KR102366359B1 - Using the action of gravity and material explosion, ultrapure fluidic material molecules are extracted by separating and processing light fluidic material molecules and heavy, clean fluidic material molecules that are combined with contaminated fluidic material molecules. Nature-friendly eco-friendly ultra-pure water extractor applied to nature-friendly eco-friendly method - Google Patents

Abstract

The present invention relates to a nature-friendly eco-friendly ultra-pure water extractor applied to nature-friendly eco-friendly method to separate and process light-weight fluidic material molecules and heavy-weight clean fluidic material molecules combined with fluidic material molecules to extract the same, by using action of gravity.

Description

Using the action of gravity and material explosion, ultrapure fluidic material molecules are extracted by separating and processing light fluidic material molecules and heavy, clean fluidic material molecules that are combined with contaminated fluidic material molecules. Nature-friendly eco-friendly ultra-pure water extractor applied to nature-friendly eco-friendly method {?}

The present invention uses the action of gravity and material explosion to separate and process the fluid material molecules with light specific gravity and clean fluid material molecules with heavy specific gravity, which are combined with the contaminated fluid material molecules, to process ultrapure fluid material molecules. This invention relates to a nature-friendly, eco-friendly ultrapure water extractor applied to a nature-friendly, eco-friendly method of extracting watermelon.

Conventional water purifiers simply use a filter to separate and supply only harmful substances contained in water, but the present invention is an invention for solving this problem.

Patent Publication No. 10-2008-0080077 Publication Date September 02, 2008 Patent Publication No. 10-2007-0105949 Publication Date October 31, 2007 Patent Publication No. 10-2009-0129389 Publication date December 16, 2009 Patent Registration No. 10-2209197 Publication Date January 29, 2021 Publication No. 10-2016-0030906 Publication Date March 21, 2016

The present invention is an invention for solving the problems of Patent Publication No. 10-2016-0030906 Publication Date March 21, 2016 and Patent Registration No. 10-2209197 It is an invention for

The problem with Patent Registration No. 10-2209197 is that it is very difficult to clean the inside due to a structural problem after processing the contaminated water.

In order to solve this problem, the problem of the present invention is solved by constructing a nature-friendly eco-friendly material molecule separator applied to a nature-friendly eco-friendly method that cleanly processes the polluted fluid material molecules using a nature-friendly material molecule separation purifier want to

In addition, Patent Publication No. 10-2016-0030906 has a significant defect in that the material to be processed cannot be processed accurately due to the inaccurate bonding relationship of each component with the drawback of the publication date March 21, 2016.

Since a separate biochemical treatment is not required, the treatment time can be shortened, and there is an advantage that the treatment cost is not required at all.

Because it naturally cleans the inside of the nature-friendly substance and molecule separation purifier, it has the effect of always providing clear and clean purified water.

In addition, there is an effect of easily separating and processing fluid material molecules with a light specific gravity and fluid material molecules with a heavy specific gravity that are combined with the fluid material molecules and extracting them.

1 is a perspective view of a nature-friendly eco-friendly ultrapure water extractor configured according to a first embodiment and claim 1 of the present invention;
2 is a perspective view of an eco-friendly, eco-friendly ultrapure water extractor configured according to a second embodiment and claim 2 of the present invention;
3 is a perspective view of a nature-friendly eco-friendly ultrapure water extractor configured according to a third embodiment and claim 3 of the present invention;
4 is a partial detailed view of the fluid material molecule processing unit configured inside the eco-friendly ultrapure water extractor configured according to the third embodiment and claim 3 of the present invention;
5 is a perspective view of an eco-friendly, eco-friendly ultrapure water extractor in which the configuration of the upper and lower exchangeable material molecule processing unit configured in accordance with the fourth embodiment and claim 4 of the present invention is in a wavy shape;
6 is a perspective view of an eco-friendly, eco-friendly ultrapure water extractor in which the configuration of the upper and lower exchangeable material molecule processing unit configured according to the fifth embodiment and the fifth embodiment of the present invention is configured in a horizontal zigzag form;
7 is a perspective view of an eco-friendly, eco-friendly ultrapure water extractor in which the configuration of the upper and lower exchangeable material molecule processing unit configured according to the sixth embodiment and the sixth of the present invention is trapezoidal;
8 is a perspective view of a nature-friendly eco-friendly ultrapure water extractor configured according to the seventh embodiment and the seventh embodiment of the present invention;
9 is a partial detailed view of a polyhedral fluid material molecule processing unit configured inside the eco-friendly ultrapure water extractor configured according to the seventh embodiment and the seventh embodiment of the present invention;
10 is a perspective view of an eco-friendly eco-friendly ultrapure water extractor configured according to the eighth embodiment and eighth embodiment of the present invention;
11 is a perspective view showing a state in which a material catalysis inducing material is additionally configured inside the nature-friendly eco-friendly ultrapure water extractor constructed according to the ninth embodiment and the ninth embodiment of the present invention;
12 is a photograph taken of an air striking unit that is changed and applied to each embodiment of the present invention;
13 is a perspective view of a nature-friendly eco-friendly ultrapure water extractor constructed according to an eleventh embodiment and an eleventh embodiment of the present invention, and FIG. A partial perspective view showing the middle part of the
15 is a perspective view of an eco-friendly eco-friendly ultrapure water extractor configured according to the twelfth embodiment and the twelfth embodiment of the present invention;
16 is a partial attempt showing the middle part of the eco-friendly eco-friendly ultrapure water extractor constructed according to the twelfth embodiment and the twelfth embodiment of the invention
17 is a perspective view of an eco-friendly, eco-friendly ultrapure water extractor configured according to the 14th embodiment and 14 of the present invention;
18 is a partial detailed view of a fluid material molecule processing unit configured inside the eco-friendly, eco-friendly ultrapure water extractor constructed according to the 14th embodiment and the 14th embodiment of the present invention;
19 is a perspective view of an eco-friendly, eco-friendly ultrapure water extractor configured according to the fifteenth embodiment and fifteenth of the present invention;
20 is a partial detailed view of a fluid material molecule processing unit configured inside the eco-friendly, eco-friendly ultrapure water extractor configured according to the fifteenth embodiment and the fifteenth embodiment of the present invention;
Figure 21 is a modified perspective view showing a state in which the shape of the air striking unit configured inside the eco-friendly eco-friendly ultrapure water extractor is changed according to the fifteenth embodiment and each other embodiment of the present invention;
22 is a modified perspective view showing a state in which the configuration of the air striking unit configured in the interior of the eco-friendly eco-friendly ultrapure water extractor is changed according to the fifteenth embodiment and each other embodiment of the present invention;
23 is a perspective view of an eco-friendly, eco-friendly ultrapure water extractor configured according to the sixteenth embodiment and the sixteenth of the present invention;
24 is a perspective view of an eco-friendly, eco-friendly ultrapure water extractor configured according to the seventeenth embodiment and the seventeenth of the present invention;
25 is a perspective view showing a state in which the rotating striking body configured in the interior of the eco-friendly ultrapure water extractor configured according to the 16th embodiment and the 16th embodiment of the present invention is configured differently;
26 is a perspective view showing a state in which the rotating striking body configured in the interior of the eco-friendly ultrapure water extractor configured according to the seventeenth embodiment and the seventeenth of the present invention is configured differently;
27 is a perspective view of an eco-friendly, eco-friendly ultrapure water extractor configured according to the 18th embodiment and 18th embodiment of the present invention;
28 is a perspective view of a nature-friendly eco-friendly ultrapure water extractor configured according to the 19th embodiment and 19th embodiment of the present invention;
29 is a perspective view of an eco-friendly, eco-friendly ultrapure water extractor configured according to the twentieth embodiment and the twentieth of the present invention;
30 is a perspective view of an eco-friendly, eco-friendly ultrapure water extractor configured according to the twenty-first embodiment and twenty-first of the present invention;
31 is a photograph showing the bonding state of the air striking unit and the material molecule separation induction unit to which each embodiment of the present invention is applied
32 is a perspective plan view virtually showing the arrangement sequence of material molecule processing units constructed according to a twenty-second embodiment of the present invention;
33 is a perspective view of an eco-friendly ultrapure water extractor constructed according to the 23rd embodiment and the 23rd embodiment of the present invention;
34, 35, 36, 39, 42, 43, 44, and 45 are a partial perspective view and a perspective view of an eco-friendly ultrapure water extractor constructed according to the 24th embodiment and the 24th embodiment of the present invention.
37 is a partial perspective view showing the 25th embodiment and the ultrapure water extractor constructed according to the 25th embodiment of the present invention, cut in the middle;
38 is a schematic perspective view of a twenty-sixth embodiment and an ultrapure water extractor constructed according to the twenty-sixth embodiment of the present invention;
40 is a schematic perspective view of a twenty-seventh embodiment of the present invention and an ultrapure water extractor constructed according to the twenty-seventh claim;
Figure 41 is a picture taken of the air striking unit applied to each embodiment of the present invention
46 is a perspective view showing the rear structure of the ultrapure water extractor applied to the twenty-ninth embodiment and the twenty-ninth embodiment of the present invention;

Next, the first embodiment and claim 1 of the present invention will be described as follows.

1 is a perspective view of a nature-friendly eco-friendly ultrapure water extractor constructed according to a first embodiment and claim 1 of the present invention, which will be described as follows.

Using the nature-friendly material molecule separation purifier constructed according to each embodiment of the present invention, it is possible to separate and process the fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity that are combined with the contaminated fluid material molecules. Water, seawater or brine, fish sauce, liquid seasonings, beverages, favorite foods such as green tea and black tea, milk or yogurt, all kinds of alcoholic beverages or coffee that people enjoy, or alcohol, nitrogen oxides or urea water; Silicon water or hydrogen water made by mixing silicon and water made by processing soil, limestone, or silica stone, or mineral pulverized product or pulverized product made by processing or pulverizing mineral rocks such as magnesium, zeolite, illite, germanium or silica stone A product made by diluting other types and a mixture made by mixing water or seawater, a mixture mixed with a product using the same, or a mixture made from a mixture of cesium and water, or a processed beverage or oil extracted from plants, animals, shellfish, crustaceans or fish Oil extracted from or mixtures made by processing its extracts, hydrogen water made by processing rocks, all kinds of chemicals or chemicals composed of liquids such as benzene, toloene, thinner, hydrochloric acid, hypochlorous acid, baking soda, hydrogen peroxide, or its Processed products, extracts, or processed foods, Western medicines, herbal medicines, herbal medicines, vinegar, alcohol, soy sauce, favorite foods such as coffee and tea, or liquids such as favorite beverages, and various oils extracted from plants. Various kinds of water used to manufacture confectionery and bread, oil for frying, food processing oil, or food processing, various water used to produce various products, various contaminants diluted with these substances, and contaminants diluted with these substances and abnormalities Separate processing by adding fluid material molecules with light specific gravity and fluid substances with heavy specific gravity combined with these material molecules listed in By being able to make these substances They are collectively referred to as "fluid material molecules".

In detail, all the rocks, minerals, plants, animals, fish, green vegetables, and liquids that exist on the earth, all fluid molecules, and crushed shellfish or oyster shells, crushed eggs, Fluid liquids such as red pepper paste, fish sauce, soybean paste, and ketchup are collectively referred to as "fluid substance molecules".

Mineral material refers to all kinds of rocks and soil components existing on Earth, non-ferrous metals, silica, germanium, illite, zeolite, and all mineral substances composed of rocks such as badnium, or adding liquid, seawater or water. These substances are collectively referred to as "fluid material molecules" because there are a number of processed and composed ones.

In addition, substances made by processing these mineral substances and liquid substances made by mixing with fluid substances such as water, seawater or vinegar are collectively referred to as "fluid substance molecules".

In addition, water, which is made by mixing or extracting various soil or rock-processed substances with fluid substances such as water, seawater, vinegar and alcohol, is collectively called fluid substance molecules.

In addition, all kinds of radioactive materials, such as cesium and uranium, and these material molecules and liquids are collectively referred to as fluid material molecules.

In addition, wastes left after use in nuclear power plants, equipment wastes, wastes generated from nuclear accidents, radioactive contaminated water, or processed products obtained by crushing these wastes to a size of 1mm to 20mm are collectively referred to as "fluid material molecules".

In this way, all substances are collectively referred to as fluid substance molecules. When processed using the eco-friendly, eco-friendly ultrapure water extractor constructed according to the present invention, the molecular weight of the substance with light specific gravity combined with all kinds of fluid substance molecules Since heavy material molecules can be separated and processed, all kinds of materials are collectively called fluid material molecules.

Therefore, it is natural that all of the material molecules with light specific gravity and material molecules with heavy specific gravity are separated and processed using other material molecules not listed above fall within the scope of the present invention.

In addition, it is combined with these mineral substances and put into the interior of the eco-friendly ultrapure water extractor constructed according to the present invention to change the properties of the fluid substance molecules, mineral substances, plant substances, animal substances, seafood substances, and All kinds of fish, animals and plants inhabiting the sea are collectively called “catalyst-free” and “filter-free”.

Plant material refers to all kinds of plants on the earth and plant materials collected from the sea can be applied or processed, so these materials are collectively referred to as "vegetable material".

In addition, all fluid material molecules use the action of the material molecule conservation instinct to maintain the crystal state of ultrapure water to shake off or detach the fluid material molecules with light specific gravity to obtain crystals of ultrapure water. The term "ultra-pure water" is a generic term for all kinds of fluid molecules.

In addition, all gases composed of gaseous substances such as nitrogen oxide, urea, nitrogen, nitrogen oxide, liquid nitrogen, hydrogen, oxygen, carbon dioxide, hydrogen peroxide, and tritium applied to each embodiment constituted according to the present invention are "gases" It is called "sexual substance molecule".

The reason is that it can be changed and applied according to the material to be processed.

In more detail, all materials have different masses, and when that mass and another mass come into contact with each other, material catalysis, material oxidation, material explosion, and material friction occur according to the principle of relativity. The eco-friendly ultrapure water extractor applied to the eco-friendly method of separating and processing fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity using natural actions is explained as follows.

1 is a perspective view of a nature-friendly material molecule separator constructed according to a first embodiment of the present invention, and FIG. 8 is a photograph taken of the shape of a material molecule supply plate applied to each embodiment of the present invention .

a structure in which a fluid material molecule storage (8888) is configured on one side of the inner side of the enclosure configured in the shape of a rectangle;

a structure in which an outlet 88 for discharging cold water and hot water, respectively, is coupled to one side of the fluidic material molecule storage 8888;

a structure of a fluid substance molecule processing unit 9999 configured on the other side of the fluid substance molecule storage 8888;

a structure in which a material molecule processing unit 104 for generating gravity is configured at a lower end of the fluid material molecule processing unit 9999 in a cylindrical structure;

A structure in which the air striking unit 200 is coupled to the air supply unit 201 inside the material molecule processing unit 104 for generating gravity at the lower end;

a structure in which a supply line 888 for supplying fluidic material molecules to the fluidic material molecule storage 8888 is coupled to the other side of the material molecule processing unit 104 for generating gravity at the lower end;

The supply line 888 has a structure in which a supply pump 8 for controlling the supply amount while pumping the fluid material molecules supplied from the material molecule processing unit 104 for generating gravity at the lower end in an upward direction is coupled to the supply line 888;

a structure in which a processing unit 103 for generating an intermediate gravity is coupled to an upper middle portion of the material molecule processing unit 104 for generating gravity at the lower end;

The upper portion of the processing unit for generating the intermediate gravity (103) is configured to be coupled to the upper processing unit (102) for generating the gravity;

A structure in which a rotary air striking unit 600 configured in the form of a spring and a plurality of air outlets 601 is coupled to the air supply unit 201 inside the processing unit 103 for generating intermediate gravity;

A structure in which the air striking unit 200 is coupled to the inner lower end of the upper gravity generating processing unit 102 in the horizontal direction;

In the upper part of the air striking unit 200, an air striking unit 200 that blows air in a vertical direction and facing form to strike and process fluid material molecules is combined with the air supply unit 201;

The upper water outlet 101 for discharging fluid material molecules having a light specific gravity is coupled to the other side of the upper processing unit 102 for generating gravity;

On one side of the upper gravity generating processing unit 102, an upper supply line 999 for supplying fluid material molecules is combined with a supply amount control valve to form a fluid material molecule with a light specific gravity and a fluid material molecule with a heavy specific gravity Nature-friendly eco-friendly process that separates and processes light-weight fluid material molecules and heavy-gravity fluid material molecules by inducing the action of gravity, material friction action, material explosion action, material scraping action, and material rejection action that they naturally generate We present an eco-friendly, eco-friendly ultrapure water extractor that is applied to the construction method.

Devices that are configured to produce ice or cold water and hot water can be changed any number of times, so the detailed structure is omitted.

In more detail, through the upper supply line 999, the upper processing unit 102 for generating gravity, the processing unit 103 for generating intermediate gravity, and the lower portion of the processing unit 104 for generating gravity into the inside of the material molecule processing unit 104 The fluid material molecules to be processed are continuously injected and at the same time through the air striking unit 200 and the rotary air striking unit 600 .

The upper supply line (999) by using the supply pump (8) coupled to the supply line (888) at the same time as processing by continuously injecting air or fluid substance molecules by continuously hitting the fluid substance molecules 75wt% to 99.9wt% of the total flow of fluidic material molecules flowing through the Ultrapure water maintaining the crystalline state of ultrapure water by separating the fluidic material molecules with light specific gravity and fluidic material molecules with heavy specific gravity combined with the contaminated fluidic material molecules by controlling the upper water outlet 101 to be discharged Presents the invention about a nature-friendly ultra-pure eco-friendly material molecule separator (99999) applied to an eco-friendly method for extracting fluid material molecules of

When all of the fluid substance molecules stored in the fluid substance molecule storage 8888 are filled, the fluid substance molecules introduced through the upper supply line 999 are supplied using an automatic control system that omits an additional configuration. After using the fluid substance molecules stored in the fluid substance molecule storage (8888) in a stopped state, the structure is configured to restart and use the ultrapure water production system configured to be operated repeatedly.

Each of the components applied to the present invention is not limited to a special structure because the size and capacity of each component can be configured differently according to the need and use.

Methods of processing light-specific fluidic material molecules and heavy-specific fluidic material molecules by operating the ultrapure water eco-friendly material molecule separator configured according to each embodiment of the present invention are substantially similar to those of the first embodiment of the present invention. It is to be operated and used instead of a detailed explanation.

Next, claim 2 of the present invention will be described as follows.

2 is a perspective view of a nature-friendly eco-friendly ultrapure water extractor configured according to a second embodiment and claim 2 of the present invention, and is configured as follows.

The structure of the material molecule processing unit 104 for generating gravity at the lower end configured at the lower end in the form of a circle;

a structure of the material molecule processing unit 104 for generating gravity at the lower end configured in a circular shape at the lower end of the fluid material molecule processing unit 9999;

The structure of the intermediate gravity generating processing unit 103 configured on the upper portion of the material molecule processing unit 104 for generating gravity at the lower end;

The structure of the upper processing unit 102 for generating gravity is configured at the upper end of the processing unit 103 for generating the intermediate gravity;

An empty space is formed inside the material molecule processing unit 104 for generating gravity at the lower end, the processing unit 103 for generating intermediate gravity, and the processing unit 102 for generating the upper gravity, and an air or fluid material is formed on the outer edge. a structure in which the air striking unit 200 having a plurality of ejection holes 557 for ejecting molecules is coupled to each other;

a structure in which an air supply unit 201 for supplying air or fluid material molecules is coupled to one side of the air striking unit 200;

a structure in which an upper water outlet 101 for discharging fluid material molecules having a light specific gravity is coupled to the other side of the upper end of the upper gravity generating processing unit 102;

A structure configured to combine the upper supply line 999 with the supply amount control valve on one side of the upper end of the upper gravity generating processing unit 102

a structure in which a fluidic material molecule storage 8888 is coupled to the other side of the lower end of the material molecule processing unit 104 for generating gravity at the lower end;

a structure in which a supply line 888 for supplying fluidic material molecules to the fluidic material molecule storage 8888 is coupled to the other side of the lower end of the material molecule processing unit 104 for generating gravity at the lower end;

In the supply line 888, a supply pump 8 that controls the supply amount while pumping the fluid material molecules supplied from the material molecule processing unit 104 for generating gravity at the lower end in an upward direction is coupled to the supply line 888, so that the specific gravity is light. By inducing the action of gravity, material frictional action, material explosion action, material knocking action, and material rejection action naturally generated by fluid material molecules and fluid material molecules with heavy specific gravity, fluid material molecules with light specific gravity and heavy specific gravity molecules We present an eco-friendly, eco-friendly ultrapure water extractor (99999) that is applied to an eco-friendly and eco-friendly method for separating and processing fluid material molecules.

The supply unit 201 refers to a pump configured to supply fluid material molecules or gaseous material molecules such as nitrogen or hydrogen and oxygen or air, and an electricity supply system and control system for operating the pump.

The structure of the nature-friendly eco-friendly material molecule separator 99999 applied to the present invention, respectively, can be modified in a very diverse way, such as a square, an octagon, or a rectangle.

In addition, the structure of the eco-friendly material molecule separator 99999 applied to each of the present invention can be changed in a very diverse way, such as a diamond or rhombic shape or a funnel shape that has different shapes of the upper and lower parts. Do.

The size, height and width of the nature-friendly eco-friendly material molecule separator 99999 coupled to each structure is not particularly limited because it can be configured by varying the specifications according to the material to be processed.

As another method of use, in the state in which the supply pump 8 is closed, the upper part of the material molecule processing unit for generating gravity 102 and the lower part of the material molecule processing unit 103 for generating gravity and the lower part processing the material molecules for generating gravity Using the supply unit 201 in a state in which the fluid material molecules to be processed are accommodated in the unit 104, the upper part of the material molecule processing unit for generating gravity 102 and the lower side of the material molecule processing unit for generating gravity ( 103) and gaseous material molecules such as air or hydrogen or oxygen or nitrogen are continuously supplied to the inside of the material molecule processing unit 104 for generating gravity at the lower end for 1 hour to 480,000 hours, so that the upper end gravity The material molecule processing unit 102 for generation, the material molecule processing unit 103 for generating gravity at the lower side, and the material molecule processing unit 104 for generating gravity at the lower end process the fluid material molecules accommodated in the inside, and then are closed. By operating the supply pump 8 located in the upper portion of the material molecule processing unit 102 for generating gravity, the lower portion of the material molecule processing unit 103 for generating gravity and the lower portion of the material molecule processing unit 104 for generating gravity There is a method of processing so that the properties of the fluid substance molecules with light specific gravity contained in the fluid substance molecules contained therein are changed.

It is natural that all of the changes and configurations of the nature-friendly eco-friendly material molecule separator (99999) applied to the present invention by varying the size and volume ratio fall within the scope of the present invention.

Next, claim 3 according to the third embodiment of the present invention will be described as follows.

3 is a perspective view of a nature-friendly eco-friendly ultrapure water extractor configured according to a third embodiment and claim 3 of the present invention, and FIG. 4 is an eco-friendly eco-friendly ultrapure water extractor configured according to a third embodiment and claim 3 of the present invention. It is a partial detail view of the fluid material molecule processing unit configured inside the

a structure in which a fluid material molecule storage (8888) is configured on one side of the inner side of the enclosure configured in the shape of a rectangle;

a structure in which an outlet 88 for discharging cold water and hot water, respectively, is coupled to one side of the fluidic material molecule storage 8888;

a structure in which the fluid material molecule processing unit 9999 is coupled to the inside of the other side of the fluid material molecule storage 8888 in the form of a rectangle;

a structure in which an upper water discharge pipe 101 for discharging fluid material molecules having a light specific gravity is coupled to the other side of the fluid material molecule processing unit 9999;

The upper end of the fluid material molecule processing unit 9999 has a structure in which an upper supply line 999 for injecting fluid material molecules composed of water, seawater or liquid is combined with a supply amount control valve 991;

In the middle of the fluidic material molecule processing unit 9999, a gravity generation strengthening unit 552 is coupled in the form of a funnel, and the upper end of the fluidic material molecule processing unit 9999 is blocked in a closed form, and the upper end is processed a structure in which the unit 303 is formed;

A structure in which a plurality of fluidic material molecule distribution holes 556 are formed at the lower end of the upper gravity generating reinforcing unit 552 configured in a funnel shape;

An empty space is formed in the lower end of the upper end of the upper gravity generating reinforcing unit 552, and a plurality of air outlets 557 are coupled around the air striking unit plate 5555 to combine the upper gravity. a structure coupled to the end of the generation strengthening unit 552 to be closed;

a structure in which an injection unit 553 for injecting gaseous material molecules is coupled to one side of the air striking unit plate 5555;

At the lower end of the air striking unit plate 5555, a lower gravity diffusion unit 551 having a plurality of fluid material molecule distribution holes 556 is combined in an upside down funnel to form an intermediate processing unit 302. a structure in which the lower end processing unit 301 is configured in such a way that the lower end of the fluid material molecule processing unit 9999 is sealed and blocked while bonding to form this;

a structure in which a supply line 888 for supplying fluidic material molecules to the fluidic material molecule storage 8888 is coupled to the other side of the lower end of the fluidic material molecule processing unit 9999;

In the supply line 888, a supply pump 8 that controls the supply amount while pumping the fluid substance molecules supplied from the fluid substance molecule processing unit 9999 in an upward direction is coupled to the fluidic substance having a light specific gravity. Fluid with light specific gravity Molecules of light and fluid with heavy specific gravity by inducing the action of gravity, material friction, material explosion, material slashing, and mass rejection naturally generated by material molecules and fluid material molecules We present an eco-friendly, eco-friendly ultrapure water extractor (99999) that is applied to an eco-friendly and eco-friendly method for separating and processing material molecules.

In detail, fluidic material molecules are introduced into the fluidic material molecule processing unit 9999 through the upper supply line 999, and the injection unit 553 is operated at the same time to operate the air striking unit plate 5555. A large amount of air is introduced into the inside of the fluid material molecule processing unit 9999 through the The fluid material molecules with light specific gravity are processed to be separated into parts, and are processed to be pushed upward through the fluid material molecule distribution hole 556 and at the same time combined with the supply line 888. 70wt% to 92wt% of the total amount of fluidic material molecules flowing in through the upper supply line 999 through the supply pump 8 compared to 100wt% of the fluidic material molecule storage 8888 through the supply line 888 An eco-friendly, eco-friendly water extractor that combines the remaining fluid material molecules with a light specific gravity that are pumped to the upper part and pushed up to the upper part by the material pushing action and the material scraping action at the same time so that they are discharged to the outside through the upper water discharge pipe 101. We present a nature-friendly eco-friendly ultrapure water extractor (99999) applied to an eco-friendly, eco-friendly extraction method that is configured to separate and extract fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity using

Next, claim 4 constructed according to the fourth embodiment of the present invention will be described as follows.

5 is a perspective view of a nature-friendly eco-friendly ultrapure water extractor configured according to a fourth embodiment and claim 4 of the present invention, and is configured as follows.

a structure in which a fluid material molecule storage (8888) is configured on one side of the inner side of the enclosure configured in the shape of a rectangle;

a structure in which an outlet 88 for discharging cold water and hot water, respectively, is coupled to one side of the fluidic material molecule storage 8888;

A structure in which an upper and lower exchangeable fluidic material molecule processing unit 7000 cross-configured in a ∪∩ shape is combined inside the other side of the fluidic material molecule storage 8888;

a structure in which an upper supply line 999 for injecting fluidic material molecules is coupled to a supply amount control valve 991 on the other upper portion of the upper and lower exchangeable fluidic material molecule processing unit 7000;

a structure in which an upper water discharge pipe 101 for discharging fluid material molecules having a light specific gravity is coupled to one side of the upper and lower exchangeable fluid material molecule processing unit 7000;

At one end of the upper and lower exchangeable fluid material molecule processing unit 7000, a supply line 888 for supplying fluid material molecules to the fluid material molecule storage 8888 and a supply pump 8 are coupled. structured structure;

Gas material molecules or fluid material molecules are supplied to the inside of the upper and lower exchangeable fluidic material molecule processing unit 7000 to flow into the upper and lower exchangeable fluidic material molecule processing unit 7000 . A structure in which a plurality of air striking units 200 that act to hit the fluidic material molecules are combined;

Air acting to supply air or fluid material molecules to one side of the air striking unit 200 to strike the fluid material molecules flowing into the upper and lower exchangeable fluid material molecule processing unit 7000 a structure in which the supply unit 201 is coupled;

Discharge control valves (7003,7004) have outlets (7001,7002) for discharging fluid and gaseous material molecules to the upper and lower portions of the upper and lower exchangeable fluidic material molecule processing unit (7000) It combines with and induces the action of gravity, material friction, material explosion, material slashing, and material rejection, which are naturally generated by fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity. We present a nature-friendly, eco-friendly ultrapure water extractor (99999) applied to an eco-friendly and eco-friendly method of separating and processing material molecules and fluid material molecules with heavy specific gravity.

The reason for combining the discharge port 7001,7002 with the discharge control valve 7003,7004 to the upper and lower portions of the upper and lower exchangeable fluid material molecule processing unit 7000 is the upper and lower exchange Naturally generated when the fluidic material molecules flowing in through the fluidic material molecule processing unit 7000 are processed by the gaseous material molecules flowing in through the air supply unit 201 and the air striking unit 200 . This is for discharging fluid and gaseous material molecules with light specific gravity.

In addition, the material constituting the discharge control valve (7003,7004) can be configured to be changed by a solenoid valve type, and it is possible to change the configuration so that it can be adjusted using a comprehensive control system configured separately.

Next, claim 5 constructed according to the fifth embodiment of the present invention will be described as follows.

6 is a perspective view of a nature-friendly eco-friendly ultrapure water extractor configured according to a fifth embodiment and claim 5 of the present invention, and is configured as follows.

As a slightly modified embodiment of the fourth embodiment, the configuration of the upper and lower exchangeable fluid material molecule processing unit 7000 is curved in the horizontal direction and cross-configured in a zigzag manner. ) is presented

Next, claim 6 configured according to the sixth embodiment of the present invention, which is configured differently according to the fourth embodiment of the present invention, will be described as follows.

7 is a perspective view of an eco-friendly, eco-friendly ultrapure water extractor in which the configuration of the upper and lower exchangeable material molecule processing unit configured according to the sixth embodiment of the present invention and claim 6 is trapezoidal, and is configured as follows.

We present a nature-friendly eco-friendly ultrapure water extractor (99999) which is cross-configured in a stepped zigzag manner in a trapezoidal shape while bending the configuration of the upper and lower exchangeable fluid material molecule processing unit 7000 in the horizontal direction.

Next, the seventh embodiment and claim 7 of the present invention will be described as follows.

8 is a perspective view of a nature-friendly eco-friendly ultrapure water extractor constructed according to the seventh embodiment and claim 7 of the present invention, and FIG. 9 is a nature-friendly eco-friendly ultrapure water extractor constructed according to the seventh embodiment and claim 7 of the present invention As a partial detail view of the polyhedral fluid material molecule processing unit configured in the interior, it will be described as follows.

a structure in which a fluid material molecule storage (8888) is configured on one side of the inner side of the enclosure configured in the shape of a rectangle;

a structure in which an outlet 88 for discharging cold water and hot water, respectively, is coupled to one side of the fluidic material molecule storage 8888;

In the other side of the fluidic material molecule storage (8888), the upper part is configured in the form of a hexahedron and the lower part is a polyhedral fluidic material molecule processing unit (900) coupled in the form of a circular pipe. Although the hexagonal shape is presented, it is possible to change the configuration to an octagon, a circle, or an 18-sided shape.

At the lower end of the polyhedral fluid material molecule processing unit 900, when the fluid material molecules descend or rise while moving left and right, the fluid material molecules having a light specific gravity and the fluid material molecules having a heavy specific gravity are moved to the upper layer part and the lower layer part It is a structure in which a plurality of movement guide plates 801 acting as possible are coupled to each other.

Depending on the material to be processed, the number of components can be greatly increased.

a structure in which an upper water discharge pipe 101 for discharging fluid material molecules having a light specific gravity to the outside is coupled to the other side of the polyhedral fluid material molecule processing unit 900;

In the upper end of the polyhedral fluid material molecule processing unit 900, an upper supply line 999 for injecting fluid material molecules composed of water, seawater, or liquid is combined with a supply amount control valve;

Fluid material molecules or gaseous material molecules are ejected into each of the polyhedral parts of the polyhedral fluid material molecule processing unit 900 to flow into the polyhedral fluid material molecule processing unit 900 . It is a structure in which the ejection unit 800, which acts to separate the fluid material molecules having a light specific gravity and the fluid material molecules having a heavy specific gravity by hitting them, is combined.

The type of material ejected through the ejection unit 800, which is combined for each facet, is a mixture made by mixing a mineral substance with a fluid substance molecule, a mineral mixture made by processing these substances, or a fluid substance molecule made from a mineral liquid It is possible to change the configuration to eject different components of gaseous material molecules and fluid material molecules, and it is possible to combine several ejection units 800 per side.

The reason is that it can be configured by changing the type of material as much as possible depending on the material to be processed.

On the other side of the lower end of the polyhedral fluidic material molecule processing unit 900, the fluidic material molecules processed inside the polyhedral fluidic material molecule processing unit 900 are supplied to the fluidic material molecule storage 8888. By coupling the line 888 and the supply pump 8, respectively, the action of gravity, material friction action, material explosion action, and material cut-off action naturally generated by fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity We present a nature-friendly, eco-friendly ultrapure water extractor (99999) that is applied to an eco-friendly and eco-friendly method that separates and extracts fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity by inducing a substance rejection effect.

One side of the polyhedral fluid material molecule processing unit 900 has a structure in which a supply system for supplying gaseous material molecules or fluid material molecules is coupled.

The supply pump 8 has a structure configured to be combined with a solenoid valve.

In another embodiment, the supply amount is controlled in a state in which water, seawater, salt water, or a mineral mixture extracted from mineral substances, a vegetable mixture extracted from plants, and an animal mixture extracted from animals are put in the polyhedral fluid material molecule processing unit In a state in which the polyhedral fluid material molecule processing unit 900 is closed using a valve and the supply pump 8, fluid material molecules or gaseous material molecules are injected using the ejection unit 800 to the polyhedron There is a method of processing by hitting the fluid material molecules put into the inside of the fluid material molecule processing unit 900 for 24 hours to 48,000 hours.

Next, the eighth embodiment and claim 8 of the present invention will be described as follows.

10 is a perspective view of an eco-friendly, eco-friendly ultrapure water extractor configured according to the eighth embodiment and claim 8 of the present invention, which will be described as follows.

a structure in which a fluid material molecule storage (8888) is configured on one side of the inner side of the enclosure configured in the shape of a rectangle;

a structure in which an outlet 88 for discharging cold water and hot water, respectively, is coupled to one side of the fluidic material molecule storage 8888;

a structure in which the fluidic material molecule processing unit 500 is coupled to the inside of the other side of the fluidic material molecule storage (8888) in the form of a rectangle;

a structure in which an upper water discharge pipe 101 for discharging fluid material molecules having a light specific gravity to the outside is coupled to one side of the fluid material molecule processing unit 500;

At the upper end of the fluid material molecule processing unit 500, an upper supply line 999 for injecting fluid material molecules composed of water, seawater, or liquid is combined with a supply amount control valve 991;

The upper end of the fluidic material molecule processing unit 500 by coupling the gravity generating strengthening unit 502 in the form of a funnel in the middle of the fluidic material molecule processing unit 500 and coupling the blocking plate 522 to the outer peripheral surface. A structure configured to form an upper end processing unit 504 while the portion is blocked in a closed form;

The structure in which the intermediate material molecule processing unit 555 is coupled in a circular shape to the lower end of the upper gravity generation strengthening unit 504 configured in the funnel shape;

A plurality of fluid material molecule distribution holes 5567 that act to eject gaseous material molecules or fluid material molecules are configured on the outer peripheral surface of the intermediate material molecule processing unit 555 in a form in which an empty space is formed inside. a structure in which the air striking unit plate 5555 is coupled to the supply unit 5566;

The lower end gravity diffusion unit 501 is coupled to the lower end of the intermediate material molecule processing unit 555 in an inverted funnel shape, and at the same time a sealing plate 522 is coupled to the outer peripheral surface of the fluid material molecule processing unit 500 ) structure in which the lower end processing unit 503 is configured in a form in which the lower end is sealed and blocked;

a structure in which a supply line 888 for supplying fluid substance molecules to the fluid substance molecule storage 8888 is coupled to the other side of the lower end of the fluid substance molecule processing unit 500;

In the supply line 888, a supply pump 8 that controls the supply amount while pumping the fluid substance molecules supplied from the fluid substance molecule processing unit 500 in an upward direction is coupled to the fluidic substance having a light specific gravity. Fluid with light specific gravity Molecules of light and fluid with heavy specific gravity by inducing the action of gravity, material friction, material explosion, material slashing, and mass rejection naturally generated by material molecules and fluid material molecules We present an eco-friendly, eco-friendly ultrapure water extractor (99999) that is applied to an eco-friendly and eco-friendly method of separating and processing material molecules.

In more detail, the fluid material molecules are injected into the inside of the fluid material molecule processing unit 500 through the upper supply line 999 and coupled with the air striking unit plate 5555 at the same time. The gaseous material molecules are continuously supplied through the supply unit 5566 in When operating to pump 60wt% to 85wt% to the fluidic material molecule storage (8888) based on 100wt% of the total amount of inflow, 15wt% to 40wt% of the fluidic material molecules with a light specific gravity are pushed It acts to be discharged to the outside through the upper water discharge pipe 101 configured on the upper side of the fluid material molecule processing unit 500 by the action and the material leak action, so that the specific gravity coupled with the fluid material molecule is light. We present an eco-friendly, eco-friendly ultrapure water extractor (99999) that is configured to separate and process fluid substance molecules and fluid substance molecules with heavy specific gravity.

Next, claim 9 constructed according to the ninth embodiment of the present invention will be described as follows.

11 is a perspective view showing a state in which a material catalysis inducing material is additionally configured inside the nature-friendly eco-friendly ultrapure water extractor configured according to the ninth embodiment and the ninth embodiment of the present invention, and FIG. 12 is each embodiment of the present invention It is a picture taken of the deformed shape of the applied air striking unit plate and is configured as follows.

Material friction action and material catalysis inducer means all liquid materials, solid materials, fluid materials, fluid foods, liquid foods, all mineral substances and these mineral substances existing on the earth. Mineral substances made, all plant substances inhabiting the earth's surface or in the sea, plant substances made by processing these plant substances, and materials using animals or fish or processing these animals or fish are collectively referred to as "material catalysis" referred to as “inducing material”.

The reason for this generic name is that since all substances have their own components, the material friction, material catalysis, and material explosion occur immediately when these materials are forcibly brought into contact, and the existing inherent components change. This is to provide beneficial substances to people or animals who want to use these substances made through this substance contact action by using the properties of being.

A plurality of material catalysis inducing materials (9988) composed of mineral substances, vegetable substances or animal substances are installed at the bottom of the eco-friendly eco-friendly ultrapure water extractor (99999) to the inside of the eco-friendly eco-friendly ultrapure water extractor (99999). We present an eco-friendly, eco-friendly ultrapure water extractor that acts to change the material properties of the incoming fluid molecules.

Even if it is not on the floor, it can be installed on the side or on the side.

Next, claim 10 constructed according to the tenth embodiment of the present invention will be described as follows.

Through the upper supply line 999 configured in combination with the eco-friendly eco-friendly ultrapure water extractor 99999, the fluid substance molecules composed of seawater, contaminated water, or liquid such as milk, alcohol, vinegar, or soy sauce are transferred to the fluid. Discharge discharged through the supply line 888 compared to 100wt% of the total amount introduced into the inside of the fluidic material molecule processing unit through the upper supply line 999 in a state of being injected into the inside of the sexual material molecule processing unit After configuring the structure of the supply line 888 to discharge 70wt% to 99.99wt% of the capacity, 100wt% of the total amount of inflow flowing into the inside of the fluid material molecule processing unit through the upper supply line 999 In contrast, by using the supply pump 8 coupled to the supply line 888, 70wt% to 99.99wt% of the fluidic substance molecules having a heavy specific gravity in the lower part of the fluidic substance molecule processing unit are transferred to the fluid. By controlling it to be pumped to the sexual material molecule storage (8888), 70wt% to 99.99wt% of the fluid material molecules having a heavy specific gravity are continuously discharged to the fluid material molecule storage (8888), and the remaining 0.01wt% with a light specific gravity ~30wt% of the fluidic material molecules are combined with the fluidic material molecules with a light specific gravity using a double separation and discharge structure that works to discharge to the outside through the upper water discharge pipe 101 and We present an eco-friendly, eco-friendly ultrapure water extractor (99999) that is applied to an eco-friendly, eco-friendly method of separating and processing fluid molecules with heavy specific gravity.

In more detail, the size criterion of the upper supply line 999 would be 100 wt%.

When the size of the supply line 888 is configured in a size of 70wt% to 99.99wt%, 70wt% to 99.99wt% of the fluidic material molecules flowing into the upper supply line 999 are 70wt% to 99.99wt%. It is pumped to the fluidic material molecule storage 8888 through the line 888, and the remaining 0.01wt% to 30wt% of the light fluidic material molecules are the upper layer water configured on the upper side of the fluidic material molecule processing unit. Nature applied to nature-friendly eco-friendly method of separating and processing fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity using a double separation/discharging structure configured to be discharged to the outside through the outlet 101 Presents an eco-friendly, eco-friendly ultrapure water extractor (99999).

Next, claim 11 according to the eleventh embodiment of the present invention will be described.

13 is a perspective view of a nature-friendly eco-friendly ultrapure water extractor constructed according to an eleventh embodiment and an eleventh embodiment of the present invention, and FIG. It is a partial perspective view showing the middle part of the

The structure in which a horizontal partition 2000 is configured on the inner bottom of the ultrapure water extractor 99999 that is configured in the shape of a rectangle and the fluidic material molecule overflow port 250 is coupled to the upper side to separate and extract the fluidic material molecules ;

At the upper end of the horizontal partition (2000), a plurality of partitions (100, 220, 320, 330, 400, 500) are structured in a partition structure;

The number of components of the partition can be increased or changed by changing the height.

At the lower end of the partition (100, 220, 320, 330, 400, 500), the low-rise water passage (110, 210, 310331, 410, 510) is configured with a step difference, respectively.

The width and size of the composition can be changed and applied according to the material to be processed.

In the middle of the partitions (100, 220, 320, 330, 400, 500), a structure in which an intermediate passage 860 is configured, respectively.

The reason for configuring the intermediate movement passage 860 is a structure configured to facilitate the upward and downward movement of the fluid material molecules having a light specific gravity and the fluid material molecules having a heavy specific gravity.

Inside the partition (100, 220, 320, 330, 400, 500) is a structure in which a movement guide plate 840 is configured, respectively;

After configuring the lower end blocking plate 370 so that the lower end is blocked in a closed form inside the partition (100, 220, 320, 330, 400, 500), the lower end at the upper end of the lower end blocking plate 370 has a wide structure, and the upper portion is narrow. a structure in which the upper reducer pipe 305 is combined;

a structure in which a fluidic material molecule front part movement path 516 is configured on the front part of the upper reducer pipe 305;

A structure in which the air striking unit 200 having a gas ejection hole 350 configured therein is coupled to the upper end of the upper reducer pipe 305;

Since the supply device for supplying air to the air striking unit 200 has a structure of course, the illustration of the detailed structure is omitted.

In addition, fluid material molecules such as water or seawater are supplied through the air striking unit 200 inserted between the partitions to generate a material explosion action between the fluid material molecules and the fluid material molecules. Changeable configuration is possible.

a structure in which an upper reducer pipe 306 is formed in the upper end of the air striking unit 200 in which the lower end has a narrow shape and the upper end has a wide form;

It is a structure in which the upper rear portion of the upper rear portion of the reducer pipe 306 has a fluid material molecule movement passage 515 configured therein.

The reason for configuring the positions of the front portion of the fluid material molecule movement passage 516 and the upper rear portion of the fluid material molecule movement passage 515 to face in opposite directions is that they are combined with the fluid material molecules with heavy specific gravity. This is to induce the fluid material molecules with a light specific gravity to be easily separated.

a structure in which the upper end blocking plate 360 is coupled to form a closed structure while blocking the upper portion at the upper end of the upper reducer pipe 306;

a structure in which a discharge pipe 880 coupled to a discharge control valve 87 is configured at the other lower end of the ultrapure water extractor 99999;

A structure in which an upper water discharge pipe 101 for discharging fluid material molecules having a light specific gravity is coupled to the other upper side of the ultrapure water extractor 99999;

A nature-friendly ultrapure water extractor 99999 is provided in which an upper supply line 999 for injecting fluid material molecules is coupled to the upper end of one side of the ultrapure water extractor 99999

Fluid material molecules are continuously injected through the upper supply line 999 into the ultrapure water extractor 99999 configured as described above, and gaseous material molecules are continuously injected through the air striking unit 200 at the same time. The fluid injected through the upper supply line 999 through the discharge pipe 880 coupled to the discharge control valve 87 while releasing the fluid material molecules with a light specific gravity coupled with the fluid material molecules. When the discharge control valve 87 is adjusted to discharge 80wt% to 99wt% of the total inflow of the sexual material molecules 100wt%, the remaining 1wt% to 20wt% of the light fluidic material molecules exceed the fluidic material molecules We propose an eco-friendly ultrapure water extractor 99999 configured to separate and process the bedding 250 and the upper water discharge pipe 101 to the outside.

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

15 is a perspective view of a nature-friendly eco-friendly ultrapure water extractor constructed according to the twelfth embodiment and claim 12 of the present invention, and FIG. As a partial perspective view, it is composed as follows.

The structure of the material molecule processing units (901, 902, 903, 904, 905, 906) each configured in a rectangular shape, inclined in one side and the other direction, and in a shape in which a step is formed.

However, it can be configured in a hexagonal or circular structure, and the width or size can be configured by changing the number of components according to the material to be processed.

A structure in which the upper water discharge pipe 101 for discharging fluid material molecules having a light specific gravity is respectively coupled to the other upper side of the material molecule processing unit (901, 902, 903, 904, 905, 906).

The reason that the structure of the material molecule processing unit (901,902,903,904,905,906), each of which is inclined from one side to the other, is inclined from one direction to the other, is that the fluid material molecules naturally move from the upper direction to the lower side by the action of gravity. It is configured to be inclined to facilitate movement in the direction

a structure in which an upper supply line 999 for injecting fluid material molecules is coupled to an upper portion of the material molecule processing unit 901;

The material molecule processing unit ( a structure in which the lower end moving passage 700 is coupled to the material molecule processing unit 902 in a inclined form in 901);

The reason why the lower end movement passage 700 is inclined from one side to the other is to be inclined in order to facilitate movement from the upper direction to the lower direction naturally by the action of gravity.

a structure in which an intermediate movement passage 900 for moving the fluid material molecules having a heavy specific gravity and fluid material molecules having a light specific gravity up and down is coupled to the middle part of the material molecule processing units 901 and 902;

Low-layer water with a heavy specific gravity flowing into the material molecule processing unit 902 between the lower ends of the material molecule processing units 902 and 903 flows down in the direction of the material molecule processing unit 903. a structure in which the passage 800 is coupled;

a structure in which an intermediate passage 900 is coupled to the middle portion of the material molecule processing units 902 and 903;

a structure in which the lower end of the material molecule processing unit (903) is coupled to the lower end of the movement passage (700) in an inclined shape so that the fluid material molecules flow down in the direction of the lower end of the material molecule processing unit (904);

a structure in which an intermediate movement passage 900 is coupled to an intermediate portion of the material molecule processing units 903 and 904;

Low-floor water with a heavy specific gravity flowing into the material molecule processing unit 904 between the lower ends of the material molecule processing units 904 and 905 flows down in the direction of the material molecule processing unit 905. a structure in which the passage 800 is coupled;

a structure in which an intermediate movement passage 900 is coupled to the intermediate portion of the material molecule processing units 904 and 905;

a structure in which the lower end movement passage 700 is coupled in an inclined shape so that the fluid material molecules flow down from the lower end of the material molecule processing unit 905 to the lower end of the material molecule processing unit 906;

a structure in which an intermediate movement passage 900 is coupled to an intermediate portion of the material molecule processing units 905 and 906;

The lower end blocking plate 370 is constructed so that the lower end of the material molecule processing unit (901,902,903,904,905,906) is closed in a sealed form inside the material molecule processing unit (901, 902, 903, 904, 905, 906), which is inclined in the left and right directions, respectively, and the left and right steps are formed. A structure in which the upper reducer pipe 305 is coupled to the upper end of the blocking plate 370, the lower end having a wide structure and the upper end having a narrow form;

a structure in which a fluidic material molecule front part movement path 516 is configured on the front part of the upper reducer pipe 305;

a structure in which an air striking unit 200 having a gas ejection hole 350 configured therein is coupled to the upper end of the upper reducer pipe 305;

a structure in which an upper reducer pipe 306 is formed in the upper end of the air striking unit 200 in which the lower end has a narrow shape and the upper end has a wide form;

a structure in which a fluidic material molecule transfer path 515 is formed on the rear surface of the upper reducer pipe 306;

We present a nature-friendly ultrapure water extractor 99999 in which the upper part blocking plate 360 is coupled to form a closed structure while blocking the upper part on the upper part of the upper reducer pipe 306.

The reducer refers to a pipe in which one side or the upper side has a wide shape and the lower side has a narrow shape.

Next, the thirteenth embodiment and claim 13 of the present invention will be described as follows.

40 is a schematic perspective view of an ultrapure water extractor constructed according to a thirteenth embodiment and a thirteenth embodiment of the present invention, and FIG.

The upper side is a wide structure and the lower side is the structure of the primary fluid material molecule processing unit 111 configured in the form of a narrow cone;

However, it is possible to change the configuration in the form of a square, rhombus, or hexagon.

In the next step of the primary fluid material molecule processing unit 111, the secondary fluid material molecule processing unit 222 has a narrow shape in the upper side, a wide shape in the middle in a jar shape, and a narrow rhombic shape at the lower end. The structure of the fluid material molecule processing unit 9999 configured with a difference;

The structure of the nature-friendly ultrapure water extractor (99999) configured with a continuous step step difference in the structure of the fluid material molecule processing unit (9999);

The reason that each step is formed with a step difference is a structure to facilitate movement of molecules of a fluid material such as water in the downward direction.

Between the primary fluid material molecule processing unit 111 and the secondary fluid material molecule processing unit 222, the fluid material molecules having a light specific gravity act to float upward by the action of gravity and at the same time, the specific gravity The structure in which the upper and lower cross movement passages 896 and 897 of the material molecules act to move in the downward direction by the action of gravity for these heavy, clean fluid material molecules;

The first fluidic material molecule processing unit 111 and the second fluidic material molecule processing unit 222 are respectively coupled to the material molecule transfer passages 777 between the lower ends of the fluidic material molecule processing unit 222 so that the fluid material molecules with heavy specific gravity are processed in the next step. While acting to move to the lower part of the fluid material molecule processing unit 9999 configured in the The structure of the nature-friendly eco-friendly ultrapure water extractor (99999) configured to rise in the direction;

The upper other side of the primary fluid material molecule processing unit 111 and the secondary fluid material molecule processing unit 222 discharges fluid material molecules with light specific gravity.

a structure in which the upper water discharge pipe 101 is coupled to each other;

At the lower end of the primary fluid material molecule processing unit 111 and the secondary fluid material molecule processing unit 222, the fluid material molecules collected at the lower end are hit to form a fluid material molecule with a light specific gravity and a fluid with a heavy specific gravity. It is a structure in which each of the striking units 85 acting to separate the sexual material molecules is constituted.

The structure of the striking unit 85 can be applied to an ultrasonic striking method using electromagnetic waves, an impeller striking method, or a turbo striking method.

a structure in which an upper supply line 999 for injecting fluidic material molecules is coupled to an upper side of the first fluidic material molecule processing unit 111;

A structure in which a supply line 99 for injecting fluid material molecules with a strong pressure of 1 bar to 3000 bar is coupled to the other upper side of the primary fluid material molecule processing unit 111;

The reason for configuring to inject the fluid material molecules through the upper supply line 999 and the supply line 99 is to inject the fluid material molecules at normal pressure through the upper supply line 999 When fluid material molecules are injected with a strong pressure through the supply line 99 in the state of Material molecule separation action in which light and heavy fluid material molecules bonded to fluid material molecules are automatically separated in the up and down directions by the action of gravity It is a structure for easily separating and extracting polluted fluid molecules with light specific gravity and clean fluid molecules with heavy specific gravity.

Although 1 bar to 3000 bar pressure is suggested, it is not limited to a special number because it can be changed and applied as needed.

The technology of processing or separating and extracting heavy fluid material molecules and light fluid material molecules using these material friction and material collision actions presented in the present invention is a theory proposed by the present inventor for the first time in the world. It is natural that all of the different strengths fall within the scope of the present invention.

On the other side of the lower end of the fluid material molecule processing unit 9999, a discharge pipe 88 and a discharge control valve 87 for discharging fluid material molecules with heavy specific gravity collected at the lower end are configured to form a fluid material with a light specific gravity We present a nature-friendly ultrapure water extractor (99999) that works to separate molecules and fluidic material molecules with heavy specific gravity.

In more detail, the upper supply line ( 999) and the supply line 99, assuming that the total amount of inflow is 100wt%, 70wt% ~ 90wt% of the amount of discharge discharged through the discharge pipe 88 is discharged, the remaining surplus fluidity The material molecules are automatically transferred to the fluid material molecule processing unit through the upper water discharge pipe 101 coupled to the primary fluid material molecule processing unit 111 and the secondary fluid material molecule processing unit 222 . Acting to be discharged to the outside of (9999), fluid material molecules with heavy specific gravity are discharged through the discharge pipe 88 and collected for use or reprocessing, while fluid material molecules with light specific gravity are discharged from the upper water We present an eco-friendly ultrapure water extractor (99999) configured to be discharged through the pipe (101) for disposal or to be collected and reprocessed.

Next, claim 14 according to the fourteenth embodiment of the present invention will be described as follows.

17 is a perspective view of a nature-friendly eco-friendly ultrapure water extractor configured according to the 14th embodiment and 14 of the present invention, and FIG. 18 is an eco-friendly eco-friendly ultrapure water extractor configured according to the 14th embodiment and claim 14 of the present invention. It is a partial detail view of the fluid material molecule processing unit configured inside the

a structure of the lifting unit 6060 configured in a ∪-shape;

In the state in which the upper reducer pipe 300 is configured in a state where the upper portion is wide and the lower portion is narrow in the interior of the lifting unit 6060, the upper portion at the lower end of the upper reducer pipe 300 is narrow The lower part is configured to combine the lower reducer pipe 3030 configured in a wide shape so that the fluid material molecules with heavy specific gravity move in the downward direction by sealing the lower part of the lifting unit 6060 to have a light specific gravity. the structure of the lifting unit 6060, which acts to move the fluid material molecules in an upward direction and at the same time act to move the fluid material molecules having a heavy specific gravity in a downward direction;

a structure in which upper water discharge pipes 101 for discharging fluid material molecules having light specific gravity to the outside are coupled to the other side of the lifting unit 6060;

Secondary processing composed of an ∩-shape on the other side of the lifting unit 6060 in which the ejection unit 86 for ejecting gaseous material molecules or fluid material molecules is respectively coupled to the lower end of the lifting unit 6060 a structure of the fluid material molecule processing unit 7070 configured in combination with the unit 8080;

In the interior of the secondary processing unit 8080, an upper reducer pipe 300 having a wide upper portion and a narrow lower portion is configured to seal the upper portion of the secondary processing unit 8080, so that the specific gravity is heavy. In a state in which the fluidic material molecules are guided to move in the lower direction and at the same time, the fluidic material molecules having a light specific gravity are configured to move in the upper direction, the upper portion at the lower end of the upper reducer pipe 300 has a narrow shape and the lower portion The part is configured to combine the lower reducer pipe 3030 composed of a wide shape

Thus, the fluid material molecules having a light specific gravity are guided to move in the upward direction, and at the same time, the fluid material molecules having a heavy specific gravity are moved downward by sealing the upper part of the secondary processing unit 8080 to move the fluid with a light specific gravity. The secondary processing unit 8080, which acts to move the sexual material molecules in the upward direction, causes the fluid material molecules with heavy specific gravity to move in the downward direction by using the structure of the fluid material molecule separation unit (3000). bonding structure;

Combination structure of nature-friendly ultrapure water extractor 99999 sequentially configured using the fluid material molecule processing unit 7070 configured with a step difference from one direction to the other in a stepwise form;

The other side 20 cm of the fluid material molecule processing unit 7070 sequentially composed of clean fluid material molecules with heavy specific gravity collected at the lower end of the other side of the fluid material molecule processing unit 7070 configured with a step difference, respectively. a structure in which the lower part of the movement passage 600, which acts to move the part of ~2m, is sequentially combined;

a structure in which an intermediate movement passage 660 that acts to move the fluid material molecules moving to the middle part of the fluid material molecule processing unit 7070 configured with a step difference, respectively, in the left and right directions is formed;

A striking unit 85 that acts to strike the fluid material molecules collected at the lower end of the fluid material molecule processing unit 7070 configured with a step difference, respectively, using gas or fluid material molecules structure;

A nature-friendly combination of a discharge pipe 880 coupled with a discharge control valve 87 for discharging fluid material molecules with heavy specific gravity to the lower end of one side of the fluid material molecule processing unit 7070 configured at the end Presents an ultrapure water extractor (99999)

The reason for configuring the secondary processing unit 8080 in the ∩-shape and the structure of the rising unit 6060 configured in the ∪ shape is the material friction action that occurs naturally when the material molecules come into contact with the material molecules. and to promote material explosion.

The structure of the ejection unit 86 and the striking unit 85 is a detailed structure because the structure is configured by changing the impeller shape or the method of striking by spraying air or the structure of striking by spraying fluid material molecules such as water Omit the city of

In addition, since the supply structure for supplying fluid material molecules such as air or water to the ejection unit 86 and the striking unit 85 is a natural structure, the detailed structure is omitted.

A nature-friendly combination of a discharge pipe 880 coupled with a discharge control valve 87 for discharging fluid material molecules with heavy specific gravity to the lower end of one side of the fluid material molecule processing unit 7070 configured at the end Presents an ultrapure water extractor (99999)

Next, claim 15 according to the fifteenth embodiment of the present invention will be described as follows.

19 is a perspective view of a nature-friendly eco-friendly ultrapure water extractor constructed according to a fifteenth embodiment and a fifteenth embodiment of the present invention, and FIG. It is a partial detailed view of a fluid material molecule processing unit configured in the interior of It is a modified perspective view showing a state in which the shape of It is a modified perspective view showing the configured state, and is configured as follows.

The upper part has a structure of an upper fluid material molecule processing unit 5005 configured in a circular straight shape;

The lower portion of the upper fluid material molecule processing unit 5005 is inclined from the other side to one side of 20 degrees to 70 degrees, and the lower part fluid material molecule processing unit 5000 is composed of a plurality of sequential steps. structure;

From the lower end of the lower fluid material molecule processing unit 5000, which is sequentially configured at the lower end of the upper fluid material molecule processing unit 5005, it is continuously coupled with a height of 20 cm to 150 cm in the upward direction with a step difference From the lower part of the lower part fluid material molecule processing unit (5000), the upper side of the lower part fluid material molecule processing unit (5000), in which the fluid material molecules with heavy specific gravity stored in the lower part of the lower part fluid material molecule processing unit (5000) are combined with a sequential step difference. The structure of the lower part moving passage 5050 which is configured to be continuously moved in a portion of 20 cm to 150 cm;

The structure of the intermediate movement passage 5060 that acts to move the fluid material molecules between the middle portions of the lower portion fluid material molecule processing unit 5000 in the upper middle portion of the lower fluid material molecule processing unit 5000;

The upper portion of the lower portion of the fluidic material molecule processing unit 5000 by using the upper reducer pipe 300 having a wide upper portion and a narrow lower portion inside the lower portion fluidic material molecule processing unit 5000 is used. a structure of the fluid material molecule separation unit 3000 that seals the fluid material molecules having a light specific gravity to move upward and at the same time acts to move the fluid material molecules having a heavy specific gravity downward;

At the lower end of the upper reducer pipe 300, a lower reducer pipe 3030 having a narrow upper portion and a wide lower portion is coupled to the lower portion of the upper reducer pipe 300 so that the fluidic material molecules with heavy specific gravity are moved in the lower direction. a structure in which the lower end of the lower end fluidic material molecule processing unit 5000 is sealed to act;

a structure in which an upper supply line 999 for injecting fluidic material molecules into an upper portion of the lower portion fluidic material molecule processing unit 5000 configured first;

a structure in which upper water discharge pipes 101 for discharging fluid material molecules with light specific gravity are respectively coupled to the upper portion of the other side of the lower end fluid material molecule processing unit 5000, each having a sequential step difference;

A nature-friendly ultrapure water extractor (99999) in which a discharge pipe 880 coupled with a discharge control valve 87 is coupled to the lower end of the lower end fluidic material molecule processing unit 5000 having a sequential step difference, respectively. ) is presented

Depending on the material to be processed, the configuration can be changed even in a state lying in the horizontal direction, and the angle of inclination is not particularly limited. In addition, the number of components of the lower part fluid material molecule processing unit 5000 is not particularly limited because it can be configured by combining tens or thousands of pieces.

The difference in height between the lower end fluid material molecule processing unit 5000 and the other lower end fluid material molecule processing unit 5000, which is coupled with a sequential step difference, is a structure that is coupled in a stepwise manner with a difference of less than 2 m is used. It is good to do it, but it can be configured and used differently according to need.

In detail, based on 100wt% of the total amount injected through the upper supply line 999, 80wt% to 99wt% is discharged through the discharge pipe 880 compared to 100wt% of the total amount of the inflow. The discharge control valve 87 In a state in which the fluidic material molecules subject to gravity are continuously combined with a sequential step difference through the upper supply line 999 in a state in which the In the action of gravity and material pushing action and material cutting action generated while passing the upper reducer pipe 300 and the lower reducer pipe 3030, which are continuously injected, the upper part and the lower part have different widths, respectively. Through the lower end of each fluidic material molecule processing unit 5000, which is configured with a sequential step difference, the fluid material molecules having a heavy specific gravity by Finally, it is discharged to the outside through the configured discharge pipe 880, collected and used, and at the same time, the remaining 1wt% 20wt% of the fluidic material molecule having a light specific gravity is controlled so that it overflows through the upper water discharge pipe 101. We present a nature-friendly ultrapure water extractor (99999) that separates and processes light fluid material molecules and heavy specific gravity fluid molecules using

However, between the upper reducer pipe 300 and the lower reducer pipe 3030, a ejection unit for ejecting fluid material molecules such as air or water may be additionally configured and used.

In addition, since it is possible to combine and use several structures of the upper reducer pipe 300 and the lower reducer pipe 3030 in the lower part of the fluidic material molecule processing unit 5000, all of these design changes are It is natural to fall within the scope of the present invention

Also, as shown in FIGS. 20, 21 and 22, the structure of the air striking unit 200 in various forms is changed between the upper reducer pipe 300 and the lower reducer pipe 3030 to change the fluidity. It goes without saying that the method of configuring the material molecule separation unit 3000 also falls within the scope of the present invention.

Next, claim 16 according to the sixteenth embodiment of the present invention will be described as follows.

23 is a perspective view of a nature-friendly eco-friendly ultrapure water extractor constructed according to the 16th embodiment and the 16th embodiment of the present invention, and FIG. 25 is a nature-friendly eco-friendly ultrapure water extractor constructed according to the 16th embodiment and the 16th embodiment of the present invention It is a perspective view showing the state in which the rotating striking body configured in the inside of the

A rotating striking body for generating nano-microbubbles coupled with a rotating body 850 inside the lower end gravity generating material molecule processing unit 104 configured in a circular shape at the lower end of the fluid material molecular processing unit 9999 (851) was constructed;

a structure of the processing unit 103 for generating intermediate gravity configured on the upper portion of the material molecule processing unit 104 for generating gravity at the lower end;

The structure of the upper processing unit 102 for generating gravity is configured at the upper end of the processing unit 103 for generating the intermediate gravity;

The rotating striking body 851 for generating nano-microbubbles coupled with the rotating body 850 in the upper processing unit 102 for generating gravity is sequentially configured in the up and down directions to sequentially strike the fluidic material molecules A nature-friendly ultrapure water extractor (99999), which is configured to separate and extract fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity by separating the fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity by top and bottom separation ) is presented

Next, claim 17 according to the seventeenth embodiment of the present invention will be described as follows.

24 is a perspective view of a nature-friendly eco-friendly ultrapure water extractor constructed according to the 17th embodiment and 17th embodiment of the present invention, and FIG. It is a perspective view showing the state in which the rotating striking body configured in the inside of the

a structure of the lifting unit 6060 configured in a ∪-shape;

a structure in which a rotating striking body 851 for generating nano-microbubbles coupled to a rotating body 850 is sequentially configured inside the lifting unit 6060;

At the lower end of the lifting unit 6060, the ejection unit 86 for ejecting gaseous material molecules or fluid material molecules is coupled to the other side of the lifting unit 6060. The secondary is configured in an ∩ shape. a structure of the fluid material molecule processing unit 7070 configured in combination with the processing unit 8080;

The rotating striking body 851 for generating nano-microbubbles coupled with the rotating body 850 is sequentially configured in the upper and lower directions in the secondary processing unit 8080 to sequentially strike the fluid material molecules to sequentially hit specific gravity. A nature-friendly ultrapure water extractor (99999), which is configured to separate and extract the light fluid material molecule and the heavy specific gravity fluid material molecule by separating the light fluid material molecule and the heavy specific gravity fluid material molecule up and down present

As shown in FIGS. 21 and 22 showing the state in which the structure of the air striking unit applied according to each embodiment of the present invention is changed and applied, the structure of the air striking unit is a liquid by mixing stones, rocks, or sand and cement. Or, it is a structure made by configuring a microcavity so that the gas is ejected, and it is natural that all of these design changes fall within the scope of the present invention because it can be applied by changing it as much as possible, such as a triangle, a circle, or a square.

In addition, since it is possible to use multiple overlapping structures of the upper reducer pipe 300 and the lower reducer pipe 3030 inserted into the nature-friendly ultrapure water extractor 99999 to be used, all of these design changes It is natural that it falls within the scope of the present invention.

The following describes claim 18 constructed according to the 18th embodiment of the present invention.

27 is a perspective view of an eco-friendly, eco-friendly ultrapure water extractor constructed according to the 18th embodiment and 18th embodiment of the present invention, and is configured as follows.

A lower layer material molecule separation plate provided with a fluid movement passage 1030 that acts to allow fluid material molecules to freely pass between the upper and lower portions inside the lifting unit 6060 and the secondary processing unit 8080 ( 1010) was constructed;

In the upper portion of the lower layer material molecule separator 1010, 5 wt% to 30 wt% of the area of the fluid passage 1030 included in the lower layer material molecule separator 1010 is wider than 100 wt%, the fluid passage 1030 is wider. ) constitutes the upper layer material molecular separator 1020, so that the fluid material molecules with a light specific gravity work to rise to the upper layer by the action of gravity and the material pushing action, and at the same time, the gravity of the clean fluid material molecules with heavy specific gravity structure configured to move to the lower part by the action of;

Between the lower layer material molecular separator 1010 and the upper layer material molecular separator 1020, a vegetable material or a mineral material that acts to change the properties of the fluid material molecules is introduced to determine the properties of the fluid material molecules We present an eco-friendly, eco-friendly ultrapure water extractor that has each of the passages 5858 for changing the physical properties of substances and molecules that act to change them.

The following describes claim 18 constructed according to the 18th embodiment of the present invention.

28 is a perspective view of a nature-friendly eco-friendly ultrapure water extractor constructed according to the 19th embodiment and the 19th claim of the present invention, and is configured as follows.

a structure in which a fluid material molecule storage (8888) is configured on one side of the inner side of the enclosure configured in the shape of a rectangle;

a structure in which an outlet 88 for discharging cold water and hot water, respectively, is coupled to one side of the fluidic material molecule storage 8888;

As shown in detail in FIG. 28 on the other side of the fluidic material molecule storage 8888, the fluidic material molecular processing unit in which a pipe composed of progressively thinner pipes is formed in the form of a spring as it goes down from the upper portion downwards. structure of (770); am.

In more detail, the fluid material molecules with a light specific gravity, coupled with the fluid material molecules, float upward, and the clean fluid material molecules with heavy specific gravity naturally descend to the bottom. It is a structure for separating sexual material molecules.

It has a structure in which the water passage section becomes smaller and smaller as it goes down than the upper partial pipe.

Inside the fluid material molecular processing unit 770, clean fluid material molecules with heavy specific gravity act to move in the downward direction, while the upward direction reducer acts to float fluid material molecules with light specific gravity in the upward direction. A structure in which a plurality of material molecule separation units 502 are combined with the 501 and the lower-direction reducer 503;

a structure in which an upper supply line 999 for injecting fluid material molecules is coupled to an upper portion of the fluid material molecule processing unit 770;

a structure in which an upper water discharge pipe 101 for discharging fluid material molecules having a light specific gravity is coupled to one upper side of the fluid material molecular processing unit 770;

a structure in which a supply line 888 for supplying fluidic material molecules to the fluidic material molecule storage 8888 is coupled to one side of the lower end of the fluidic material molecule processing unit 770;

The supply line 888 has a structure in which a supply pump 8 for controlling the supply amount while pumping the fluid substance molecules supplied from the fluid substance molecular processing unit 770 in an upward direction is coupled to the supply line 888;

On the other side of the lower end of the fluid material molecular processing unit 770, a gaseous material molecule supply unit 773 for supplying gaseous material molecules to the inside of the fluid material molecular processing unit 770 is combined, so that the specific gravity is light. Fluid material molecules with light specific gravity by inducing the action of gravity, material frictional action, material explosion action, material scraping action, material rejection action, and mass pushing action naturally generated by fluid material molecules and fluid material molecules with heavy specific gravity We present an eco-friendly, eco-friendly ultrapure water extractor (99999) that is applied to an eco-friendly and eco-friendly method that separates and processes fluidic material molecules with heavy specific gravity.

The devices constituting the gaseous material molecule supply unit 773 may apply a gas supply pump method or may be configured to be changed to a rotation type.

The following describes claim 18 constructed according to the 18th embodiment of the present invention.

29 is a perspective view of an eco-friendly, eco-friendly ultrapure water extractor configured according to the twentieth embodiment and the twentieth claim of the present invention, and is configured as follows.

The structure of the fluid material molecular processing unit 770 is smaller and smaller by 1 wt% to 20 wt% in steps of the upper processing pipe unit 771 and the upper processing pipe unit 771 having a large passage area. Presents a nature-friendly eco-friendly ultrapure water extractor (99999) that is configured by combining with the fluid material molecular processing unit 770, which is formed by sequentially combining the lower processing unit 772, which is composed of a falling structure.

In more detail, when the fluidic material molecular processing unit 770 is configured, the eco-friendly eco-friendly ultrapure water extractor 99999 is provided, which is configured by combining the pipes with the thickness of the passing cross-sectional area getting smaller and lower as they go down.

The following describes claim 21 constructed according to the twenty-first embodiment of the present invention.

30 is a perspective view of an eco-friendly, eco-friendly ultrapure water extractor constructed according to the twenty-first embodiment and twenty-first of the present invention, and is configured as follows.

a structure of the lifting unit 6060 configured in a ∪ shape with a step difference from one side to the other;

The upper reducer pipe 300 and the upper part are narrow and the lower part is formed in a wide form in which the upper part is wide and the lower part is narrow in the inside of the rising unit 6060 configured with a step difference, respectively. The coupling structure of the material molecule separation induction unit 8899 constituted by coupling the lower reducer pipe 3030;

The upper part is wide inside the secondary processing unit 8080, which is configured in an ∩ shape on the other side of the lifting unit 6060, with a difference between the upper and lower steps, and the upper part is configured in a narrow shape. Nature-friendly consisting of; Presents an eco-friendly ultrapure water extractor

In a storage container constructed by changing the configuration of the fluid material molecule processing unit configured according to each embodiment of the present invention, water produced by diluting seawater, water, or soil and water, or a processed product made by crushing or processing rocks or A mixture made by diluting pulverized material and water or seawater, or liquid substances such as alcohol, milk, yogurt, seasonings and seasonings, or herbal medicines, soy sauce, vinegar, coffee, or tea or beverages. It goes without saying that all methods of processing fluid material molecules by striking them with air fall within the scope of the present invention.

Since the numbers presented in the 10th to 11th embodiments of the present invention can be changed and applied as much as possible, it is natural that all of the numbers configured with different numbers belong to the scope of the present invention.

Next, the twenty-second embodiment and twenty-second embodiment of the present invention will be described as follows.

32 is a perspective plan view showing the arrangement sequence of material molecule processing units constructed according to the twenty-second embodiment of the present invention, and is constructed as follows.

As shown in FIG. 32, the volume ratio of the material molecule processing unit is configured to have different sizes, and the material generated between the fluid material molecules having a light specific gravity and the fluid material molecules having a heavy specific gravity bonded to the fluid material molecules. As an embodiment for easily separating and extracting clean fluidic material molecules with heavy specific gravity by continuously generating a pushing action and a material scraping action, it is configured as follows.

When the average size of the total volume ratio of the material molecule processing units (901,902,903,904,905,906) each of a rectangular shape and a shape inclined in one side and the other direction and a shape in which sequential step steps are formed is 100wt%

a structure in which the volume ratio size of the primary material molecule processing unit 901 is 110wt% to 250wt%;

a structure in which the volume ratio size of the secondary material molecule processing unit 902 is 80wt% to 99wt%;

a structure in which the volume ratio size of the tertiary material molecule processing unit 903 is 115wt% to 150wt%;

a structure in which the volume ratio size of the quaternary material molecule processing unit 904 is 80wt% to 120wt%;

a structure in which the volume ratio size of the fifth material molecule processing unit 905 is 180wt% to 199wt%;

We present an eco-friendly ultrapure water extractor (99999) in which the volume ratio of the 6th material molecule processing unit (902) is 80wt% to 99wt%

The reason that the structure of the material molecule processing unit, which is configured with different sizes, is configured differently is more actively to induce it to happen

Next, the twenty-third and twenty-third embodiments of the present invention will be described.

33 is a perspective view of the eco-friendly ultrapure water extractor constructed according to the 23rd embodiment and the 23rd embodiment of the present invention, and is configured as follows.

a structure in which the upper end primary separation unit 611 is configured in a straight shape as a structure of a pipe;

a structure in which an upper supply line 999 for injecting fluid material molecules into one side of the upper end of the primary separation unit 611 is configured;

a structure in which upper water discharge pipes 101 for discharging fluid material molecules having a light specific gravity are respectively coupled to the upper portion of the other side of the primary separation unit 611;

a structure of a secondary separation unit 511 configured in a circular shape at the lower end of the primary separation unit 611;

a structure of the tertiary separation unit 612 configured in a straight line on the lower side of the secondary separation unit 511;

a structure of a quaternary separation unit 512 configured in a circular shape at the lower end of the tertiary separation unit 612;

a structure of a fifth separation unit 613 configured in a straight line at the lower end of the fourth separation unit 512;

a structure of the 6th separation unit 513 configured in a circular shape at the lower end of the 5th separation unit 613;

a structure of the 7th separation unit 614 configured in a straight line at the lower end of the 6th separation unit 513;

a structure of the 8th separation unit 514 configured in a circular shape at the lower end of the 7th separation unit 614;

a structure in which a final discharge line 615 is configured in an L-shape at the lower end of the eighth separation unit 514;

a structure of a fluid substance molecule processing unit 9900 configured by combining a supply line 888 for supplying fluid substance molecules to one side of the final discharge line 615 and a supply pump 8;

The structure of the nature-friendly ultrapure water extractor (99999) in which the structure of the fluid material molecule processing unit (9900) is combined with a step difference in the form of a step;

a structure in which a discharge pipe 88 coupled to a discharge control valve 87 is configured at the lower end of the other side of the ultrapure water extractor 99999 configured in the last step;

The supply line 888 and the supply line 888 formed between the lower end of the fluid material molecule processing unit 9900 and the upper end of the fluid material molecule processing unit 9900 coupled with each step in a stepped form Presents a nature-friendly ultrapure water extractor (99999) consisting of a structure of a fluid material molecule processing unit (9900) configured by sequentially coupling the supply pump (8)

According to the twenty-third embodiment of the present invention, the structure and number of the separation unit configured in layers can be changed in a very diverse way, so it is natural that all the changes in the form of the configuration fall within the scope of the present invention.

Next, the twenty-fourth and twenty-fourth embodiments of the present invention will be described as follows.

34, 35, 36, 39, 42, 43, 44, and 45 are a partial perspective view and a perspective view of an eco-friendly ultrapure water extractor constructed according to the 24th embodiment and the 24th embodiment of the present invention. is composed as

The structure in which a horizontal partition 2000 is configured on the inner bottom of the ultrapure water extractor 99999 that is configured in the shape of a rectangle and the fluidic material molecule overflow hole 355 is coupled to the upper side to separate and extract the fluidic material molecules ;

a structure in which a discharge pipe 88 coupled to a discharge control valve 87 is configured at the lower end of the other side of the ultrapure water extractor (99999);

a structure in which a striking unit 881 is configured on one side and the other lower end of the fluid material molecule overflow hole 355, respectively;

The striking unit can be configured by replacing the ultrasonic striking unit with an air striking unit that strikes the fluid material molecules using air instead of a rotating striking body that strikes the fluid material molecules while rotating.

In addition, it can be combined by increasing the number of components as needed.

After constructing a connection pipe 889 between the lower side and the upper side of the fluidic material molecule overflow port 355, a pumping means 899 is coupled to one side of the connection pipe 889, and the upper end of the ultrapure water extractor 99999 The ultrapure water extractor 99999 by using the pumping means 899 after hitting the fluid material molecules with a light specific gravity flowing into the inside of the fluid material molecule overflow hole 355 through the striking unit 881. It is a structure configured to re-pump to the upper side of the

The pumping means 899 has a structure configured by using a rotary type or a pump type.

a structure in which upper water discharge pipes 101 for discharging fluid material molecules having light specific gravity are respectively coupled to one side of the upper end of the fluidic material molecule overflow hole 355;

A structure in which a double injection pipeline 1101 for injecting fluid material molecules or gaseous material molecules is configured on the other upper side of the ultrapure water extractor (99999).

The reason for configuring the double injection pipeline 1101 in the interior of the ultrapure water extractor 99999 is to add gaseous material such as air or fluid material molecules such as water into the inside of the ultrapure water extractor 99999. It is a structure to maximize the effect of material explosion.

At the upper end of the horizontal partition (2000), a plurality of material molecule separation partitions (911,912,913,914) that act to separate fluidic material molecules having a light specific gravity and fluidic material molecules having a heavy specific gravity in an unspecified area in the upper and lower directions are configured a structure in which the material molecule separation units (811, 812, 813, 814, and 815) are configured in a Kankan structure;

In the interior of the material molecule separation unit (811, 812, 813, 814, 815), an internal discharge pipe 117 for discharging fluid or gaseous material molecules to the upper side of the ultrapure water extractor 99999 is configured to be combined with a discharge control valve; am.

The reason for configuring the internal discharge pipe 117 inside the ultrapure water extractor 99999 is a structure for discharging gaseous material molecules such as air or fluidic material molecules such as water in a reverse flow.

a structure in which an upper pipe 116 and a lower pipe 118 are respectively configured between the lower end and the upper side of the material molecule separation unit (811, 812, 813, 814, 815);

Between the upper pipe 116 and the lower pipe 118, a separation filtration membrane 121 for separating fluid and gaseous material molecules is formed;

The role of the separation filtration membrane 121 is that a large amount of gaseous material molecules flowing into the inside of the ultrapure water extractor 99999 through the air striking unit 200 are high pressure in the upper direction of the ultrapure water extractor 99999. As it moves through the upper pipe 116 and the lower pipe 118, it moves to the lower end of the material molecule separation unit 811,812,813,814,815 and floats to the inside of the material molecule separation unit 811,812,813,814,815 to separate fluid material molecules. It is a structure that works to strike again.

a structure in which an intermediate separator 119 is configured in the inside of the separation filtration membrane 121;

At one side of the separation filtration membrane 121, a separation filtration membrane control pipe 120 for discharging fluid or gaseous material molecules is configured to be combined with a discharge control valve, respectively.

The role of the control pipe 120 as a discharge control valve is a structure that discharges when molecules of a fluid material such as water are full inside the separation filtration membrane 121 .

The reason for configuring the upper pipe 116 and the lower pipe 118 between the lower end and the upper side of the material molecule separation units 811,812,813,814,815 is that the material molecule separation unit 811,812,813,814,815 through the air striking unit 200 is ) in order to induce the pressure strength of gaseous material molecules such as air to be lowered in large quantities.

If the person skilled in the art can change the structure as much as possible, it is natural that all of the changes in the structure fall within the scope of the present invention.

At the lower end of the material molecule separation partitions (911 and 914), the low-level water movement passage 711, which acts to separate the fluid material molecules having a light specific gravity and the fluid material molecules having a heavy specific gravity, is configured with a step difference;

In the middle of the material molecule separation partitions (911,912,913,914)), intermediate material molecules passing passages (712,713,714,715) that act to separate fluidic material molecules with light specific gravity and fluidic material molecules with heavy specific gravity up and down are respectively Structures consisting of structures with incorrect dimensions;

The lower end blocking plate 24 is configured inside the material molecule separation units 811, 812, 813, 814, and 815 so that the lower end is blocked in a closed form, and then the lower end has a wide structure and the upper end has a narrow shape at the upper end of the lower end blocking plate 24 A structure combining the reducer pipe 3030 composed of;

a structure in which a fluid material molecule front part movement passage 21 is formed on the front part of the reducer pipe 3030;

A structure in which the air striking unit 200 in which a plurality of gas ejection holes 350 are densely configured is coupled to the upper end of the reducer pipe 3030;

It is preferable to use the air condol of the form shown in FIGS. 31 and 41 as the configuration of the air striking unit 200, but the structure is not particularly limited because the configuration can be changed any number of times.

a structure in which the upper reducer pipe 300 is configured in the upper end of the air striking unit 200 in which the lower end has a narrow shape and the upper part has a wide form;

a structure in which the upper rear portion of the upper portion of the reducer pipe 300 is provided with a fluidic material molecule movement passage 22;

A structure in which the primary material molecule processing unit (1) is coupled to the upper part blocking plate (23) to form a closed structure while blocking the upper part on the upper part of the upper reducer pipe (300);

At the upper end of the primary material molecule processing unit (1), the lower end blocking plate 24 is configured so that the lower end is blocked in a sealed form, and then the lower end has a wide structure at the upper end of the lower end blocker plate 24, and the upper portion is A structure in which the reducer pipe 3030 configured in a narrow shape is combined;

a structure in which a fluid material molecule front part movement passage 21 is formed on the front part of the reducer pipe 3030;

At the upper end of the reducer pipe 3030, a plurality of gas ejection holes 350 that act to eject fluid material molecules such as gas or water therein to strike the fluid material molecules are densely composed of an air striking unit. (200) a combined structure;

a structure in which the upper reducer pipe 300 is configured in the upper end of the air striking unit 200 in which the lower end has a narrow shape and the upper part has a wide form;

a structure in which the upper rear portion of the upper portion of the reducer pipe 300 has a fluidic material molecule movement passage 22 formed thereon;

A structure in which the secondary material molecule processing unit (2) coupled to the upper part blocking plate (23) to form a closed structure while blocking the upper part on the upper part of the upper reducer pipe (300), respectively;

a structure in which a material molecule blocking plate 10 is coupled to the upper end of the secondary material molecule processing unit 2;

The lower end of the material molecule blocking plate 10 has a structure in which an upper pipe 9 having a wide upper end and a reducer pipe 7 having a narrow lower end are coupled to each other;

The upper pipe (9) has a structure in which a material molecule separation passage (8) that acts to separate fluid material molecules having a light specific gravity and a fluid material molecule having a heavy specific gravity is formed in an upper direction and a lower direction;

At the end of the reducer pipe 7, a plurality of gas ejection holes 350 that act to blow the fluid material molecules such as gas or water therein are densely configured. a structure in which the tertiary material molecule processing unit (3) is formed by combining the units (6);

a structure in which a lower end blocking plate 51 is coupled to the upper side of the tertiary material molecule processing unit 3;

On the upper side of the lower end blocking plate 51, the lower end of the reducer pipe (4) is composed of a wide structure and the upper end is composed of a reducer pipe (20) composed of a narrow pipe (5) structure;

The upper end of the reducer pipe 20 is coupled to the upper end blocking plate 52,

a structure in which the fluid material molecule processing unit 9999 is constituted by the structure of the quaternary material molecule separation unit 4;

On the upper side of the fluid material molecule overflow hole 355, a double material molecule overflow hole 77777 for collecting gaseous material molecules and fluid material molecules floating upward through the internal discharge pipe 117 is formed in a rectangular shape. structure in the form of an enclosure and in the form of

a structure in which a second upper water discharge pipe 993 is respectively coupled to the lower end of the double material molecule overflow hole (77777);

a structure in which a third outlet 992 for discharging fluid material molecules having a light specific gravity is formed on one upper side of the double material molecule overflow hole (77777);

A gaseous material molecule outlet 990 for discharging gaseous material molecules is configured at the upper end of the double material molecule overflow port 77777 to separate fluidic material molecules with light specific gravity and fluidic material molecules with heavy specific gravity. Presents a nature-friendly ultrapure water extractor (99999) that is configured to give or process to give.

The reason for configuring the double material molecule overflow hole 77777 on the upper side of the fluid material molecule overflow hole 355 is gaseous material molecules discharged with a strong pressure through the air striking unit 200 and It is a structure for separating and extracting fluid material molecules that are diluted and discharged together.

Therefore, depending on the material to be processed, a triple or quadruple material molecule overflow hole may be additionally configured and used at the upper end of the double material molecule overflow hole 77777 .

The reason for configuring the primary, secondary, tertiary, and quaternary material molecule processing units using the reducer is the structure to easily separate fluidic material molecules with light specific gravity and fluidic material molecules with light specific gravity.

Primary, secondary, tertiary and quaternary material molecule processing unit structures can be further configured and used.

Since it is natural that the number of components of the material molecule processing unit applied to each embodiment of the present invention should be greatly increased according to the fluid material molecules to be processed, all of the things that those skilled in the art have different numbers of components can be seen It is natural that the invention belongs to the scope of the right

Since the air supply device for supplying air and the connection pipe structure are naturally configured on one side of the air striking unit 200, the illustration of the detailed connection configuration state is omitted.

Using gaseous material molecules generated by the air supply device coupled with the air striking unit 200 in a state in which fluid material molecules are injected into the interior of the nature-friendly ultrapure water extractor 99999 configured as described above Nature-friendly ultrapure water that is configured to separate and extract the heavy fluid substance molecules and the light fluid substance molecules that are combined with the fluid substance molecules processed by hitting the fluid substance molecules for 10 minutes to 48,000 hours An extractor 99999 is presented.

The striking device that strikes fluid material molecules can be applied by changing the ultrasonic striking method, the turbo striking method, or the rotary striking method.

Next, claim 25 according to the twenty-fifth embodiment of the present invention will be described as follows.

37 is a partial perspective view showing the 25th embodiment and the ultrapure water extractor constructed according to the 25th embodiment of the present invention, cut in the middle, and is configured as follows;

The structure of the material molecule separation partition configured inside the fluid material molecule processing unit 9999 is configured in the form of a material molecule separation partition 911 configured in an unspecified curved shape, so that the fluidic material molecule having a light specific gravity We present a nature-friendly ultrapure water extractor (99999) that works to separate fluidic material molecules with heavy specific gravity and

Next, claim 26 according to the 26th embodiment of the present invention will be described as follows.

38 is a schematic perspective view of a twenty-sixth embodiment and an ultrapure water extractor constructed according to the twenty-sixth embodiment of the present invention, and is constructed as follows;

The structure of the primary processing unit 895 consisting of a reducer pipe 894 consisting of an upper part having a wide shape and a lower part having a narrow shape; is.

It is possible to change the configuration to a circular shape or a square or hexagonal shape.

A structure in which the upper portion of the primary processing unit 895 is coupled to the secondary processing unit 893 by combining the reducer pipe 892 having a wide upper portion and a narrow lower portion of the first processing unit 895;

a structure in which a fluid material molecule processing unit 9999 is formed by coupling a pipe 891 to the upper end of the secondary processing unit 893;

A structure in which the upper water discharge pipe 101 for discharging fluid material molecules having a light specific gravity is coupled to the other side of the fluid material molecule processing unit 9999, respectively.

A change configuration is possible by adding the structure of the primary or secondary processing unit to overlap.

By using the fluid material molecule processing unit 9999, several of the fluid material molecule processing units 9999 are installed so that steps are formed in a stepwise form and in the left and right directions, respectively. constructed structure;

a structure in which an upper supply line 999 for injecting fluid material molecules into the upper end of the fluid material molecule processing unit 9999 is configured;

A material molecule movement path 777 between the lower end of the fluid material molecule processing unit 9999 and the middle lower end of the fluid material molecule processing unit 9999, which is stepped in the left and right direction with a step difference. Fluid material molecules with heavy specific gravity by combining each act to move to the lower part of the fluid material molecule processing unit 9999 configured in the next step, and at the same time, fluid material molecules with light specific gravity are subjected to the action of gravity. The structure of the eco-friendly eco-friendly ultrapure water extractor (99999) configured to rise upward by the material pushing action and the material cutting action generated by the

Fluid material molecules with a light specific gravity between the lower end of the fluid material molecule processing unit 9999 and the lower middle portion of the fluid material molecule processing unit 9999, which are stepped in the left and right direction and have a step difference, are The upper and lower cross movement paths (896 and 897) of material molecules act to float upward by the action of gravity, and at the same time, clean fluid material molecules with heavy specific gravity are moved in the downward direction by the action of gravity. It is a let structure;

The reason for configuring the upper and lower cross movement paths 896 and 897 in a structure that intersects between the fluid material molecule processing unit 9999 and the fluid material molecule processing unit 9999 is more active and sophisticated. It is a structure for extracting heavy fluid material molecules by easily separating fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity.

The angle of intersection can be changed and configured according to the material to be processed.

At the lower end of the fluid material molecule processing unit 9999, which is individually configured with step-by-step steps in a step-by-step manner, an air striking unit 200 for injecting fluid material molecules such as air or water is coupled to each other. ;am.

However, even if the structure of the air striking unit is not, it is possible to change the configuration to a turbo type or an impeller type which is configured to hit the fluid material molecules while rotating.

A discharge pipe 88 and a discharge control valve for discharging fluid material molecules with heavy specific gravity to the lower end of the fluid material molecule processing unit 9999 configured at the other end of the eco-friendly eco-friendly ultrapure water extractor 99999 (87) constitutes and proposes a nature-friendly ultrapure water extractor (99999) that works to separate fluidic material molecules with light specific gravity and fluidic material molecules with heavy specific gravity.

It has a structure configured to separate and process fluidic material molecules having a light specific gravity and fluidic material molecules having a heavy specific gravity by controlling the discharge amount control valve 87 coupled to the discharge pipe 88 to control the inflow amount.

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

The fluid material molecule processing unit using the air striking unit 200 in a state in which the fluid material molecules are accommodated inside the fluid material molecule processing unit coupled with the nature-friendly eco-friendly ultrapure water extractor (99999) We present a processing method that uses the fluid molecules contained in the chamber by hitting them for 10 minutes to 480,000 hours.

In more detail, when the fluid material molecules are hit using high-pressure air, the incompletely decomposed fluid material molecules with a light specific gravity are separated from the clean fluid material molecules with a heavy specific gravity. We present an eco-friendly method for separating and processing fluid material molecules with light specific gravity and clean material molecules with heavy specific gravity using the separation action of material molecules that are separated while automatically floating to the upper side of the fluid material molecule processing unit

Next, the twenty-eighth embodiment and the twenty-eighth claim of the present invention will be described as follows.

A method of reprocessing fluidic material molecules processed in a nano-microbubble state inside the nature-friendly ultrapure water extractor constructed according to each embodiment of the present invention will be described as follows.

Fluid material molecules injected into the environment-friendly eco-friendly ultrapure water extractor (99999) are re-injected into nano-microbubbles, that is, fluid material molecules processed in the form of ultra-fine particles. A method for separating, processing, extracting, or reprocessing fluidic material molecules is presented.

A specific time is not given because the processing time for fluid material molecules to become nano-microbubble is very variable.

Next, the twenty-ninth embodiment and the twenty-ninth aspect of the present invention will be described as follows.

46 is a perspective view showing the rear structure of the ultrapure water extractor applied to the 29th embodiment and the 29th embodiment of the present invention, which will be described as follows. The gaseous material molecule supply unit 7707 of the eco-friendly eco-friendly ultrapure water extractor 99999 ), the structure from which it was constructed;

A structure in which a supply unit 3003, which acts to supply gaseous material molecules or fluid material molecules, is coupled to one side of the gaseous material molecule supply unit 7707;

By combining a plurality of supply pipes (7707) that supply gaseous material molecules or fluid material molecules to the inside of the partition (100, 200, 300, 400, 500) composed of a partition structure inside the eco-friendly eco-friendly ultrapure water extractor (99999) Strike with gaseous material molecules or fluidic material molecules supplied by the supply pipe 7707 as gaseous material molecules or fluidic material molecules flowing into the environment-friendly eco-friendly ultrapure water extractor (99999) Therefore, we propose the structure of a nature-friendly ultrapure water extractor that processes the fluid material molecules with light specific gravity and fluid material molecules with light specific gravity, which are combined with the fluid material molecules, to separate them in the upper and lower directions.

It is possible to use the supply pipe 7707 by directly connecting the air striking unit 200.

Since the number of components of the supply pipe 7707 can be used by adding as many components as possible depending on the material to be processed, it is natural that all of the different components fall within the scope of the present invention.

Hereinafter, the thirtieth embodiment and the thirtieth claim of the present invention will be described as follows.

47 is a perspective view of a thirtieth embodiment of the present invention and an eco-friendly eco-friendly ultrapure water extractor modified and applied to the thirtieth embodiment of the present invention, and is configured as follows.

a structure in which a fluid material molecule storage unit 908 composed of a mineral material, a vegetable material, or an animal material is configured inside the upper supply line 999 coupled to the nature-friendly eco-friendly ultrapure water extractor 99999;

Fluid material molecules flowing into the environment-friendly eco-friendly ultrapure water extractor 99999 by accommodating the fluid material molecules 909 in the inside of the fluid material molecule accommodating unit 908 and the intermediate processing unit 302 (909) and fluid material molecules such as water or seawater are applied to a nature-friendly eco-friendly method that works to change the properties of the fluid material molecules by using the material friction action and material explosion action that occur naturally We present an eco-friendly, eco-friendly ultrapure water extractor (99999) that is

Reference numeral 909 schematically shows the shape of a mineral material, that is, a rock, and the type of rock is not specified because all materials existing on the earth can be applied.

The method of claim 30 is a new method to change the properties of fluid material molecules by forcibly generating material friction, material explosion, and material oxidation, which are different from the existing drinking water processing method using charcoal or rock. present

In detail, the upper supply line 999 and the intermediate processing unit 302 through the air striking unit 200 in a state in which fluid material molecules composed of a mineral material, a vegetable material, or an animal material are configured in the interior. When a large amount of gaseous material molecules are injected into the eco-friendly, eco-friendly ultrapure water extractor (99999), a continuous material explosion and continuous material friction are generated between the fluid material molecules and the fluid material molecules. By the action of present

As described above, materials that can be processed using the ultrapure water extractor configured according to the present invention are all kinds of fluid material molecules existing on earth, that is, alcohol, milk, beverage, vinegar, soy sauce, nuclear power plant waste, or nuclear power plant. After processing fluid molecules such as heavy water or cesium or radioactively contaminated water into ultra-fine nano-microbubble particles, injecting them into the eco-friendly eco-friendly ultra-pure water extractor (99999) for 1 hour to 150,000 hours It goes without saying that the method of separating and processing the fluid material molecules having a light specific gravity and the fluid material molecules having a heavy specific gravity contained in these fluidic material powders by using a processing method also falls within the scope of the present invention.

Since the methods of processing ultra-fine nano-microbubble particles can be configured in a very diverse way, it is natural that all of these design changes, which are processed to change the size of the particles constituting the fluid material molecules, fall within the scope of the present invention. will be

It goes without saying that all mechanisms and all machines configured to otherwise change or change the properties of the material friction action and material catalysis inducer applied to each embodiment according to the present invention are within the scope of the present invention. .

The upper end of the eco-friendly eco-friendly ultrapure water extractor 99999 applied to each embodiment of the present invention can be configured to be opened or closed or closed as needed according to the material to be processed.

As shown in Fig. 12, it is possible to configure the structure of the air striking unit differently or to change the number of components to apply the change.

An empty space is formed inside the striking unit or the air striking unit, and an inlet for injecting air is configured on one side, and the inlet is configured to be coupled with a compression device for generating compressed air.

As described above, the eco-friendly, eco-friendly ultrapure water extractor configured according to each embodiment is used not only to purify waste water that is simply used in factories and discarded into clean water, but also to cleanly purify polluted water for industrial or home use. Not only can it be used as a furnace, but it is also used to separate pollutants and clean material molecules with heavy specific gravity from a contaminant mixture diluted with water or seawater used to produce products.

It is also used to separate antibiotics and various bacteria mixed in milk.

It is also used to separate and remove material molecules with light specific gravity contained in alcohol.

In addition, it can be used to separate the pollutant molecules contained in the edible oil used for food or favorite food or food or fried chicken and pure edible oil, used to separate

It can also be used to purify water in fish farms or aquariums, and is used to purify water stored in ponds, lakes, or hazards in golf courses.

In more detail, it is used to cleanly purify the water required for processing various foods, including alcohol, seasonings, or favorite foods or beverages, and is used to process water for growing plants such as flowers and crops or water for hydroponics.

In addition, it is used for processing favorite milk or yogurt or food, or for separating and extracting light-specific antibiotics and light-specific fluid molecules contained in scrambled eggs.

In addition, it is used for processing ultra-precision computer parts or processing water for power generation and is a technology applied to various parts.

The air supply devices applied to each embodiment of the present invention can be configured in a very various ways.

It is also a technology of processing water used to produce soy sauce, vinegar, alcohol, favorite foods, or general foods.

It is also a technology used to cleanly purify agricultural water used for growing plants.

For example, it is natural that all of these design changes fall within the scope of the present invention, as changes can be applied using turbo-type, turbo-charged, compressor-type, or oil-free air generators that generate air at high pressure.

31 is a photograph showing the coupling state of the air striking unit and the material molecule separation induction unit to which each embodiment of the present invention is applied. It is a photograph showing that the air striking devices used to separate material molecules in the up and down directions can be changed in a very diverse way.

The eco-friendly, eco-friendly ultrapure water extractor configured as described above is not only used to purify polluted water or polluted river water, but is also installed in sewage treatment plants and wastewater treatment plants to treat pollutant fluid molecules.

It is also used to purify seawater, or to make drinking water, bottled water, beverages, tea, and other favorite foods, or to process milk, alcohol, soy sauce, or vinegar.

It is also used to purify water stored in rivers, lakes, ponds or hazards. It is also used to purify polluted air.

The scale, size and specifications of the eco-friendly eco-friendly ultrapure water extractor applied to each embodiment of the present invention can be changed according to the material to be processed. It is natural that it falls within the scope of the present invention

In addition, as shown in Figure 46, shown in a schematic cross-sectional perspective view of an ultrapure water extractor showing a modified embodiment of the injection unit configured to inject gaseous material molecules to the air striking unit applied to the embodiments 1 to 28 of the present invention As shown, it is natural that all of the changes and configurations of the air injection line for injecting air into the air striking unit fall within the scope of the present invention.

The structure of FIG. 46 presented according to the present invention is a structure applicable to each embodiment of the present invention.

The eco-friendly, eco-friendly ultrapure water extractor 99999 constructed according to each embodiment of the present invention has a very high marketability due to its action of producing the purest water molecules without filters and chemicals.

That is, the market for the eco-friendly material molecule separation processor configured according to the first embodiment of the present invention is very large because it produces the purest water without using a filtration membrane or injecting chemicals when purifying contaminated water as in the prior art. Therefore, there is an urgent need for prompt commercialization.

In addition, since it is a technology used to cleanly purify industrial water that is simply used and thrown away at industrial sites, the scope of application is very large.

It is also a technology used to reduce radioactive materials contained in used products that are used and disposed of in nuclear power plants.

It is also a technology used to purify heavy water and cesium or radioactive contaminants generated from nuclear power plant accidents.

Just as the radioactive fallouts generated by the atomic bombs dropped on Hiroshima and Nagasaki during World War II all disappear with the passage of time, the material explosion action, material friction action, and material collision action suggested in the present invention are forcibly generated. It has the effect of naturally neutralizing the toxins of all pollutants, no matter how strong they are.

In addition, if the material explosion action, material friction action, and material collision action presented in the present invention are used, there is an effect of shortening the aging time of alcoholic beverages or beverages aged for a long time or favorite foods such as vinegar and soy sauce very quickly.

9999: fluid material molecule processing unit

Claims (30)

In an ultrapure water extractor that separates and extracts fluid material molecules
a structure in which a fluid material molecule storage (8888) is configured on one side of the inner side of the enclosure configured in the shape of a rectangle;
a structure in which an outlet 88 for discharging cold water and hot water, respectively, is coupled to one side of the fluidic material molecule storage 8888;
a structure of a fluid substance molecule processing unit 9999 configured on the other side of the fluid substance molecule storage 8888;
a structure in which a material molecule processing unit 104 for generating gravity is configured at a lower end of the fluid material molecule processing unit 9999;
A structure in which the air striking unit 200 is coupled to the air supply unit 201 inside the material molecule processing unit 104 for generating gravity at the lower end;
a structure in which a supply line 888 for supplying fluid material molecules to the fluid material molecule storage 8888 is coupled to the other side of the material molecule processing unit 104 for generating gravity at the lower end;
The supply line 888 has a structure in which a supply pump 8 for controlling the supply amount while pumping the fluid material molecules supplied from the material molecule processing unit 104 for generating gravity at the lower end in an upward direction is coupled to the supply line 888;
a structure in which a processing unit 103 for generating an intermediate gravity is coupled to an upper middle portion of the material molecule processing unit 104 for generating gravity at the lower end;
The upper portion of the processing unit for generating the intermediate gravity (103) is configured to be coupled to the upper processing unit (102) for generating the gravity;
A structure in which a rotary air striking unit 600 configured in the form of a spring and configured with a plurality of air outlets 601 inside the processing unit 103 for generating intermediate gravity is combined with the air supply unit 201;
A structure in which the air striking unit 200 is coupled to the inner lower end of the upper gravity generating processing unit 102 in the horizontal direction;
In the upper part of the air striking unit 200, an air striking unit 200 that blows air in a vertical direction and facing form to strike and process fluid material molecules is combined with the air supply unit 201;
The upper water outlet 101 for discharging fluid material molecules having a light specific gravity to the outside is coupled to the other side of the upper processing unit 102 for generating gravity;
On one side of the upper gravity generating processing unit 102, an upper supply line 999 for supplying fluid material molecules is combined with a supply amount control valve to form a fluid material molecule with a light specific gravity and a fluid material molecule with a heavy specific gravity Nature-friendly eco-friendly process that separates and processes light-weight fluid material molecules and heavy-gravity fluid material molecules by inducing the action of gravity, material friction action, material explosion action, material scraping action, and material rejection action that they naturally generate Using the action of gravity and material explosion, which is characterized by a nature-friendly, eco-friendly ultrapure water extractor (99999) applied to the construction method, it is combined with the polluted fluidic material molecules with light fluidic material molecules and heavy specific gravity clean Nature-friendly eco-friendly ultra-pure water extractor applied to nature-friendly eco-friendly method that separates and processes fluid material molecules to extract fluid material molecules of ultra-pure water
2. The method of claim 1
a structure of a fluid substance molecule processing unit 9999 configured on the other side of the fluid substance molecule storage 8888;
a structure of the material molecule processing unit 104 for generating gravity at the lower end configured in a circular shape at the lower end of the fluid material molecule processing unit 9999;
The structure of the intermediate gravity generating processing unit 103 configured on the upper portion of the material molecule processing unit 104 for generating gravity at the lower end;
The structure of the upper processing unit 102 for generating gravity is configured at the upper end of the processing unit 103 for generating the intermediate gravity;
An empty space is formed inside the material molecule processing unit 104 for generating gravity at the lower end, the processing unit 103 for generating intermediate gravity, and the processing unit 102 for generating the upper gravity, and an air or fluid material is formed on the outer edge. a structure in which the air striking unit 200 having a plurality of ejection holes 557 for ejecting molecules is coupled to each other;
a structure in which an air supply unit 201 for supplying air or fluid material molecules is coupled to one side of the air striking unit 200;
a structure in which an upper water outlet 101 for discharging fluid material molecules having a light specific gravity is coupled to the other side of the upper end of the upper gravity generating processing unit 102;
A structure configured to combine the upper supply line 999 with the supply amount control valve on one side of the upper end of the upper gravity generating processing unit 102
a structure in which a fluidic material molecule storage 8888 is coupled to the other side of the lower end of the material molecule processing unit 104 for generating gravity at the lower end;
a structure in which a supply line 888 for supplying fluidic material molecules to the fluidic material molecule storage 8888 is coupled to the other side of the lower end of the material molecule processing unit 104 for generating gravity at the lower end;
In the supply line 888, a supply pump 8 that controls the supply amount while pumping the fluid material molecules supplied from the material molecule processing unit 104 for generating gravity at the lower end in an upward direction is coupled to the supply line 888, so that the specific gravity is light. By inducing the action of gravity, material frictional action, material explosion action, material knocking action, and material rejection action naturally generated by fluid material molecules and fluid material molecules with heavy specific gravity, fluid material molecules with light specific gravity and heavy specific gravity molecules It is combined with polluted fluidic material molecules using the action of gravity and material explosion, featuring a nature-friendly eco-friendly ultrapure water extractor (99999) applied to an eco-friendly and eco-friendly method of separating and processing fluid material molecules and extracting them. Nature-friendly eco-friendly ultrapure water extractor applied to nature-friendly eco-friendly method to extract ultrapure fluidic material molecules by separating and processing light fluid material molecules with heavy specific gravity and clean fluid material molecules with heavy specific gravity In an ultrapure water extractor that separates and extracts fluid material molecules
a structure in which a fluid material molecule storage (8888) is configured on one side of the inner side of the enclosure configured in the shape of a rectangle;
a structure in which an outlet 88 for discharging cold water and hot water, respectively, is coupled to one side of the fluidic material molecule storage 8888;
a structure in which the fluid material molecule processing unit 9999 is coupled to the inside of the other side of the fluid material molecule storage 8888 in the form of a rectangle;
a structure in which an upper water discharge pipe 101 for discharging fluid material molecules having a light specific gravity is coupled to the other side of the fluid material molecule processing unit 9999;
The upper end of the fluid material molecule processing unit 9999 has a structure in which an upper supply line 999 for injecting fluid material molecules composed of water, seawater or liquid is combined with a supply amount control valve;
In the middle of the fluidic material molecule processing unit 9999, a gravity generation strengthening unit 552 is combined in the form of a funnel, so that the fluid material molecules having a light specific gravity and the fluid material molecules having a heavy specific gravity are naturally separated up and down A structure that works to rebound;
The upper part of the fluid material molecule processing unit 9999 is formed in a closed form and the upper and lower parts are blocked by using the upper part blocking plate 360 to configure the upper part processing unit 303, so that the fluidic substance molecule having a light specific gravity and a structure in which fluid material molecules with heavy specific gravity promote a material explosion action and a material friction action inside the upper processing unit 303;
At the lower end of the upper gravity generating reinforcing unit 552 configured in a funnel shape, the fluid material molecules having a light specific gravity act to float in the upward direction while the fluid material molecules having a heavy specific gravity are guided to move in the downward direction. a structure in which the fluid material molecule distribution hole 556 is configured;
An empty space is formed in the lower end of the upper end of the upper gravity generating reinforcing unit 552, and gaseous material molecules or fluid material molecules are simultaneously ejected in the horizontal direction, the lower direction and the upper direction. A structure in which a plurality of air outlets 557 are coupled to a combined air striking unit plate 5555 to close the end of the upper gravity generating reinforcing unit 552;
a structure in which an injection unit 553 for injecting gaseous material molecules is coupled to one side of the air striking unit plate 5555;
At the lower end of the air striking unit plate 5555, a plurality of fluidic material molecules with a light specific gravity act to push up in the upward direction, and at the same time, a plurality of fluidic material molecules with heavy specific gravity act to descend in the downward direction. The lower gravity diffusion unit 551 having the material molecule distribution hole 556 is combined in an upside down funnel to form the intermediate processing unit 302, and at the same time, the fluid material molecule processing unit ( 9999) a structure in which the lower end blocking plate 370 is combined so that the lower end processing unit 301 is configured in a form in which the lower end is closed and blocked;
a structure in which a supply line 888 for supplying fluidic material molecules to the fluidic material molecule storage 8888 is coupled to the other side of the lower end of the fluidic material molecule processing unit 9999;
In the supply line 888, a supply pump 8 that controls the supply amount while pumping the fluid substance molecules supplied from the fluid substance molecule processing unit 9999 in an upward direction is coupled to the fluidic substance having a light specific gravity. Fluid with light specific gravity Molecules of light and fluid with heavy specific gravity by inducing the action of gravity, material friction, material explosion, material slashing, and mass rejection naturally generated by material molecules and fluid material molecules Specific gravity combined with polluted fluidic material molecules using the action of gravity and material explosion, featuring a nature-friendly, eco-friendly ultrapure water extractor (99999) applied to a nature-friendly eco-friendly method of separating and processing material molecules and extracting them A nature-friendly, eco-friendly ultrapure water extractor applied to an eco-friendly, eco-friendly method that separates and processes these light fluid molecules and clean fluid molecules with heavy specific gravity to extract ultra-pure fluid molecules.
In an ultrapure water extractor that separates and extracts fluid material molecules
a structure in which a fluid material molecule storage (8888) is configured on one side of the inner side of the enclosure configured in the shape of a rectangle;
a structure in which an outlet 88 for discharging cold water and hot water, respectively, is coupled to one side of the fluidic material molecule storage 8888;
A structure in which an upper and lower exchangeable fluidic material molecule processing unit 7000 cross-configured in a ∪∩ shape is combined inside the other side of the fluidic material molecule storage 8888;
a structure in which an upper supply line 999 for injecting fluid material molecules is coupled to a supply amount control valve 991 on the other upper side of the upper and lower exchangeable fluidic material molecule processing unit 7000;
a structure in which an upper water discharge pipe 101 for discharging fluid material molecules having a light specific gravity is coupled to one side of the upper and lower exchangeable fluid material molecule processing unit 7000;
At one end of the upper and lower exchangeable fluid material molecule processing unit 7000, a supply line 888 for supplying fluid material molecules to the fluid material molecule storage 8888 and a supply pump 8 are coupled. structured structure;
Gas material molecules or fluid material molecules are supplied to the inside of the upper and lower exchangeable fluidic material molecule processing unit 7000 to flow into the upper and lower exchangeable fluidic material molecule processing unit 7000 . A structure in which a plurality of air striking units 200 that act to hit the fluidic material molecules are combined;
Air acting to supply air or fluid material molecules to one side of the air striking unit 200 to strike the fluid material molecules flowing into the upper and lower exchangeable fluid material molecule processing unit 7000 a structure in which the supply unit 201 is coupled;
Discharge control valves (7003,7004) have outlets (7001,7002) for discharging fluid and gaseous material molecules to the upper and lower portions of the upper and lower exchangeable fluidic material molecule processing unit (7000) It combines with and induces the action of gravity, material friction, material explosion, material slashing, and material rejection, which are naturally generated by fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity. Contaminated fluid using the action of gravity and material explosion, featuring a nature-friendly eco-friendly ultrapure water extractor (99999) applied to a nature-friendly eco-friendly method of separating and processing material molecules and fluid material molecules with heavy specific gravity Nature-friendly eco-friendly ultrapure water applied to a nature-friendly eco-friendly method that extracts ultrapure fluidic material molecules by separating and processing light-weight fluid material molecules and heavy-gravity clean fluid material molecules combined with sexual material molecules extractor
5. The method of claim 4
The action of gravity and material explosion, characterized by a nature-friendly eco-friendly ultrapure water extractor (99999) that is cross-configured in a zigzag manner while bending the configuration of the upper and lower exchangeable fluid material molecule processing unit (7000) in the horizontal direction Applied to nature-friendly eco-friendly method to extract ultrapure fluidic substance molecules by separating and processing light fluid substance molecules and heavy fluid substance molecules with heavy specific gravity combined with contaminated fluid substance molecules Eco-friendly, eco-friendly ultra-pure water extractor
5. The method of claim 4
The action of gravity, characterized by a nature-friendly eco-friendly ultrapure water extractor (99999) that is cross-configured in a stepped zigzag manner in a trapezoidal shape while bending the configuration of the upper and lower exchangeable fluid material molecule processing unit 7000 in the horizontal direction It is a nature-friendly method that extracts ultrapure fluidic substance molecules by separating and processing light fluid substance molecules and heavy, clean fluid substance molecules that are combined with polluted fluid substance molecules using the explosion effect Nature-friendly eco-friendly ultrapure water extractor applied to eco-friendly method
In an ultrapure water extractor that separates and extracts fluid material molecules
a structure in which a fluid material molecule storage (8888) is configured on one side of the inner side of the enclosure configured in the shape of a rectangle;
a structure in which an outlet 88 for discharging cold water and hot water, respectively, is coupled to one side of the fluidic material molecule storage 8888;
A structure in which a polyhedral fluidic material molecule processing unit 900 is coupled to the inside of the other side of the fluidic material molecule storage (8888), the upper part is configured in the shape of a hexahedron and the lower part is configured in the shape of a circular pipe;
At the lower end of the polyhedral fluid material molecule processing unit 900, when the fluid material molecules descend or rise while moving left and right, the fluid material molecules having a light specific gravity and the fluid material molecules having a heavy specific gravity are moved to the upper layer part and the lower layer part a structure in which a plurality of movement guide plates 801 are coupled to each other;
a structure in which an upper water discharge pipe 101 for discharging fluid material molecules having a light specific gravity to the outside is coupled to the other side of the polyhedral fluid material molecule processing unit 900;
In the upper end of the polyhedral fluid material molecule processing unit 900, an upper supply line 999 for injecting fluid material molecules composed of water, seawater, or liquid is combined with a supply amount control valve;
Fluid material molecules or gaseous material molecules are ejected to each of the polyhedral parts of the polyhedral fluid material molecule processing unit 900 so that the fluid material molecules flowing into the polyhedral fluid material molecule processing unit 900 are processed. a structure in which the ejection unit 800 that acts to separate the fluid material molecules having a light specific gravity and the fluid material molecules having a heavy specific gravity by hitting is combined;
On the other side of the lower end of the polyhedral fluidic material molecule processing unit 900, the fluidic material molecules processed inside the polyhedral fluidic material molecule processing unit 900 are supplied to the fluidic material molecule storage 8888. By coupling the line 888 and the supply pump 8, respectively, the action of gravity, material friction action, material explosion action, and material cut-off action naturally generated by fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity Gravity featuring a nature-friendly, eco-friendly ultrapure water extractor (99999) applied to an eco-friendly and eco-friendly method that separates and extracts fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity by inducing a material rejection action The nature of extracting ultrapure fluidic substance molecules by separating and processing the light-weight fluidic substance molecules and heavy-gravity clean fluidic substance molecules that are combined with the polluted fluidic substance molecules using the action of Eco-friendly, eco-friendly ultrapure water extractor applied to an eco-friendly method
In an ultrapure water extractor that separates and extracts fluid material molecules
a structure in which a fluid material molecule storage (8888) is configured on one side of the inner side of the enclosure configured in the shape of a rectangle;
a structure in which an outlet 88 for discharging cold water and hot water, respectively, is coupled to one side of the fluidic material molecule storage 8888;
a structure in which the fluidic material molecule processing unit 500 is coupled to the inside of the other side of the fluidic material molecule storage (8888) in the form of a rectangle;
a structure in which an upper water discharge pipe 101 for discharging fluid material molecules having a light specific gravity is coupled to one side of the fluid material molecule processing unit 500;
The upper end of the fluid material molecule processing unit 500 is configured to combine the upper supply line 999 for injecting the fluid material molecules composed of water, seawater or liquid with the supply amount control valve 991;
The upper end of the fluidic material molecule processing unit 500 by coupling the gravity generating strengthening unit 502 in the form of a funnel in the middle of the fluidic material molecule processing unit 500 and coupling the blocking plate 522 to the outer peripheral surface. A structure configured to form the upper part processing unit 502 while the part is blocked in a closed form;
At the lower end of the upper processing unit 502, a structure in which an upper gravity generating reinforcing unit 504 is configured in the form of a funnel;
The structure in which the intermediate material molecule processing unit 555 is coupled in a circular shape to the lower end of the upper gravity generation strengthening unit 504 configured in the funnel shape;
The intermediate material molecule processing unit 555 has a circular shape like a soccer ball and an empty space inside, and acts to eject gaseous material molecules or fluid material molecules from the entire outer circumferential surface on the outer circumferential surface. A plurality of fluids that act to process the gaseous material molecules or fluid material molecules flowing into the material molecule processing unit 555 while separating and processing the fluid material molecules with a heavy specific gravity other than a fluid material molecule with a light specific gravity A structure in which the air strike unit plate 5555 is configured to be coupled to the supply unit 5566, in which the sexual material molecule distribution hole 5567 is configured;
The lower end gravity diffusion unit 501 is coupled to the lower end of the intermediate material molecule processing unit 555 in an inverted funnel shape, and at the same time a sealing plate 522 is coupled to the outer peripheral surface of the fluid material molecule processing unit 500 ) structure in which the lower end processing unit 503 is configured in a form in which the lower end is sealed and blocked;
a structure in which a supply line (888) for supplying fluidic material molecules to the fluidic material molecule storage (8888) is coupled to the other side of the lower end of the fluidic material molecule processing unit (500);
In the supply line 888, a supply pump 8 that controls the supply amount while pumping the fluid substance molecules supplied from the fluid substance molecule processing unit 500 in an upward direction is coupled to the fluidic substance having a light specific gravity. Fluid with light specific gravity Molecules of light and fluid with heavy specific gravity by inducing the action of gravity, material friction, material explosion, material slashing, and mass rejection naturally generated by material molecules and fluid material molecules Specific gravity combined with polluted fluidic material molecules using the action of gravity and material explosion, featuring a nature-friendly, eco-friendly ultrapure water extractor (99999) applied to a nature-friendly eco-friendly method of separating and processing material molecules and extracting them A nature-friendly, eco-friendly ultrapure water extractor applied to an eco-friendly, eco-friendly method that separates and processes these light fluid molecules and clean fluid molecules with heavy specific gravity to extract ultra-pure fluid molecules.
According to any one of claims 1, 3, 4, 7, 8 selected from
A plurality of material catalysis inducing materials (9988) composed of mineral substances, vegetable substances or animal substances are installed at the bottom of the eco-friendly eco-friendly ultrapure water extractor (99999) to the inside of the eco-friendly eco-friendly ultrapure water extractor (99999). Fluidity with light specific gravity combined with polluted fluidic substance molecules using the action of gravity and material explosion, which is characterized by an eco-friendly, eco-friendly ultrapure water extractor that acts to change the material properties of the inflowing fluid substance molecules Nature-friendly eco-friendly ultra-pure water extractor applied to nature-friendly eco-friendly method to extract ultra-pure fluid material molecules by separating and processing material molecules and clean fluid material molecules with heavy specific gravity
According to any one of claims 1, 3, 4, 7, 8 selected from
Through the upper supply line 999 configured in combination with the eco-friendly eco-friendly ultrapure water extractor 99999, the fluid substance molecules composed of seawater, contaminated water, or liquid such as milk, alcohol, vinegar, or soy sauce are transferred to the fluid. Discharge discharged through the supply line 888 compared to 100wt% of the total amount introduced into the inside of the fluidic material molecule processing unit through the upper supply line 999 in a state of being injected into the inside of the sexual material molecule processing unit After configuring the structure of the supply line 888 to discharge 70wt% to 99.99wt% of the capacity, 100wt% of the total amount of inflow flowing into the inside of the fluid material molecule processing unit through the upper supply line 999 In contrast, by using the supply pump 8 coupled to the supply line 888, 70wt% to 99.99wt% of the fluidic substance molecules having a heavy specific gravity in the lower part of the fluidic substance molecule processing unit are transferred to the fluid. By controlling it to be pumped to the sexual material molecule storage (8888), 70wt% to 99.99wt% of the fluid material molecules having a heavy specific gravity are continuously discharged to the fluid material molecule storage (8888), and the remaining 0.01wt% with a light specific gravity ~30wt% of the fluidic material molecules are combined with the fluidic material molecules using a double separation/discharge structure that acts to discharge to the outside through the upper water discharge pipe 101, and the fluidic material molecules and specific gravity It is combined with polluted fluidic material molecules using the action of gravity and material explosion, which features an eco-friendly, eco-friendly ultrapure water extractor (99999) applied to the eco-friendly method to separate and process these heavy fluid molecules. Nature-friendly eco-friendly ultrapure water extractor applied to nature-friendly eco-friendly method to extract ultrapure fluidic material molecules by separating and processing light fluid material molecules with heavy specific gravity and clean fluid material molecules with heavy specific gravity In an ultrapure water extractor that is configured in a rectangular shape, a plurality of partitions are formed inside, and a fluid material molecule overflow hole 250 is coupled to the upper side to separate and extract the fluid material molecules.
The structure in which a horizontal partition 2000 is configured on the inner bottom of the ultrapure water extractor 99999 that is configured in the shape of a rectangle and the fluidic material molecule overflow port 250 is coupled to the upper side to separate and extract the fluidic material molecules ;
At the upper end of the horizontal partition 2000, a plurality of partitions 100, 220, 320, 330, 400, and 500 are configured in a partition structure;
At the lower end of the partition (100, 220, 320, 330, 400, 500), the low-rise water passage (110, 210, 310331, 410, 510) is configured with a step difference;
In the middle of the partitions (100, 220, 320, 330, 400, 500) a structure in which an intermediate passage 860 is configured, respectively;
The partition (100, 220, 320, 330, 400, 500) has a structure in which a movement guide plate 840 is configured, respectively;
After configuring the lower end blocking plate 370 so that the lower end is blocked in a closed form inside the partition (100, 220, 320, 330, 400, 500), the lower end at the upper end of the lower end blocking plate 370 has a wide structure, and the upper portion is narrow. a structure in which the upper reducer pipe 305 is combined;
a structure in which a fluidic material molecule front part movement path 516 is configured on the front part of the upper reducer pipe 305;
a structure in which an air striking unit 200 having a gas ejection hole 350 configured therein is coupled to the upper end of the upper reducer pipe 305;
a structure in which an upper reducer pipe 306 is formed in the upper end of the air striking unit 200 in which the lower end has a narrow shape and the upper end has a wide form;
a structure in which a fluidic material molecule transfer path 515 is formed on the rear surface of the upper reducer pipe 306;
a structure in which the upper end blocking plate 360 is coupled to form a closed structure while blocking the upper portion at the upper end of the upper reducer pipe 306;
a structure in which a discharge pipe 880 coupled to a discharge control valve 87 is configured at the other lower end of the ultrapure water extractor 99999;
A structure in which an upper water discharge pipe 101 for discharging fluid material molecules having a light specific gravity is coupled to the other upper side of the ultrapure water extractor 99999;
Contamination using the action of gravity and material explosion, which is characterized by a nature-friendly ultrapure water extractor 99999 coupled to an upper supply line 999 for injecting fluid material molecules at the upper end of one side of the ultrapure water extractor 99999 It is a nature-friendly eco-friendly method applied to the eco-friendly method that extracts ultra-pure fluidic material molecules by separating and processing light-weight fluidic material molecules and heavy, heavy-gravity fluidic material molecules combined with Eco-friendly ultrapure water extractor
In an ultrapure water extractor that separates and extracts fluid material molecules
The structure of the material molecule processing units (901, 902, 903, 904, 905, 906) each configured in a rectangular shape and in a shape inclined in one side and the other direction, and in a shape in which sequential step-step steps are formed;
a structure in which upper water discharge pipes 101 for discharging fluid material molecules having light specific gravity are coupled to the other upper side of the material molecule processing unit (901, 902, 903, 904, 905, 906);
a structure in which an upper supply line 999 for injecting fluid material molecules is coupled to an upper portion of the material molecule processing unit 901;
The material molecule processing unit ( a structure in which the lower end moving passage 700 is coupled to the material molecule processing unit 902 in a inclined form in 901);
a structure in which an intermediate movement passage 900 for moving the fluid material molecules with heavy specific gravity and fluid material molecules with light specific gravity up and down is combined in the middle part of the material molecule processing units 901 and 902;
Low-layer water with a heavy specific gravity flowing into the material molecule processing unit 902 between the lower ends of the material molecule processing units 902 and 903 flows down in the direction of the material molecule processing unit 903. a structure in which the passage 800 is coupled;
a structure in which an intermediate passage 900 is coupled to the middle portion of the material molecule processing units 902 and 903;
a structure in which the lower end of the material molecule processing unit (903) is coupled to the lower end of the movement passage (700) in an inclined shape so that the fluid material molecules flow down in the direction of the lower end of the material molecule processing unit (904);
a structure in which an intermediate movement passage 900 is coupled to an intermediate portion of the material molecule processing units 903 and 904;
Low-floor water with a heavy specific gravity flowing into the material molecule processing unit 904 between the lower ends of the material molecule processing units 904 and 905 flows down in the direction of the material molecule processing unit 905. a structure in which the passage 800 is coupled;
a structure in which an intermediate movement passage 900 is coupled to an intermediate portion of the material molecule processing units 904 and 905;
a structure in which the lower end movement passage 700 is coupled in an inclined shape so that the fluid material molecules flow down from the lower end of the material molecule processing unit 905 to the lower end of the material molecule processing unit 906;
a structure in which an intermediate movement passage 900 is coupled to an intermediate portion of the material molecule processing units 905 and 906;
The lower end blocking plate 370 is constructed so that the lower end is blocked in a closed form inside the material molecule processing unit 901,902,903,904,905,906, which is inclined in the left and right directions and is configured to form left and right steps. A structure in which the upper reducer pipe 305 is coupled to the upper end of the blocking plate 370, the lower end having a wide structure and the upper end having a narrow form;
a structure in which a fluidic material molecule front part movement path 516 is configured on the front part of the upper reducer pipe 305;
a structure in which an air striking unit 200 having a gas ejection hole 350 configured therein is coupled to the upper end of the upper reducer pipe 305;
a structure in which an upper reducer pipe 306 is formed in the upper end of the air striking unit 200 in which the lower end has a narrow shape and the upper end has a wide form;
a structure in which a fluidic material molecule transfer path 515 is formed on the rear surface of the upper reducer pipe 306;
The action of gravity and the material characterized by a nature-friendly ultrapure water extractor (99999) coupled to the upper end blocking plate 360 to form a closed structure while blocking the upper portion at the upper end of the upper reducer pipe 306 An eco-friendly, eco-friendly method that extracts ultrapure fluid molecules by separating and processing light-weight fluid-material molecules and heavy-gravity clean fluid-material molecules combined with contaminated fluid-based material molecules using an explosive action Eco-friendly ultrapure water extractor applied to In an ultrapure water extractor that separates and extracts fluid material molecules
The structure of the primary fluid material molecule processing unit 111 having a wide upper side and a narrow conical shape at the lower side;
In the next step of the primary fluid material molecule processing unit 111, the secondary fluid material molecule processing unit 222 has a narrow shape in the upper side, a wide shape in the middle in a jar shape, and a narrow rhombic shape at the lower end. The structure of the fluid material molecule processing unit 9999 configured with a difference;
The structure of the nature-friendly ultrapure water extractor (99999) configured with a continuous step step difference in the structure of the fluid material molecule processing unit (9999);
Between the first fluid material molecule processing unit 111 and the secondary fluid material molecule processing unit 222, the fluid material molecules having a light specific gravity act to float upward by the action of gravity and at the same time A structure in which upper and lower cross-movement paths (896 and 897) of material molecules act to move in the downward direction by the action of gravity, respectively;
The first fluidic material molecule processing unit 111 and the second fluidic material molecule processing unit 222 are respectively coupled to the material molecule transfer passages 777 between the lower ends of the fluidic material molecule processing unit 222 so that the fluid material molecules with heavy specific gravity are processed in the next step. While acting to move to the lower part of the fluid material molecule processing unit 9999 configured in the The structure of the nature-friendly eco-friendly ultrapure water extractor (99999) configured to rise in the direction;
The first fluid material molecule processing unit 111 and the second fluid material molecule processing unit 222 on the other side of the upper side to discharge the fluid material molecules having a light specific gravity
a structure in which the upper water discharge pipe 101 is coupled to each other;
At the lower ends of the first fluid material molecule processing unit 111 and the secondary fluid material molecule processing unit 222, the fluid material molecules collected at the lower end are hit to form a fluid material molecule with a light specific gravity and a heavy material molecule with a heavy specific gravity. a structure in which each of the striking units 85 acting to separate the fluidic material molecules is constituted;
a structure in which an upper supply line 999 for injecting fluidic material molecules is coupled to an upper side of the first fluidic material molecule processing unit 111;
a structure in which a supply line 99 for injecting fluid material molecules with a strong pressure of 1 bar to 3000 bar is coupled to the other upper side of the primary fluid material molecule processing unit 111;
On the other side of the lower end of the fluid material molecule processing unit 9999, a discharge pipe 88 and a discharge control valve 87 for discharging fluid material molecules with heavy specific gravity collected at the lower end are configured to form a fluid material with a light specific gravity The specific gravity combined with the polluted fluidic material molecules using the action of gravity and the material explosion, which features a nature-friendly ultrapure water extractor (99999) that acts to strike and separate molecules and molecules of fluid substances with heavy specific gravity. A nature-friendly, eco-friendly ultrapure water extractor applied to an eco-friendly, eco-friendly method that separates and processes these light fluid molecules and clean fluid molecules with heavy specific gravity to extract ultra-pure fluid molecules.
In an ultrapure water extractor that separates and extracts fluid material molecules
a structure of the lifting unit 6060 configured in a ∪-shape;
In the state in which the upper reducer pipe 300 is configured in a state where the upper portion is wide and the lower portion is narrow in the interior of the lifting unit 6060, the upper portion at the lower end of the upper reducer pipe 300 is narrow The lower part is configured to combine the lower reducer pipe 3030 configured in a wide shape so that the fluid material molecules with heavy specific gravity move in the downward direction by sealing the lower part of the lifting unit 6060 to have a light specific gravity. the structure of the lifting unit 6060, which acts to move the fluid material molecules in an upward direction and at the same time act to move the fluid material molecules having a heavy specific gravity in a downward direction;
a structure in which upper water discharge pipes 101 for discharging fluid material molecules having light specific gravity to the outside are coupled to the other side of the lifting unit 6060;
Secondary processing composed of an ∩-shape on the other side of the lifting unit 6060 in which the ejection unit 86 for ejecting gaseous material molecules or fluid material molecules is respectively coupled to the lower end of the lifting unit 6060 a structure of the fluid material molecule processing unit 7070 configured in combination with the unit 8080;
In the interior of the secondary processing unit 8080, an upper reducer pipe 300 having a wide upper portion and a narrow lower portion is configured to seal the upper portion of the secondary processing unit 8080, so that the specific gravity is heavy. In a state in which the fluidic material molecules are guided to move in the downward direction and at the same time, the fluidic material molecules having a light specific gravity are configured to be moved in the upward direction, the upper portion at the lower end of the upper reducer pipe 300 has a narrow shape and the lower portion The part is configured to combine the lower reducer pipe 3030 composed of a wide shape
Thus, the fluid material molecules having a light specific gravity are guided to move in the upward direction, and at the same time, the fluid material molecules having a heavy specific gravity are moved downward by sealing the upper part of the secondary processing unit 8080 to move the fluid with a light specific gravity. The secondary processing unit 8080, which acts to move the sexual material molecules in the upward direction, causes the fluid material molecules with heavy specific gravity to move in the downward direction by using the structure of the fluid material molecule separation unit (3000). bonding structure;
Combination structure of nature-friendly ultrapure water extractor 99999 sequentially configured using the fluid material molecule processing unit 7070 configured with a step difference from one direction to the other in a stepwise form;
The other side 20 cm of the fluid material molecule processing unit 7070 sequentially composed of clean fluid material molecules with heavy specific gravity collected at the lower end of the other side of the fluid material molecule processing unit 7070 configured with a step difference, respectively. a structure in which the lower part of the movement passage 600, which acts to move the part of ~2m, is sequentially combined;
a structure in which an intermediate movement passage 660 that acts to move the fluid material molecules moving to the middle part of the fluid material molecule processing unit 7070 configured with a step difference, respectively, in the left and right directions is formed;
A striking unit 85 that acts to strike the fluid material molecules collected at the lower end of the fluid material molecule processing unit 7070 configured with a step difference, respectively, using gas or fluid material molecules structure;
A nature-friendly combination of a discharge pipe 880 coupled with a discharge control valve 87 for discharging fluid material molecules with heavy specific gravity to the lower end of one side of the fluid material molecule processing unit 7070 configured at the end Using the action of gravity and material explosion, which is characterized by the ultrapure water extractor (99999), it separates and processes the light-weight fluid material molecules and heavy-gravity clean fluid material molecules that are combined with the contaminated fluid material molecules. Eco-friendly, eco-friendly ultra-pure water extractor that is applied to an eco-friendly and eco-friendly method that extracts ultrapure water molecules
In an ultrapure water extractor that separates and extracts fluid material molecules
The upper part has a structure of an upper fluid material molecule processing unit 5005 configured in a circular straight shape;
The lower portion of the upper fluid material molecule processing unit 5005 is inclined from the other side to one side of 20 degrees to 70 degrees, and the lower part fluid material molecule processing unit 5000 is composed of a plurality of sequential steps. structure;
From the lower end of the lower fluid material molecule processing unit 5000, which is sequentially configured at the lower end of the upper fluid material molecule processing unit 5005, it is continuously coupled with a height of 20 cm to 150 cm in the upward direction with a step difference From the lower part of the lower part fluid material molecule processing unit (5000), the upper side of the lower part fluid material molecule processing unit (5000), in which the fluid material molecules with heavy specific gravity stored in the lower part of the lower part fluid material molecule processing unit (5000) are combined with a sequential step difference. The structure of the lower part moving passage 5050 which is configured to be continuously moved in a portion of 20 cm to 150 cm;
The structure of the intermediate movement passage 5060 that acts to move the fluid material molecules between the middle portions of the lower portion fluid material molecule processing unit 5000 in the upper middle portion of the lower fluid material molecule processing unit 5000;
The upper portion of the lower portion of the fluidic material molecule processing unit 5000 by using the upper reducer pipe 300 having a wide upper portion and a narrow lower portion inside the lower portion fluidic material molecule processing unit 5000 is used. a structure of the fluid material molecule separation unit 3000 that seals the fluid material molecules having a light specific gravity to move upward and at the same time acts to move the fluid material molecules having a heavy specific gravity downward;
At the lower end of the upper reducer pipe 300, a lower reducer pipe 3030 having a narrow upper portion and a wide lower portion is coupled to the lower portion of the upper reducer pipe 300 so that the fluidic material molecules with heavy specific gravity are moved in the lower direction. a structure in which the lower end of the lower end fluidic material molecule processing unit 5000 is sealed to act;
a structure in which an upper supply line 999 for injecting fluidic material molecules into an upper portion of the lower portion fluidic material molecule processing unit 5000 configured first;
a structure in which upper water discharge pipes 101 for discharging fluid material molecules with light specific gravity are respectively coupled to the upper portion of the other side of the lower end fluid material molecule processing unit 5000, each having a sequential step difference;
A nature-friendly ultrapure water extractor (99999) in which a discharge pipe 880 coupled with a discharge control valve 87 is coupled to the lower end of the lower end fluidic material molecule processing unit 5000 having a sequential step difference, respectively. ), using the action of gravity and material explosion to separate and process light-weight fluid material molecules and heavy-gravity clean fluid material molecules that are combined with contaminated fluid material molecules to form ultrapure fluidity Nature-friendly eco-friendly ultrapure water extractor applied to nature-friendly eco-friendly method to extract material molecules
3. The method of claim 2
A rotating striking body for generating nano-microbubbles coupled with a rotating body 850 inside the lower end gravity generating material molecule processing unit 104 configured in a circular shape at the lower end of the fluid material molecular processing unit 9999 (851) was constructed;
a structure of the processing unit 103 for generating intermediate gravity configured on the upper portion of the material molecule processing unit 104 for generating gravity at the lower end;
The structure of the upper processing unit 102 for generating gravity is configured at the upper end of the processing unit 103 for generating the intermediate gravity;
The rotating striking body 851 for generating nano-microbubbles coupled with the rotating body 850 in the upper processing unit 102 for generating gravity is sequentially configured in the up and down directions to sequentially strike the fluidic material molecules A nature-friendly ultrapure water extractor (99999), which is configured to separate and extract fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity by separating the fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity by top and bottom separation ), using the action of gravity and material explosion to separate and process light-weight fluid material molecules and heavy-gravity clean fluid material molecules that are combined with contaminated fluid material molecules to form ultrapure fluidity Nature-friendly eco-friendly ultrapure water extractor applied to nature-friendly eco-friendly method to extract material molecules
15. The method of claim 14
a structure of the lifting unit 6060 configured in a ∪-shape;
a structure in which a rotating striking body 851 for generating nano-microbubbles coupled to a rotating body 850 is sequentially configured inside the lifting unit 6060;
At the lower end of the lifting unit 6060, the ejection unit 86 for ejecting gaseous material molecules or fluid material molecules is coupled to the other side of the lifting unit 6060. The secondary is configured in an ∩ shape. a structure of the fluid material molecule processing unit 7070 configured in combination with the processing unit 8080;
The rotating striking body 851 for generating nano-microbubbles coupled with the rotating body 850 is sequentially configured in the upper and lower directions in the secondary processing unit 8080 to sequentially strike the fluid material molecules to sequentially hit specific gravity. A nature-friendly ultrapure water extractor (99999), which is configured to separate and extract the light fluid material molecule and the heavy specific gravity fluid material molecule by separating the light fluid material molecule and the heavy specific gravity fluid material molecule up and down Using the characteristic gravity action and material explosion action, ultrapure fluidic material molecules are separated and processed by light-weight fluidic material molecules and heavy-gravity clean fluidic material molecules combined with contaminated fluidic material molecules Nature-friendly eco-friendly ultrapure water extractor applied to nature-friendly eco-friendly method of extracting
15. The method of claim 14
A lower layer material molecule separation plate provided with a fluid movement passage 1030 that acts to allow fluid material molecules to freely pass between the upper and lower portions inside the lifting unit 6060 and the secondary processing unit 8080 ( 1010) was constructed;
In the upper portion of the lower layer material molecule separator 1010, 5 wt% to 30 wt% of the area of the fluid passage 1030 included in the lower layer material molecule separator 1010 is wider than 100 wt%, the fluid passage 1030 is wider. ) constitutes the upper layer material molecular separator 1020, so that the fluid material molecules with a light specific gravity work to rise to the upper layer by the action of gravity and the material pushing action, and at the same time, the gravity of the clean fluid material molecules with heavy specific gravity structure configured to move to the lower part by the action of;
Between the lower layer material molecular separator 1010 and the upper layer material molecular separator 1020, a vegetable material or a mineral material that acts to change the properties of the fluid material molecules is introduced to determine the properties of the fluid material molecules Molecules of matter that act to change the fluidic material molecules with a light specific gravity coupled with the contaminated fluidic material molecules using the action of gravity and the action of material explosion, each of which has a structure that constitutes the passage 5858 for changing properties. A nature-friendly, eco-friendly ultrapure water extractor applied to a nature-friendly eco-friendly method that separates and processes clean fluidic material molecules with heavy specific gravity and extracts ultrapure fluidic material molecules
a structure in which a fluid material molecule storage (8888) is configured on one side of the inner side of the enclosure configured in the shape of a rectangle;
a structure in which an outlet 88 for discharging cold water and hot water, respectively, is coupled to one side of the fluidic material molecule storage 8888;
The structure of the fluidic substance molecule processing unit 770 in which a pipe composed of a gradually thinner thickness while descending from an upper part to a downward direction on the other side of the fluidic substance molecule storage 8888 is in the form of a spring;
Inside the fluidic material molecular processing unit 770, clean fluidic material molecules with heavy specific gravity act to move in the downward direction, while the upward direction reducer acts to float fluidic material molecules with light specific gravity upward. a structure in which a plurality of material molecule separation units 502 are combined with a 501 and a lower-direction reducer 503;
a structure in which an upper supply line 999 for injecting fluidic material molecules is coupled to an upper portion of the fluidic material molecule processing unit 770;
a structure in which an upper water discharge pipe 101 for discharging fluid material molecules having a light specific gravity is coupled to one upper side of the fluid material molecular processing unit 770;
a structure in which a supply line 888 for supplying fluidic material molecules to the fluidic material molecule storage 8888 is coupled to one side of the lower end of the fluidic material molecule processing unit 770;
The supply line 888 has a structure in which a supply pump 8 for controlling the supply amount while pumping the fluid substance molecules supplied from the fluid substance molecular processing unit 770 in an upward direction is coupled to the supply line 888;
On the other side of the lower end of the fluid material molecular processing unit 770, a gaseous material molecule supply unit 773 for supplying gaseous material molecules to the inside of the fluid material molecular processing unit 770 is combined, so that the specific gravity is light. Fluid material molecules with light specific gravity by inducing the action of gravity, material frictional action, material explosion action, material scraping action, material rejection action, and mass pushing action naturally generated by fluid material molecules and fluid material molecules with heavy specific gravity It features a nature-friendly, eco-friendly ultrapure water extractor (99999) applied to a nature-friendly eco-friendly method that separates and processes fluid substance molecules with heavy specific gravity and fluid substance molecules polluted using the action of gravity and material explosion. Nature-friendly eco-friendly ultrapure water extractor applied to nature-friendly eco-friendly method that extracts ultrapure fluidic material molecules by separating and processing the combined fluidic material molecules with light specific gravity and clean fluidic material molecules with heavy specific gravity
20. The method of claim 19
The structure of the fluid material molecular processing unit 770 is gradually smaller by 1 wt% to 20 wt% than the water passage cross-sectional area of the upper processing pipe unit 771 and the upper processing pipe unit 771 having a large passage area. The action of gravity and material explosion, which is characterized by a nature-friendly eco-friendly ultrapure water extractor that is constructed by combining the fluid material molecular processing unit 770, which is formed by sequentially combining the lower processing unit 772, which is composed of a falling structure. It is applied to a nature-friendly eco-friendly method that extracts ultrapure fluidic substance molecules by separating and processing light fluid substance molecules and heavy, clean fluid substance molecules that are combined with polluted fluid substance molecules. Eco-friendly, eco-friendly ultra-pure water extractor
15. The method of claim 14
a structure of the lifting unit 6060 configured in a ∪ shape with a step difference from one side to the other;
The upper reducer pipe 300 and the upper part are narrow and the lower part is formed in a wide form in which the upper part is wide and the lower part is narrow in the inside of the rising unit 6060 configured with a step difference, respectively. The coupling structure of the material molecule separation induction unit 8899 to which the lower reducer pipe 3030 is coupled;
The upper part is wide inside the secondary processing unit 8080, which is configured in an ∩ shape on the other side of the lifting unit 6060, with a difference between the upper and lower steps, and the upper part is configured in a narrow shape. Nature-friendly consisting of; Using the action of gravity and material explosion, which is characterized by a phosphorus eco-friendly ultrapure water extractor, ultrapure water is obtained by separating and processing light fluidic material molecules with light specific gravity and clean fluidic material molecules with heavy specific gravity combined with polluted fluidic material molecules. Eco-friendly ultrapure water extractor applied to the eco-friendly method of extracting the fluid molecules of
13. The method of claim 12
When the average size of the total volume ratio of the material molecule processing units (901,902,903,904,905,906) each of a rectangular shape and a shape inclined in one side and the other direction and a shape in which sequential step steps are formed is 100wt%
a structure in which the volume ratio size of the primary material molecule processing unit 901 is 110wt% to 250wt%;
a structure in which the volume ratio size of the secondary material molecule processing unit 902 is 80wt% to 99wt%;
a structure in which the volume ratio size of the tertiary material molecule processing unit 903 is 115wt% to 150wt%;
a structure in which the volume ratio size of the quaternary material molecule processing unit 904 is 80wt% to 120wt%;
a structure in which the volume ratio size of the fifth material molecule processing unit 905 is 180wt% to 199wt%;
Contaminated fluidic material molecules and Nature-friendly eco-friendly ultrapure water extractor applied to nature-friendly eco-friendly method that extracts ultrapure fluidic material molecules by separating and processing the combined fluidic material molecules with light specific gravity and clean fluidic material molecules with heavy specific gravity
In an ultrapure water extractor that separates and extracts fluid material molecules
a structure in which the upper end primary separation unit 611 is configured in a straight shape as a structure of a pipe;
a structure in which an upper supply line 999 for injecting fluid material molecules into one side of the upper end of the primary separation unit 611 is configured;
a structure in which upper water discharge pipes 101 for discharging fluid material molecules having a light specific gravity are respectively coupled to the upper portion of the other side of the primary separation unit 611;
a structure of a secondary separation unit 511 configured in a circular shape at the lower end of the primary separation unit 611;
a structure of the tertiary separation unit 612 configured in a straight line on the lower side of the secondary separation unit 511;
a structure of a quaternary separation unit 512 configured in a circular shape at the lower end of the tertiary separation unit 612;
a structure of a fifth separation unit 613 configured in a straight line at the lower end of the fourth separation unit 512;
a structure of the 6th separation unit 513 configured in a circular shape at the lower end of the 5th separation unit 613;
a structure of the 7th separation unit 614 configured in a straight line at the lower end of the 6th separation unit 513;
a structure of the 8th separation unit 514 configured in a circular shape at the lower end of the 7th separation unit 614;
a structure in which a final discharge line 615 is configured in an L-shape at the lower end of the eighth separation unit 514;
a structure of a fluid substance molecule processing unit 9900 configured by combining a supply line 888 for supplying fluid substance molecules to one side of the final discharge line 615 and a supply pump 8;
The structure of the nature-friendly ultrapure water extractor (99999) in which the structure of the fluid material molecule processing unit (9900) is combined with a step difference in the form of a step;
a structure in which a discharge pipe 88 coupled to a discharge control valve 87 is configured at the lower end of the other side of the ultrapure water extractor 99999 configured in the last step;
The supply line 888 and the supply line 888 formed between the lower end of the fluid material molecule processing unit 9900 and the upper end of the fluid material molecule processing unit 9900 coupled with each step in a stepped form Contaminated using the action of gravity and material explosion, which is characterized by a nature-friendly ultrapure water extractor (99999) consisting of a structure of a fluid material molecule processing unit (9900) constructed by sequentially coupling the supply pump (8) Eco-friendly and eco-friendly applied to nature-friendly eco-friendly method that extracts ultra-pure fluid molecules by separating and processing light fluid substance molecules and heavy fluid substance molecules combined with fluid substance molecules ultrapure water extractor
In an ultrapure water extractor that is configured in a rectangular shape, a plurality of partitions are formed inside, and a fluid material molecule overflow hole 355 is coupled to the upper side to separate and extract the fluid material molecules.
The structure in which a horizontal partition 2000 is configured on the inner bottom of the ultrapure water extractor 99999 that is configured in the shape of a rectangle and the fluidic material molecule overflow hole 355 is coupled to the upper side to separate and extract the fluidic material molecules ;
a structure in which a discharge pipe 88 coupled to a discharge control valve 87 is configured at the lower end of the other side of the ultrapure water extractor (99999);
a structure in which a striking unit 881 is configured on one side and the other lower end of the fluid material molecule overflow hole 355, respectively;
After constructing a connection pipe 889 between the lower side and the upper side of the fluidic material molecule overflow port 355, a pumping means 899 is coupled to one side of the connection pipe 889, and the upper end of the ultrapure water extractor 99999 The ultrapure water extractor 99999 by using the pumping means 899 after hitting the fluid material molecules with a light specific gravity flowing into the inside of the fluid material molecule overflow hole 355 through the striking unit 881. a structure configured to re-pump to the upper side of the;
a structure in which upper water discharge pipes 101 for discharging fluid material molecules having light specific gravity are respectively coupled to one side of the upper end of the fluidic material molecule overflow hole 355;
On the other side of the upper side of the ultrapure water extractor (99999), a structure in which a double injection pipeline 1101 for doubly injecting fluid or gaseous material molecules is configured;
At the upper end of the horizontal partition (2000), a plurality of material molecule separation partitions (911,912,913,914) that act to separate fluidic material molecules having a light specific gravity and fluidic material molecules having a heavy specific gravity in an unspecified area in the upper and lower directions are configured a structure in which the material molecule separation units (811, 812, 813, 814, and 815) are configured in a Kankan structure;
In the interior of the material molecule separation unit (811, 812, 813, 814, 815), an internal discharge pipe 117 for discharging fluid or gaseous material molecules to the upper side of the ultrapure water extractor 99999 is configured to be combined with a discharge control valve;
a structure in which an upper pipe 116 and a lower pipe 118 are respectively configured between the lower end and the upper side of the material molecule separation unit (811, 812, 813, 814, 815);
a structure in which a separation filtration membrane 121 is formed between the upper pipe 116 and the lower pipe 118 to separate fluid and gaseous material molecules;
a structure in which an intermediate separator 119 is configured in the inside of the separation filtration membrane 121;
On one side of the separation filtration membrane 121, a separation filtration membrane control pipe 120 for discharging fluid or gaseous material molecules is combined with a discharge control valve, respectively;
At the lower end of the material molecule separation partitions (911 and 914), the low-level water movement passage 711, which acts to separate the fluid material molecules having a light specific gravity and the fluid material molecules having a heavy specific gravity, is configured with a step difference;
In the middle of the material molecule separation partitions (911,912,913,914)), intermediate material molecules passing passages (712,713,714,715) that act to separate fluidic material molecules with light specific gravity and fluidic material molecules with heavy specific gravity up and down are respectively Structures consisting of structures with incorrect dimensions;
The lower end blocking plate 24 is configured inside the material molecule separation units 811, 812, 813, 814, and 815 so that the lower end is blocked in a closed form, and then the lower end has a wide structure and the upper end has a narrow shape at the upper end of the lower end blocking plate 24 A structure combining the reducer pipe 3030 composed of;
a structure in which a fluid material molecule front part movement passage 21 is formed on the front part of the reducer pipe 3030;
A structure in which the air striking unit 200 in which a plurality of gas ejection holes 350 are densely configured is coupled to the upper end of the reducer pipe 3030;
a structure in which the upper reducer pipe 300 is configured in the upper end of the air striking unit 200 in which the lower end has a narrow shape and the upper part has a wide form;
a structure in which the upper rear portion of the upper portion of the reducer pipe 300 is provided with a fluidic material molecule movement passage 22;
A structure in which the primary material molecule processing unit (1) is coupled to the upper part blocking plate (23) to form a closed structure while blocking the upper part on the upper part of the upper reducer pipe (300);
At the upper end of the primary material molecule processing unit (1), the lower end blocking plate 24 is configured so that the lower end is blocked in a sealed form, and then the lower end has a wide structure at the upper end of the lower end blocker plate 24, and the upper portion is A structure in which the reducer pipe 3030 configured in a narrow shape is combined;
a structure in which a fluid material molecule front part movement passage 21 is formed on the front part of the reducer pipe 3030;
At the upper end of the reducer pipe 3030, a plurality of gas ejection holes 350 that act to eject fluid material molecules such as gas or water therein to strike the fluid material molecules are densely composed of an air striking unit. (200) a combined structure;
a structure in which the upper reducer pipe 300 is configured in the upper end of the air striking unit 200 in which the lower end has a narrow shape and the upper part has a wide form;
a structure in which the upper rear portion of the upper portion of the reducer pipe 300 is provided with a fluidic material molecule movement passage 22;
A structure in which the secondary material molecule processing unit (2) coupled to the upper part blocking plate (23) to form a closed structure while blocking the upper part on the upper part of the upper reducer pipe (300), respectively;
a structure in which a material molecule blocking plate 10 is coupled to the upper end of the secondary material molecule processing unit 2;
The lower end of the material molecule blocking plate 10 has a structure in which an upper pipe 9 having a wide upper end and a reducer pipe 7 having a narrow lower end are coupled to each other;
The upper pipe (9) has a structure in which a material molecule separation passage (8) that acts to separate fluid material molecules having a light specific gravity and a fluid material molecule having a heavy specific gravity is formed in an upper direction and a lower direction;
At the end of the reducer pipe 7, a plurality of gas ejection holes 350 that act to blow the fluid material molecules such as gas or water therein are densely configured. a structure in which the tertiary material molecule processing unit (3) is formed by combining the units (6);
a structure in which a lower end blocking plate 51 is coupled to the upper side of the tertiary material molecule processing unit 3;
On the upper side of the lower end blocking plate 51, the lower end of the reducer pipe (4) is composed of a wide structure and the upper end is composed of a reducer pipe (20) composed of a narrow pipe (5) structure;
a structure in which the upper end of the reducer pipe 20 is coupled to the upper blocking plate 52 to form a fluid material molecule processing unit 9999 having the structure of the quaternary material molecule separation unit 4;
On the upper side of the fluid material molecule overflow hole 355, a double material molecule overflow hole 77777 for collecting gaseous material molecules and fluid material molecules floating upward through the internal discharge pipe 117 is formed in a rectangular shape. a structure that is in the form of an enclosure while being in the form of;
a structure in which a second upper water discharge pipe 993 is respectively coupled to the lower end of the double material molecule overflow hole (77777);
a structure in which a third outlet 992 for discharging fluid material molecules having a light specific gravity is formed on one upper side of the double material molecule overflow hole (77777);
A gaseous material molecule outlet 990 for discharging gaseous material molecules is configured at the upper end of the double material molecule overflow port 77777 to separate fluidic material molecules with light specific gravity and fluidic material molecules with heavy specific gravity. Using the action of gravity and material explosion, which is characterized by a nature-friendly ultrapure water extractor (99999) configured to act or process to give, fluid material molecules with light specific gravity combined with polluted fluid material molecules and specific gravity A nature-friendly, eco-friendly ultra-pure water extractor applied to an eco-friendly, eco-friendly method that separates and processes these heavy, clean fluid molecules to extract ultra-pure fluid molecules.
25. The method of any one of claims 12 and 24
The structure of the material molecule separation partition formed inside the fluid material molecule processing unit 9999 is configured in the form of a material molecule separation partition 911 configured in an unspecified curved shape, so that the fluidic material molecule having a light specific gravity Fluid with light specific gravity combined with polluted fluidic material molecules using the action of gravity and material explosion, featuring a nature-friendly ultrapure water extractor (99999) that works to separate the fluidic material molecules with heavy specific gravity Nature-friendly eco-friendly ultra-pure water extractor applied to nature-friendly eco-friendly method that extracts ultra-pure fluid material molecules by separating and processing raw material molecules and clean fluid material molecules with heavy specific gravity
In an ultrapure water extractor that separates and extracts fluid material molecules
The structure of the primary processing unit 895 consisting of a reducer pipe 894 consisting of an upper part having a wide shape and a lower part having a narrow shape;
A structure in which the secondary processing unit 893 is combined by combining the reducer pipe 892 having a wide upper portion and a narrow lower portion at the upper end of the primary processing unit 895;
a structure in which a fluid material molecule processing unit 9999 is formed by coupling a pipe 891 to the upper end of the secondary processing unit 893;
a structure in which upper water discharge pipes 101 for discharging fluid material molecules having a light specific gravity are respectively coupled to the other side of the fluid material molecule processing unit 9999;
By using the fluid material molecule processing unit 9999, several of the fluid material molecule processing units 9999 are installed so that steps are formed in a stepwise form and in the left and right directions, respectively. constructed structure;
a structure in which an upper supply line 999 for injecting fluid material molecules into the upper end of the fluid material molecule processing unit 9999 is configured;
A material molecule movement path 777 between the lower end of the fluid material molecule processing unit 9999 and the middle lower end of the fluid material molecule processing unit 9999, which is stepped in the left and right direction with a step difference. Fluid material molecules with heavy specific gravity by combining each act to move to the lower part of the fluid material molecule processing unit 9999 configured in the next step, and at the same time, fluid material molecules with light specific gravity are subjected to the action of gravity. The structure of the eco-friendly eco-friendly ultrapure water extractor (99999) configured to rise upward by the material pushing action and the material cutting action generated by the
Fluid material molecules with a light specific gravity between the lower end of the fluid material molecule processing unit 9999 and the lower middle portion of the fluid material molecule processing unit 9999, which are stepped in the left and right direction and have a step difference, are The upper and lower cross movement paths (896 and 897) of material molecules act to float upward by the action of gravity, and at the same time, clean fluid material molecules with heavy specific gravity are moved in the downward direction by the action of gravity. let structure;
At the lower end of the fluid material molecule processing unit 9999, which is individually configured with step-by-step steps in a step-by-step manner, an air striking unit 200 for injecting fluid material molecules such as air or water is coupled to each other. ;
A discharge pipe 88 and a discharge control valve for discharging fluid material molecules with heavy specific gravity to the lower end of the fluid material molecule processing unit 9999 configured at the other end of the eco-friendly eco-friendly ultrapure water extractor 99999 Contamination using the action of gravity and material explosion, characterized by a nature-friendly ultrapure water extractor (99999) that constitutes (87) and separates fluidic material molecules with light specific gravity and fluidic material molecules with heavy specific gravity It is a nature-friendly eco-friendly method applied to the eco-friendly method that extracts ultra-pure fluidic material molecules by separating and processing light-weight fluidic material molecules and heavy, heavy-gravity fluidic material molecules combined with Eco-friendly ultrapure water extractor
Claims 1, 3, 4, 7, 8, 11, 12, 13, 14, 15, 23, 24, 26 according to any one of the claims
The fluid material molecule processing unit using the air striking unit 200 in a state in which the fluid material molecules are accommodated inside the fluid material molecule processing unit coupled with the nature-friendly eco-friendly ultrapure water extractor (99999) Fluidity with light specific gravity combined with polluted fluidic substance molecules using the action of gravity and material explosion, characterized in that the fluid substance molecules stored inside are hit and used for 10 minutes to 480,000 hours Nature-friendly eco-friendly ultra-pure water extractor applied to nature-friendly eco-friendly method to extract ultra-pure fluid material molecules by separating and processing material molecules and clean fluid material molecules with heavy specific gravity
Claims 1, 3, 4, 7, 8, 11, 12, 13, 14, 15, 23, 24, 26 according to any one of the claims
Fluid material molecules injected into the environment-friendly eco-friendly ultrapure water extractor (99999) are re-injected and then re-processed to form ultra-fine nano-microbubble particles. Fluid molecules with light specific gravity and clean fluidic substances with heavy specific gravity are combined with polluted fluidic material molecules using the action of gravity and material explosion, which is characterized by separating and processing these light fluidic material molecules. Nature-friendly eco-friendly ultra-pure water extractor applied to nature-friendly eco-friendly method that separates and processes molecules to extract fluid material molecules of ultra-pure water
Claims 1, 3, 4, 7, 8, 11, 12, 13, 14, 15, 23, 24, 26 according to any one of the claims
a structure in which the gaseous material molecule supply unit 7707 of the eco-friendly eco-friendly ultrapure water extractor 99999 is configured;
A structure in which a supply unit 3003, which acts to supply gaseous material molecules or fluid material molecules, is coupled to one side of the gaseous material molecule supply unit 7707;
By combining a plurality of supply pipes (7707) that supply gaseous material molecules or fluid material molecules to the inside of the partition (100, 200, 300, 400, 500) composed of a partition structure inside the eco-friendly eco-friendly ultrapure water extractor (99999) Strike with gaseous material molecules or fluidic material molecules supplied by the supply pipe 7707 as gaseous material molecules or fluidic material molecules flowing into the environment-friendly eco-friendly ultrapure water extractor (99999) The action of gravity and material explosion, characterized in that it is processed to separate the fluid material molecules with light specific gravity and fluid material molecules with light specific gravity, which are combined with the fluid material molecules, in the upper and lower directions. It is applied to a nature-friendly eco-friendly method that extracts ultrapure fluidic substance molecules by separating and processing light fluid substance molecules and heavy, clean fluid substance molecules that are combined with polluted fluid substance molecules. Eco-friendly, eco-friendly ultrapure water extractor
Claims 1, 3, 4, 7, 8, 11, 12, 13, 14, 15, 23, 24, 26 according to any one of the claims
Fluid material molecule storage unit configured to receive fluid material molecules composed of mineral or vegetable material or animal material in the interior of the upper supply line 999 coupled to the nature-friendly eco-friendly ultrapure water extractor 99999 The structure that made up (908);
Fluid material molecules are accommodated in the inside of the fluid material molecule accommodating unit 908 and the intermediate processing unit 302 to determine the properties of the fluid material molecules flowing into the eco-friendly, eco-friendly ultrapure water extractor 99999 Fluid with light specific gravity combined with polluted fluidic material molecules using the action of gravity and material explosion, featuring a nature-friendly eco-friendly ultrapure water extractor (99999) applied to a nature-friendly eco-friendly construction method that acts to change Nature-friendly eco-friendly ultra-pure water extractor applied to nature-friendly eco-friendly method that extracts ultra-pure fluid material molecules by separating and processing raw material molecules and clean fluid material molecules with heavy specific gravity

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