on top of four pairs of rotating wheels 703;
A fluid material molecule inlet pipe 716 for injecting water, liquid, or the like into the fluid material separator 20000 is provided at one side of the top of the top rotating helical container 827;
A structure in which a control valve 916 for controlling the inflow amount is coupled to the middle of the fluid material inflow pipe 716;
A vertical vibration vibrator 707 is formed at a lower center portion of the lower end housing 838;
A gas injection pump 917 is provided at a lower portion of one side of the lower end enclosure 838;
At one lower end of the gas injection pump 917, an air diffuser 918 is formed;
A structure in which an air inlet 728 for injecting fresh air or polluted air or contaminated soot flowing into the gas air pump 917 from the outside is provided at one side of the gas injection pump 917;
At the other end of the lower end of the fluid material separator 20000, a low-layer water intake port (hereinafter, referred to as " fluid material separator ") 20000, which discharges fluid material molecules having a large specific gravity, collected at the lower end of the fluid material separator 20000, 936 are provided in combination with the lifting siphon suction pipe 930;
A structure in which a discharge control valve 931 for controlling the discharge amount is coupled to one side of the ascending cyclone suction pipe 930;
A structure in which a surplus material molecule discharge pipe 927 for discharging molecules of fluids having a specific gravity to the outside is coupled to the upper portion of the other side of the upper rotating helical container 827;
A structure in which a plurality of rotors 821 are configured in the lower end housing 838;
A rotating friction plate 836 is formed on the rotating shaft 821;
The rotation friction plate 836 is provided with a rotation friction plate 836 which is formed by intersecting in the diagonal direction with the non-
A structure in which the rod 823 is coupled;
The rotary friction rod 823 has a structure in which the rotary protrusion is formed in a spiral screw shape;
A structure in which a high-pressure injection port 996 for introducing fluid substance molecules or gaseous substance molecules into the lower end enclosure 838 is coupled to the inflow pipe 997 at an upper portion of the rotary friction rod 823;
A magnet rod 840 and a + magnet bar 839 are formed on one side and the other side of the lower end enclosure 838
A structure that is configured to exert an action of bringing a magnetic force into contact with the fluid material molecules and the gaseous material molecules flowing into the inside of the lower end enclosure 838;
A gas injection pump 917 is provided at a lower portion of one side of the lower end enclosure 838;
At one lower end of the gas injection pump 917, an air diffuser 918 is formed;
A structure in which an air inlet 728 for injecting fresh air or polluted air or contaminated soot flowing into the gas air pump 917 from the outside is provided at one side of the gas injection pump 917;
As described above, the vertical vibrating vibrator 707 constituting the fluid material separator 20000 is operated to vibrate the fluid material molecule separator 20000
Fresh air or contaminated air is continuously injected into the fluid material molecule separator 20000 by using the gas injection pump 917
The fluid material molecules flowing into the fluid material separator 20000 are naturally blown and processed by using the filter film 839 for friction generation
Fluid material molecules such as water are continuously introduced at a high pressure through the fluid material inlet pipe 716, so that the pollutant molecules having a specific gravity, which are combined with the fluid material molecules and the gaseous substance molecules, Magnetic substances are separated and the magnetic force is inputted to the magnet rod 840 and the + magnet bar 839 to separate the metallic substances contained in the fluid substance molecules and the gaseous substance molecules, and at the same time, the lower end enclosure 838 The fluid material molecules and the gaseous material molecules flowing into the fluid material molecule separator 20000 are blown by using the rotating body 821, the rotating friction plate 836 and the rotating friction rod 823 A fluid material molecule with a low specific gravity and a fluid material molecule with a high specific gravity are finely pulverized at the same time as the mixer compartment, and the gravity acceleration action, the gravity acceleration action, A material fluid having a mass and a specific gravity that are collided by a material collision action, a material friction action, and a material explosion action, and a fluid flowing into the fluid material molecule separator 20000 when the molecules are naturally moved to the upper and lower layers, 70WT% ~ 99.99WT% of the fluidic substance molecules having a heavy specific gravity moving to the lower end of the fluid material separator (20000) due to the action of gravitational acceleration and gravity and the difference of specific gravity and mass The lower layer water intake port 936 formed at the lower end of one side of the fluid material separator 20000 and the discharge control valve 931 coupled to the upper siphon suction pipe 930 are controlled and discharged and then the specific gravity, 0.1 WT% to 30 WT%, which can not be discharged through the ascending cyclone suction pipe 930 due to the difference in the amount of water, is formed in the upper part of the other side of the fluid material separator 20000 Eco-friendly eco-friendly method of collecting and reusing or reworking the eco-friendly material by discharging it through a surplus material molecular discharge pipe 927,
A structure of the lower end enclosure 510 having a lower end portion in the shape of an armature and an upper end in the form of a lower end portion of the upper arm;
A structure constituting a filtration hole 831 for generating action of gravity and gravitational acceleration on the upper portion of the lower end housing 510;
A structure of an upper end housing 508 having an upper end and a lower end formed in a shape of an upper and a lower end, respectively, at an upper portion of the filtration hole 831 for generating a gravitational acceleration;
A structure in which a material friction action and an impression protrusion 512 for generating an impact are formed inside the filtration hole 831 for generating gravitational acceleration and the upper end housing 508;
The structure in which the filter membrane 503 for friction generation is formed inside the lower end housing 510 is as follows. (The shape of the filtration membrane for friction generation can be variously changed by membrane, gravel, stone, wire mesh, Omit structure)
The fluid material separator 5000 and the filtration membrane 503 for friction generation are vibrated in the left and right directions on the left and right sides of the lower end housing 510 so as to have the same shape as the blood flowing into the fluid material separator 5000 (505,506), which generates left and right vibrating separating action, in which molecules of fluidic substance with heavy specific gravity and molecules of light specific gravity are separated from each other naturally. ;
The ratio of the length of the fluid material separator 5000 to the total height of the upper end enclosure 508 and the lower end enclosure 510 and the friction material 503 for friction generation includes the lengths of the upper end enclosure 508 and the lower end enclosure 510, And a height of 1m to 10m, which is greater than 1000% to 10000% of the width in the longitudinal direction, constituting the filtration membrane 503 for generating friction and the height of the fluidic material molecular separator 5000;
The lower end housing 510 is structured on top of four pairs of rotating wheels 703;
A fluid material inflow pipe 716 for injecting blood, water, liquid or the like into the fluid material separator 5000 is provided at one side of the upper end enclosure 508;
The fluid material molecule inlet pipe 716 is coupled to a blood supply device (not shown in the prior art) for supplying blood and the like collected from the human body;
A structure in which a control valve 916 for controlling the inflow amount is coupled to the middle of the fluid material inflow pipe 716;
The lower end portion of the lower end housing 510 is immersed in a fluid material molecule having a high specific gravity and a specific gravity which is coupled to a fluid material molecule such as blood flowing into the fluid material molecule separator 5000 by oscillating in the upward and downward directions A structure in which an up-down vibration vibrator 707 constituting a material separating action in which light fluids molecules are separated naturally;
A gas injection pump 917 for injecting a gas such as nitrogen or oxygen is provided at one side of the lower end housing 510;
At one lower end of the gas injection pump 917, an air diffuser 918 is formed;
The gas injection pump 917 serves to introduce nitrogen or oxygen or hydrogen to prevent the solidification of blood flowing into the fluid material molecular sieve separator 5000;
The fluid material separator 5000 is provided at the other side of the lower end of the fluid material separator 5000. The fluid material separator 5000 is provided at the lower end of the fluid material separator 5000, 936 are provided in combination with the lifting siphon suction pipe 930;
A structure in which a discharge control valve 931 for controlling the discharge amount is coupled to one side of the ascending cyclone suction pipe 930;
The upper end of the ascending physeal suction pipe 930 is connected to a syringe connected to a blood supply pipe for receiving blood purified by the fluid material separator 5000 and for transfusing to a human body or animals. ; (Detailed structure omitted)
A structure in which a surplus material molecule discharge pipe 927 for discharging liquid material molecules having a light specific gravity to the outside is coupled to the other side of the fluid material separator 5000;
As described above, the left and right vibration vibrators (505, 506) and the up and down vibration vibrator (707) constituting the fluid material separator (5000) The fluid material molecules having a specific gravity and the fluid material molecules having a large specific gravity are coupled to the fluid material molecules such as blood flowing into the inner space, Nitrogen or oxygen is continuously injected into the separator 5000 to prevent the blood flowing into the fluid material molecule separator 5000 from being coagulated and to prevent the blood from being corrupted, (503) for generating frictional force is generated by the action of separating the fluidic substance molecules having a specific gravity and the fluidic substance molecules having a specific gravity. So as to prevent the coagulation of the blood flowing into the fluid material molecular sieve separator 5000 and to prevent the spoilage phenomenon by striking the fluid material molecules flowing into the fluid material separator 5000 naturally And simultaneously generates a function of separating the fluid substance molecules having a specific gravity and the fluid substance molecules having a heavy specific gravity, which are combined with the blood, and collecting the blood or blood collected from the human body through the fluid substance molecule inlet pipe 716 Fluid material molecules such as water are continuously introduced at a high pressure so as to separate contaminant molecules with light specific gravity and clean substance molecules with heavy specific gravity,
Fluid material with a light weight of a specific gravity and a fluidic material with a high specific gravity are collided by a material collision action, a material friction action and a material explosion action due to the action of gravity and the action of gravity acceleration and the specific gravity and mass, In the case of processing such that the molecules are naturally separated into the upper layer and the lower layer, the gravity acceleration action and gravity action and the gravity action and the specific gravity and mass of the fluid material molecules flowing into the fluid material separator (5000) The fluidic substance molecules 70WT% to 99.99WT% such as blood having a heavy specific gravity moving to the lower end of the fluidic material molecular sieve separator 5000 due to the difference are collected in the lower layer water withdrawal port The discharge control valve 931 coupled with the intake pipe 936 and the ascending phonon suction pipe 930 is regulated and discharged to re-transfuse the human body And 0.1 WT% to 30 WT%, which can not be discharged through the ascending siphon suction pipe 930 due to the difference in specific gravity, mass, and gravity, A natural-environment eco-friendly method of collecting, reusing or reworking after discharging through a material molecule discharge pipe 927, and a fluid material molecular separator
A structure of the fluidic substance molecular branch 6000 configured to contain a detachable blood processing device 6002 in an enclosed form;
The composition ratio of the length of the fluidic material molecular sieve 6000 to the total height is preferably in the range of from 1% to 10%, more preferably from 100% to 100% A structure of the full height of the fluidic material molecular separator 6000 composed of;
The fluid material separator 6000 and the filter membrane 503 for friction generation are vibrated in the left and right directions on the left and right sides of the fluid material separator 6000 to flow into the fluid material separator 6000 Left and right direction vibration vibrators (505, 506), which generate a substance separation action in which molecules of a fluid mass having a high specific gravity and molecules of a fluid mass having a light specific gravity are naturally separated, The structure being constructed;
A structure in which four pairs of rotating wheels 703 are formed at the lower end of the fluid material separator 6000;
A fluid material molecule inlet pipe 716 for injecting blood, water, liquid and the like into the fluid material separator 6000 is provided on one side of the fluid material separator 6000;
The fluid material molecule inlet pipe 716 is coupled to a blood supply device (not shown in the prior art) for supplying blood and the like collected from the human body;
A structure in which a control valve 916 for controlling the inflow amount is coupled to the middle of the fluid material inflow pipe 716;
The fluidic substance molecule separator 6000 vibrates in the up and down direction at the lower end of the central portion thereof to move the fluidic substance molecules 640 having a large specific gravity, which is bonded to the fluidic substance molecules such as blood, And an up-down vibration vibrator (707) for generating a substance separation action in which molecules of fluids having a specific gravity are separated naturally.
A gas injection pump 917 for injecting a gas such as nitrogen or oxygen is provided at one side of the fluid material separator 6000;
The fluid material separator 6000 is connected to the fluid material separator 6000 at the lower end of the fluid material separator 6000. The fluid material separator 6000 discharges the fluid material molecules having a high specific gravity to the outside of the fluid material separator 6000 936 are provided in combination with the lifting siphon suction pipe 930;
A structure in which a discharge control valve 931 for controlling the discharge amount is coupled to one side of the ascending cyclone suction pipe 930;
The siphon suction pipe 930 is connected to a syringe connected to a blood supply pipe for receiving blood to be purified by the fluid material separator 6000 and for delivering blood to a human body or animals. ; (Detailed structure omitted)
A structure in which a surplus material molecule discharge pipe 927 for discharging fluid material molecules having a light specific gravity to the outside is coupled to the other side of the fluid material separator 6000;
A structure in which a detachable blood processor 6002 having a filter 831 for generating gravitational accelerations is installed in the inside of the fluid material separator 6000 in an hourglass manner;
In the detachable blood processor 6002, a fluid material molecule having a specific gravity and a fluid material molecule having a specific gravity, which are combined with the blood flowing into the inside of the detachable blood processor 6002, The structure of the filtration membrane 503 is as follows: (The shape of the filtration membrane for friction generation may be variously changed due to membrane, gravel, stone, wire mesh, male or wood, etc.)
A structure in which a material friction action and a shock-generating protrusion / protrusion 512 are formed inside the filtration hole 831 for generating gravitational acceleration;
A structure in which an air diffuser 918 for diffusing gaseous molecules such as oxygen or nitrogen supplied from the gas injection pump 917 is formed at the lower end of the detachable blood processor 6002;
In each portion of the detachable blood processor 6002, a fluid material molecule inlet pipe 716, an excess material molecule outlet pipe 927 and a gas injection pump 917, which are separately formed in the fluid material molecule separator 6000, A structure configured to be connected to the low-layer water intake 936 and the upsiphone intake pipe 930;
Introducing nitrogen, oxygen, or hydrogen from the gas injection pump 917 to prevent the blood flowing into the fluid material separator 6000 from being solidified;
As described above, the left and right direction vibration vibrators 505 and 506 and the up and down direction vibration vibrator 707 constituting the fluid material separator 6000 are operated to move into the interior of the detachable blood processing apparatus 6002 The blood type fluid machine 6002 vibrates the fluid substance molecules having a specific gravity having a specific gravity and the fluid substance molecules having a specific gravity which are combined with the fluid substance molecules such as blood to be infused, It is possible to prevent the blood from flowing into the detachable blood processing device 6002 by preventing the blood from being corrupted while injecting nitrogen or oxygen into the inside of the detachable blood processor 6002, It is possible to generate a function of separating the substance molecules and the fluidic substance molecules having a high specific gravity and at the same time, The blood type blood pressure monitor 6002 is a blood type blood pressure monitor which can be used to prevent the blood from flowing into the detachable blood type processing apparatus 6002 and to prevent the blood from flowing into the detachable blood type blood pressure monitor 6002, The blood that has been collected from the human body through the fluid material inflow pipe 716 is continuously supplied to the blood at a high pressure under pressure while generating the action of separating the light specific fluid substance molecules and the heavy specific fluid substance molecules, And to process the pollutant molecules with a specific gravity combined with the fluidic substance molecules and the clean substance molecules having a large specific gravity to separate them
Fluid material with a light weight of a specific gravity and a fluidic material with a high specific gravity are collided by a material collision action, a material friction action and a material explosion action due to the action of gravity and the action of gravity acceleration and the specific gravity and mass, The difference between gravity acceleration action and gravity action and specific gravity and mass difference compared to the total amount of fluidic substance molecules flowing into the detachable blood processing apparatus (6002) when the same material molecules are naturally moved to the upper and lower layers 70WT% to 99.99WT% of the fluid substance molecules such as blood having a heavy specific gravity moving to the lower end of the detachable blood processor 6002 are lifted up to the lower water inlet 936 formed at the lower end of one side of the detachable blood processor 6002 The discharge control valve 931 coupled with the phone suction pipe 930 is adjusted and discharged to re-transfuse or recycle the human body And 0.1 WT% to 30 WT% which can not be discharged through the ascending phonon suction pipe 930 due to the difference in specific gravity, mass, and gravity, is discharged through the surplus material molecular discharge pipe (not shown) formed on the other side of the detachable blood processor 6002 927), collected, and reused or reworked. The eco-friendly eco-friendly method of processing blood in a nature-friendly manner, and a fluid material molecular separator
Characterized in that gaseous substance molecules made by processing the temperature of the gaseous substance molecules flowing into the fluid material molecule separator to a temperature as low as about 0 to about 30 degrees are introduced and processed to perform gravity acceleration action and gravity action A natural eco-friendly method for separating light-weight substance molecules and heavy-specific fluid substance molecules combined with fluid substance molecules using material friction action and substance explosion action, and a fluid-state substance molecular separator
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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KR1020160020305A KR20160030899A (en) | 2016-02-22 | 2016-02-22 | It reprocesses contaminated blood and processes it into clean blood. At the same time, it uses gravity action, gravitational acceleration action, material friction action and material explosion action, Friendly eco-friendly process for separating and processing material molecules and a fluid material separator |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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KR1020160020305A KR20160030899A (en) | 2016-02-22 | 2016-02-22 | It reprocesses contaminated blood and processes it into clean blood. At the same time, it uses gravity action, gravitational acceleration action, material friction action and material explosion action, Friendly eco-friendly process for separating and processing material molecules and a fluid material separator |
Publications (1)
Publication Number | Publication Date |
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KR20160030899A true KR20160030899A (en) | 2016-03-21 |
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Family Applications (1)
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KR1020160020305A KR20160030899A (en) | 2016-02-22 | 2016-02-22 | It reprocesses contaminated blood and processes it into clean blood. At the same time, it uses gravity action, gravitational acceleration action, material friction action and material explosion action, Friendly eco-friendly process for separating and processing material molecules and a fluid material separator |
Country Status (1)
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KR (1) | KR20160030899A (en) |
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2016
- 2016-02-22 KR KR1020160020305A patent/KR20160030899A/en unknown
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