KR20160058735A - Nature friendly purification facility for separating polluted sludge - Google Patents

Abstract

The present invention relates to a fluidic substance molecule separator which can be applied to a nature friendly and environment-friendly method of separating and treating pollutant substance molecules combined to fluidic substances such as water and seawater or of collecting and reusing the same. The nature friendly and environment-friendly method of treating contaminant substance molecules separates and processes substance molecules having heavy specific gravity and substance molecules having light specific gravity combined to fluidic substance molecules such as fluidic food like fresh water, seawater, milk, alcoholic drinks, beverages; favorite food; and fluidic substance molecules such as blood.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a molecular separator for separating a fluid substance having a high specific gravity and a light specific substance molecule bonded to a gaseous substance molecule and a fluid substance molecule,

The present invention relates to a substance having light specific gravity and a specific gravity which is combined with a fluid substance such as fresh food, seawater, milk, liquor, drink, fluid food, palatable food and blood using gravity acceleration action and material explosion action, The present invention relates to a fluid material molecular separator applied to an environmentally friendly eco-friendly method for separating and processing such heavy fluid material molecules, and more particularly, to a fluid material separator for separating fluid materials such as seawater, fresh water, alcohol, beverage, blood, Obtaining the intrinsic components of the fluidic material molecule by using a fluidic material molecular separator configured to separate light pollutant molecules and heavy hydrostatic material molecules contained in the fluid into clean fluidic materials .

It is true that substances such as seawater, fresh water, alcohol, beverages, blood, milk, etc., contain substances with a low specific gravity. However, these substances could not be completely removed.

In particular, in milk, cows are raised by feeding a large amount of preservative into feed to prevent or treat dairy cow disease while raising cows.

It is also known that antiseptics and antibiotics are transferring antiseptics and antibiotics to humans who drink milk through milk, as long as they are administered a large amount of antibiotics to treat the disease when the cow is diseased. admit.

In addition, in order to extract chemical substances such as lithium or sodium components from the seawater, there is a problem that it is costly to use mainly the heating method.

In addition, since the pollutant molecules contained in the contaminated gas can not be completely separated, the problem of polluting the atmosphere by discharging the contaminated gas into the air is an important issue of the environment.

Reference is made to the prior art references 10-1418040, 10-1067023, 10-1346104, and 10-1291054, which provide techniques for processing fluid material molecules.

(Patent Document 1) KR10-1418040 B

(Patent Document 1) KR10-1067023 B

(Patent Document 1) KR10-1346104 B

(Patent Document 1) KR10-1291054 B

However, when the polluted gas is processed by injecting the contaminated gas into the fluid material separator constructed in accordance with the present invention, the pollutant molecules bound to the gaseous substance molecules are naturally released from the gas, And provides a technique for naturally purifying the gaseous substance molecules contaminated by the gas.

If a fluid material separator constructed according to the present invention is used, a large amount of sodium components can be easily extracted through a simple process to separate fresh water and seawater.

The object of the present invention is to completely remove contaminant molecules contained in material molecules such as seawater, fresh water, alcohol, beverage, blood, milk and the like to maintain a clean state.

In addition, it is an object of the present invention to completely remove contaminant molecules associated with seawater and to make edible fresh water or to extract contaminant molecules extracted from seawater to produce salt.

It is also an object of the present invention to separate pollutant molecules contained in polluted gas and purify contaminated gas.

In order to accomplish the above object, a fluid material separator according to the present invention comprises a fluid material molecule such as polluted seawater, fresh water, liquor, beverage, blood, milk, and a microparticle contaminant molecule contained in a gaseous material molecule In order to remove the fluid material and the gaseous substance molecules, they are directly impacted, or air is blown by blowing air by using the air blowing striking device. We want to produce pure fluid material molecules which are inherent to material molecules by using environmentally friendly method by removing pollutant molecules bound to fluidic and gaseous material molecules.

In order to remove contaminant molecules and particulate pollutants contained in seawater, the seawater is directly blown or processed by blowing air, and air is blown by using an air blow striking device, By using reverse osmosis, it is possible to completely remove contaminant molecules associated with seawater and to make edible fresh water or to extract contaminant molecules extracted from seawater to produce salt using environmentally friendly method.

The fluidic substance molecular separator according to the present invention can be prepared by directly blowing the microparticulate contaminant molecules contained in the fluidic substance molecules such as polluted seawater, fresh water, liquor, beverage, blood, milk, After the strike, it is possible to drink these fluid substances safely by removing the contaminant molecules with a specific gravity which is combined with these fluid material molecules by completely eliminating them by using gravity action. have.

In addition, in the present invention, all of the substance molecules have a mass, and the action of gravity generated according to the mass is a fresh water that can be consumed by removing contaminant molecules associated with seawater components using scientific phenomena It has the effect of producing salt by drying the substance molecules extracted from water or seawater.

In addition, in the present invention, the salt component having a trace amount of sodium component can be separated and extracted from the sea water, and then the salt component can be used as energy for easily burning by mixing salt components and other substances This has the effect of producing energy infinitely.

 Further, in the case of processing the pollutant molecules contained in the contaminated gas by using the material molecule separator constructed in accordance with the present invention, it is possible to prevent the collision of the material, the material friction, Alcohol or other substance molecules into which the substance molecules are introduced into the air as well as light substance molecules that are bonded to the gaseous substance molecules by their action, A neutralizing action occurs which is separated or neutralized. At the same time, the gravity moves the gaseous matter molecules, which are light in weight, to another molecular material separator, which is composed on the upper part, and is reworked. At the same time, The process of separating and separating the pollutant molecules bound to the gaseous substance molecules through the process of separating and discharging them into the lower outlet and the upper outlet formed in the molecular separator, .

In addition, the hemodialyzer, which has been conventionally used, separates harmful substance substances contained in the blood by using a filter, and then re-dialysis. However, since the contaminants associated with the blood can not be completely separated, However, this problem can be solved because there is a drawback that dialysis should be performed for about one time.

That is, when the blood is purified using the fluidic substance molecular separator constructed according to the present invention, the contaminant molecules bound to the pure blood by the material shock action, the material friction action, the material blow action, and the gravity action By completely separating the blood, it is possible to increase the healing effect of the disease by allowing the blood to be transferred to the patients.

FIG. 1 is a perspective view of a device for purifying a contaminated fluid which has been conventionally registered with the present invention as a patent No. 10-1291054,
Fig. 2 is a perspective view of Patent Publication No. 10-2015-0130949, which was invented and disclosed by the present inventor in the past,
3 is a front perspective view of a fluidic material molecular separator constructed in accordance with an embodiment of the present invention,
4 is a right side perspective view of a fluidic material molecular separator constructed in accordance with an embodiment of the present invention,
FIG. 5 is a top partial partial perspective view of an upper end portion of a fluid material separator constructed in accordance with an embodiment of the present invention,
FIG. 6 is a detailed top perspective view of an upper end portion of an upper end portion of a fluid material separator constructed in accordance with an embodiment of the present invention,
FIG. 7 is a partial detail perspective view of a fluid material molecule ejecting rod formed at an upper end of a fluid material separator according to an embodiment of the present invention, which ejects a fluid material molecule into the fluid material separator; FIG.
FIG. 8 is a detailed perspective view of a front processing plate in which a front plate of a fluid material separator constructed in accordance with an embodiment of the present invention is exploded; FIG.
FIG. 9 is a detailed top perspective view of a front plate of a fluid material separator according to an embodiment of the present invention,
FIG. 10 is a detailed top perspective view of an upper part of a fluid material separator constructed in accordance with an embodiment of the present invention, before a friction rod is coupled with a front plate,
FIG. 11 is a detailed perspective view of a friction rod, which is combined with a front plate of a fluid material separator according to an embodiment of the present invention,
FIG. 12 is a detailed perspective view of a rear processing plate shown in FIG. 12 by explaining a back side plate of a fluid material separator according to an embodiment of the present invention. FIG.
13 is a partially detailed perspective view of a rear processing plate shown in an exploded view of an upper end of a rear processing plate of a fluid material separator according to an embodiment of the present invention,
FIG. 14 is a partial detail perspective view showing a rotating shaft, a coupling flange and a rotary housing coupled with a rear machining plate of a fluid material separator constructed in accordance with an embodiment of the present invention,
15 is a partial detail perspective view showing a coupling relationship between a rotation shaft and a flange coupling bolt combined with a front portion of a rear processing plate formed in a fluid material separator according to an embodiment of the present invention;
16 is a partial detail perspective view showing a state in which a rotating shaft is coupled to a rotating plate installed in a front portion of a rear processing plate formed in a fluid material separator according to an embodiment of the present invention;
FIG. 17 is a detailed perspective view of an upper part showing the coupling structure between the U-shaped coupling band formed at the side surface portions of the fluid material separator and the filter membrane formed at the upper end portion and the upper rear edge of the upper plate according to the embodiment of the present invention,
FIG. 18 is a detailed perspective view of a lower end portion showing a coupling structure between a U-shaped coupling band formed on both side portions of the fluid material molecule separator and a lower air jet port formed on the lower end portion and a base frame and a vibrator according to an embodiment of the present invention. ,
19 is an exploded perspective view showing a state in which a front plate, a back plate, a fluid material molecule injection pipe, and an air injection pipe are removed from a fluid material separator according to an embodiment of the present invention;
20 is a perspective view illustrating a state in which a front plate of a fluid material separator constructed in accordance with an embodiment of the present invention is separated and removed,
FIG. 21 is a partially exploded perspective view showing an intermediate portion of a rotary striking device and air jet striking device constructed in a fluid material molecule separator according to an embodiment of the present invention,
FIG. 22 is a perspective view illustrating a state in which a front plate of a fluid material separator according to an embodiment of the present invention is separated and removed; FIG.
23 is a multistage perspective view showing a state in which the fluidic material molecular separator constructed in accordance with the embodiment of the present invention is installed step by step,
24 is a perspective view showing a fluid material molecule separator constructed according to an embodiment of the present invention,
FIG. 25 is an exploded perspective view showing a body of a fluid material separator constructed in accordance with an embodiment of the present invention,
FIG. 26 is an exploded perspective view of a fluid material separator constructed in accordance with an embodiment of the present invention,
27 is a cross-sectional perspective view of a fluidic material molecular separator constructed in accordance with an embodiment of the present invention,
28 is a partial perspective view of a forward rotation fixed striking rod and a reverse rotation rotating striking rod applied to an embodiment of the present invention,
29 is a cross-sectional perspective view of a fluidic material molecular separator constructed in accordance with an embodiment of the present invention,
Figure 30 is a cross-sectional perspective view of a fluidic material molecular separator constructed in accordance with an embodiment of the present invention,
31 is a cross-sectional perspective view of a fluidic material molecular separator constructed in accordance with an embodiment of the present invention,
32 is a cross-sectional perspective view of a fluidic material molecular separator constructed in accordance with an embodiment of the present invention,
33 is a cross-sectional perspective view of a fluidic material molecular separator constructed in accordance with an embodiment of the present invention,
34 is a cross-sectional perspective view showing a cross section of a fluid material separator constructed in accordance with an embodiment of the present invention,
35 is a cross-sectional perspective view showing a cross-section of a fluid material separator constructed in accordance with an embodiment of the present invention,
FIG. 36 is a cross-sectional perspective view showing a cross section of a fluidic material molecular separator constructed in accordance with an embodiment of the present invention,
FIG. 37 is a cross-sectional perspective view showing a cross section of a fluidic material molecular separator constructed according to an embodiment of the present invention,
38 is a cross-sectional perspective view showing a cross section of a fluidic material molecular separator constructed in accordance with an embodiment of the present invention,
FIG. 39 is a photograph of a bottled water bottle showing the bubbling state in the bottled water bottle taken by photographing the shape of the bubbles generated by the material friction action and the material explosion action naturally occurring in the bottled water when the bottled water bottle was shaken,
FIG. 40 is a photograph showing a phenomenon in which a submersible vessel is generated due to a material friction action and a material explosion action when the sun and water contact each other in the morning on a winter morning,
41 is a photograph showing a phenomenon in which bubbles are generated by a substance explosion action when a food material and water are put in a pan and the food is heated by a gas,
FIG. 42 is a photograph showing a state in which the friction rods constituting the rotating plate are configured to be bent according to the respective embodiments of the present invention,
FIG. 43 is a cross-sectional perspective view of a fluid material molecular separator showing an example of the configuration of a-electrode and a + electrode formed in accordance with each embodiment of the present invention;
Figure 44 is a cross-sectional perspective view of a fluidic material molecular separator constructed in accordance with an embodiment of the present invention,
Figure 45 is a cross-sectional perspective view of a fluidic material molecular separator constructed in accordance with an embodiment of the present invention,
46 is a cross-sectional perspective view of a fluidic material molecular separator constructed in accordance with an embodiment of the present invention.

First, the empirical and logical effects of the scientific principles underlying the present invention are explained with evidence.

The following logic summarizes the contents proposed by the inventor while registering a patent after being recognized by the academy and the patent office examiner for the functions and logic that the inventor has discovered while registering various patents as it has been studying for 30 years.

The definition of gravitational acceleration action is as follows.

All materials are subject to gravitational acceleration and gravity. In addition, the molecules of fluid matter also act as gravitational acceleration depending on the action of gravity. However, it is also true that no scholars have logically explained that clouds in the atmosphere are subject to gravity.

Therefore, fluidic molecules can also be separated by reverse use of gravitational acceleration.

The gravitational acceleration effect is the logic that when a material falls at a certain height, the weight increases as the speed increases.

Therefore, in order to separate clean fluid material molecules having a high specific gravity and lightly polluted fluid material molecules having a specific gravity, it is necessary to construct a fluid material material processing machine having a height of 5m to 80m, The object of the present invention can be achieved by using a method of separating and processing the molecules.

More particularly, the present invention relates to a method for separating and processing fluidic substance molecules having light specific gravity and heavy specific gravity molecules, which are combined with fluidic substance molecules by using gravity action and gravitational acceleration action, So as to provide a method.

The definition of the material explosion action is as follows.

Instead of explosive explosives, all fluidic and gaseous material molecules generate gases when they come into contact with material molecules that have other components and other components.

This is verifiable through the following.

First, methane gas produced from human beings.

Second, when tap water is put into a bottled water bottle and gasified, gas bubbles are generated in the bottled water bottle. Since air is lighter than water, it can not penetrate into the bottled water bottles and the action of the specific gravity and mass Content.

Third, bubbles are generated when a wave is hit in the sea, and the substance A and the substance B contained in the seawater come into contact with each other and generate bubbles by the explosion of the material.

Fourth, the soap and water come into contact with each other and cause a bubble by the explosion of the material.

Fifth, when urine is seen in the left-hand side, the bubbling foam occurs at the moment when the water in the left-hand side contacts with the urine because the water molecule and another substance contained in the urine come into contact with each other, .

The definition of the material friction action is as follows.

First, a stone pie is a phenomenon caused by water drops under the eaves.

The definition of material tremor is as follows.

First, all of the material molecules are Newton's natural law that they are governed by the mass of matter and the corresponding weight.

Second, all the substance molecules bound to water molecules are Newton's law that they can be separated according to the action of gravity, mass and weight.

The definition of the logic that all substance molecules are separated is as follows.

First, clouds in the sky are a combination of molecules of matter vaporized on Earth.

The definition of the logic that all materials are subject to gravity is as follows.

First, all materials, regardless of size, are all gravitationally dominant and are in close contact with the Earth's surface.

Hereinafter, the present invention will be described in more detail with reference to the following examples which are intended to be illustrative and are not limitative of the present invention. Or fluid substance molecular separator applied to a eco-friendly eco-friendly process for separating and processing gaseous substance molecules.

The fluidic substance molecular separator according to the present invention separates and processes fluidic substance molecules having light specific gravity and heavy fluidic substance molecules having specific gravity combined with substance molecules composed of all liquids existing on the earth, This makes it possible to separate and extract only those heavy clean substance molecules.

[First Embodiment]

The fluidic material molecular separator is composed of an enclosure shape and has a height of about 5m to 50m so as to exert a gravitational action and a gravitational acceleration action more and more.

The fluid material molecule separator 1500 includes a base seat 1502 coupled to four rotating wheels 1503; A first pump 1516 disposed on the base seat 1502 for pumping water, liquid and the like into the fluid material separator 1500 and coupled with the liquid inlet 1509; A second pump 1515 disposed on the base seat 1502 to pump air or polluted soot into the fluid material separator 1500 and to be coupled to the air inlet 1510; A base rest frame 1517 formed in the center of the base seat 1502 in the shape of a letter U; A U-shaped coupling base 1519 which is opposed to one side and the other side of the base frame 1517; A vibrator 1585 formed at the lower end of the base frame 1517; A front plate 1518 formed in a U-shape at the front portion of the U-shaped coupling base 1519; A back plate 1513 which bolts a rear plate coupling part 1556 formed in the U-shaped coupling plate 1519 and a rear plate coupling part 1533 formed in the rear plate 1513 with bolts; An air injection pipe coupling 1553 disposed at the lower end of the front portion of the lower air injection port 1555 and injecting air or soot generated in the second pump 1515 into the fluid material separator 1500; An air injection pipe 1506 for injecting air or polluted soot into the fluid material molecular sieve 1500 through the air injection pipe coupling 1553; A fluid material molecule injection pipe 1508 connected to the first pump 1516 to introduce various liquid substance molecules constituted of liquid such as water into the fluid material molecule separator 1500; A conical spout rod 1520 connected to the fluid material molecule injection pipe 1508 and communicating with the lower side of the upper outlet 1501; A plurality of friction rods 1530 disposed on the front plate 1518; And a friction plate 1550 disposed on the rear plate 1513.

The c-shaped coupling base 1519 includes a front coupling portion 1557 at a front portion thereof, a rear coupling portion 1556 at a rear portion thereof, and a lower air injection hole 1555 formed at a lower end portion thereof .

The present invention is characterized in that a material molecule separation chamber 1560 is formed on the other side of the lower air injection port 1555 and a lower layer water intake port 1558 coupled to the lower layer water discharge pipe 1505, So that the fluidic substance molecules having a high specific gravity flowing into the second pump 1515 are not mixed with the air or soot pumped by the second pump 1515.

An upper plate filtration membrane 1523 is formed in the form of a long hole on the upper end of the U-shaped coupling base 1519 and a first upper flange 1526 is formed on the front and rear surfaces of the upper end of the U- . A plurality of upper plate upper flange first coupling members 1527 are formed on the upper plate upper first flange 1526. A second upper flange 1522 is formed on the upper end of the upper plate upper first flange 1526, The upper end of the second flange 1522 is formed with a top discharge port 1501 in a lattice shape.

The conical ejection rods 1520 are arranged in the order of 1WT% to 100WT% more than 100WT%, which is the total amount of the influent flowing into the fluid material molecule injection pipe 1508 through the high pressure ejection port 1521 for ejecting a plurality of fluidic substance molecules or gaseous substance molecules. It maintains a small amount of emission of 20WT%. Accordingly, the total discharge amount of the high-pressure discharge port 1521 is configured to be small so as to be discharged at a high pressure.

The front plate 1518 has a lower layer water discharge pipe coupling 1531 at the lower end thereof and a lower layer water discharge pipe 1505 to the lower layer water discharge pipe coupling 1531, The fluid material molecules having a specific gravity moving to the fluid material separator 1500 are pumped or discharged to the outside of the fluid material separator 1500 by the action of gravity. The position of the lower layer water intake port 1558 formed at the lower end of the lower layer water discharge pipe 1505 is set to be about 3 cm to 25 cm from the upper end portion of the lower air air outlet 1555.

The end portion of the low-level water intake port 1558 is configured in a form that prevents air or polluted soot ejected from the lower-end air ejection port 1555 from being directly introduced into the inlet of the low-level water intake port 1558.

In the middle portion of the low-level water discharge pipe 1505, fluidic substance molecules having a large specific gravity moving to the lower end of the fluidic substance molecular sieve 1500 are quantified, And constitutes a discharge pump 1507 which functions to primarily pump and discharge the molecules.

A plurality of front plate coupling holes 1528 are provided on the outer circumferential surface of the front plate 1518 and the front plate coupling holes 1528 are easily engaged with the front coupling hole 1557 formed in the U- .

Between the upper and lower ends of the front plate 1518, a plurality of frictional rod engaging members 1529 functioning to grind fluid material molecules or gaseous substance molecules to grind or reduce the particle size are constituted . A plurality of friction rods 1530 are engaged with the friction rod engagement portion 1529.

The front plate coupling part 1529 of the front plate 1518 and the front coupling part 1557 of the cantilever coupling part 1519 are combined to complete the front part of the molecular material separator 1500.

The rear plate 1513, which is formed in a U-shape at the rear portion of the U-shaped coupling base 1519, includes a plurality of rear plate coupling members 1533 on the outer peripheral surface thereof. Holes 1536 and an axial coupling hole 1535, respectively.

Two bearings (not shown) are inserted on the rear plate 1513 so that the rotation housings 1537 coupled with the rotation shaft 1512 are coupled through the coupling flange 1511 so as to facilitate rotation. A shaft screw and a shaft bolt 1539 for engaging and supporting the friction plate 1550 are disposed at one end of the rotating shaft 1512 coupled to the friction plate 1550.

The rotating means for rotating the rotating shaft 1512 and the friction plate 1550 can be changed in various ways, and thus the detailed structure is omitted. That is, the rotating means can be changed and configured at any time according to the input amount of the fluid material molecules, which are known to a large extent by a variety of mechanisms and changing means.

The rear plate 1513 is formed with a flange coupling 1536 and a shaft coupling 1535 and has a coupling flange 1511 and a rotary housing 1537 which are coupled to the rear portion of the rear plate 1513 through bolts, .

The rotating means for rotating the friction plate 1550 coupled with the rotating shaft 1512 may be configured to directly couple the rotating motor to rotate the rotating motor or to connect the driving pulley and the driven pulley connected to the rotating motor by a belt or the like .

A plurality of striking grooves 1552 are formed on the outer circumferential surface of the friction plate 1550. The friction plate 1550 is engaged with the rotary shaft 1512 by a shaft screw and a shaft bolt 1539 formed on the rotary shaft 1512.

As described above, the fluid material molecule separator 1500 is formed of a fluid material molecule 1520 through a conical ejection rod 1520 connected to the liquid inlet 1509, the first pump 1516 and the fluid material molecule injection pipe 1508, Fluid material molecules such as water are continuously introduced into the separator 1500 at a high pressure,

The friction rod 1530 constituting the front plate 1518 of the fluid material molecule separator 1500 and the friction plate 1550 constituting the rear plate 1513, the striking rod 1551 and the striking groove 1552 The fluid material molecules flowing into the fluid material separator 1500 are successively struck and processed to form contaminant molecules having a small specific gravity and clean specific substance molecules bonded to the fluid material molecules It is processed to be automatically separated by the action of gravity.

The fluid material molecules flowing into the fluid material molecule separator 1500 are continuously blown and processed using the vibrator 1585 formed in the base seat 1502 and the air inlet 1510 The second pump 1515 and the air injection pipe 1506 to introduce the air into the fluid material separator 1500 using a high pressure to the fluid material separator 1500 Fluid material molecules are continuously struck and processed.

In addition, fresh water, seawater, liquor, milk, beverage, blood, and the like are continuously introduced into the fluid material separator 1500 through the conical spout rod 1520 so that the fluid material molecules having a low specific gravity, Material molecules are processed to separate by action of gravity, material collision, material friction, and material explosion.

Through the above process, the total amount of the fluid material molecules flowing into the fluid material separator 1500 is shifted to the lower end of the fluid material separator 1500 due to the action of the gravity and the difference between the specific gravity and the mass, 70 WT% to 90 WT% of the fluidic material molecules having a high specific gravity are connected to the low-layer water discharge pipe 1505 and the discharge pump 1507 combined with the low-layer water withdrawal port 1558 formed at the lower- And is discharged to the outside of the fluid material molecule separator 1500 using the fluid material separator 1500.

On the other hand, the fluidic substance molecules that are not discharged to the low-layer water intake port 1558 due to the gravity action and the difference in mass and specific gravity and are lightweight and floating at the upper end of the fluidic substance molecular sieve 1500, And then collected and used or reworked.

Accordingly, the present invention proposes a fluidic material molecular separator that enables environmentally friendly eco-friendly processes.

[Second Embodiment]

In one embodiment, the present invention provides a process for the treatment of selected foodstuffs such as fresh water, seawater, liquor, milk, beverages, etc. from 0.01 WT% to 10 WT% relative to 100 WT% Layer water discharge pipe 1505 to be discharged to the upper discharge port 1501 formed on the other side of the upper part of the fluid material separator 1500 from 0.01% to 10% Or less.

[Third Embodiment]

In one embodiment, the present invention provides a method for preparing a plurality of fluidic material molecular separators 1500 through a plurality of steps in succession when processing a preferred food such as fresh water, seawater, liquor, milk, The low water discharge pipe 1505 formed in the molecular separator 1500 and the liquid inlet 1509 formed in the other fluid material separator 1500 are continuously connected to each of the fluid material separators 1500 The fluidic substance molecules discharged from the low-level water discharge pipe 1505 are transferred to a liquid inlet 1509 formed in each fluidic substance molecular separator 1500 having a plurality of portions.

Thereafter, the fluid material molecules are repeatedly re-introduced and reprocessed repeatedly through the conical spout rod 1520 formed in each fluid material molecule separator 1500, so that the fluid material molecules or the gaseous substance molecules It is possible to separately extract molecules of liquid material with heavy specific gravity and molecules of liquid material with heavy specific gravity which are combined with molecules of light substance or heavy specific fluid material or gaseous substance .

As described above, a fluid-state material molecule or a gaseous substance molecule can be continuously reprocessed by using a fluid material molecule separator installed in a plurality of stages, A fluidic material molecular separator is presented.

[Fourth Embodiment]

The fluidic material molecular sieve separator 1000 is formed in a housing shape and has a height of about 5m to 60m so as to further exert the gravity action and the gravity acceleration action.

The fluidic material molecular sieve separator 1000 comprises a base seat 109 coupled to four rotating wheels 108; A vibrator (107) disposed at a central lower end, a lower plate (121) provided at an upper portion of the lower end, An air diffuser 122 formed at an upper portion of the lower plate 121; An air outlet 113 for diffusing air from the upper end of the air diffuser 122; And an air pump 116 provided at one upper portion.

An air supply pipe 115 for transferring air is connected between the air pump 116 and the air diffuser 122 to supply air or contaminated soot into the fluid material separator 1000.

The fluid material separator 1000 is provided at the other side of the fluid material separator 1000 with a low layer water inlet 106 for discharging heavy fluid substances collected at the lower end of the fluid material separator 1000 to the outside of the fluid material separator 1000 A low-level water discharge pipe 103 provided with a drain pump 105 is connected to a drain pump 105.

A fluidic material molecule injection port 111 for introducing fluidic substance molecules such as water into the fluidic material molecular sieve 1000 is connected to the control valve 112 at one side of the upper end of the fluidic material molecule separator 1000 .

The upper portion of the fluid material separator 1000 is provided with an upper discharge port (not shown) for discharging fluid material molecules having a specific gravity, which are bonded to fluid material molecules such as water, (Not shown).

The fluidic substance molecular sieve separator 1000 is provided with a plurality of rotating shafts 101 in a pipe shape on the other side and a plurality of rotating shafts 101 are coupled with the rotating shaft housing 100, (Not shown).

An inlet hole 103 for introducing fluid substances such as air or water is coupled to the inside of the rotary shaft 101 and a fluid substance such as air or water is diffused and supplied to the end of the rotary shaft 101 And a friction plate 102 coupled with the diffusion supply port 119 is provided.

At one end of the friction plate 102, a jet port 118 for jetting fluid substances such as air or water and a friction wing 117 are coupled.

The rotating means for rotating the friction plate 102 coupled to the rotating shaft 101 is configured to rotate the rotating motor by directly coupling the rotating motor or to connect the driving pulley and the driven pulley connected to the rotating motor by a belt or the like.

As described above, the fluidic material molecular separator 1000 continuously injects fluidic substance molecules such as water through the fluidic substance molecule injection port 111 at a high pressure to continuously inject a fluid having a specific gravity Pollutant molecules and clean substances with heavier weights are processed to separate them.

The fluidic material molecular separator 1000 separates fluidic substance molecules such as air or water at a high pressure through an inlet hole 103 and an outlet port 118 combined with a plurality of rotary shafts 101, 1000 and a friction plate 102 and a friction wing 117 which are coupled to the rotating shaft 101. The gas or fluid material molecules flowing into the fluid material separator 1000 To separate and process pollutant molecules with a low specific gravity and clean substances with a high specific gravity combined with the pollutant molecules.

The fluidic material molecular separator 1000 continuously blows fluidic substance molecules flowing into the fluidic material molecular sieve separator 1000 using the vibrator 107 formed on the base seat 109, At the same time, air is introduced into the fluidic material separator 1000 at a high pressure by using the air pump 116, and the gas or fluidic substance molecules flowing into the fluidic material molecular separator 1000 are continuously It is processed by blowing.

At the same time, fresh water, seawater, liquor, milk, beverage, and blood are continuously introduced into the fluid material separator 1000 through the fluid material molecule injection port 111, The fluid material molecules are processed so as to be separated naturally by the action of gravity, the action of material collision, the material friction action and the material explosion action, so that the total amount of influx of fluid material molecules flowing into the fluid material molecular sieve separator 1000 70 WT% to 99.99 WT% of heavy fluid molecules moving to the lower end of the fluid material separator 1000 due to the difference in specific gravity and mass are combined with the low layer water withdrawal port 106 formed at one lower end And is discharged to the outside of the fluid material separator 1000 using the low-layer water discharge pipe 133 and the discharge pump 105.

Through the above process, due to the difference in gravity action, mass and specific gravity, it is not discharged to the outside of the fluid material separator 1000 through the low-layer water withdrawal port 106, and it floats up to the upper end of the fluid material separator 1000 The fluid material molecules having light specific gravity are separated and discharged to the upper discharge port 110 formed at the upper end of the fluid material separator 1000 and collected and used or reworked. Separator.

[Fifth Embodiment]

The fluidic material molecular separator 200 is configured as a housing and has a height of about 5m to 70m so as to exert more gravity action and gravitational acceleration action.

The fluidic material molecular separator 200 includes a basic seat plate 109 coupled to the four rotating wheels 108, a vibrator 107 disposed at the lower end of the center of the fluidic substance molecular sieve separator 200, A material molecule separation chamber 205 formed by coupling a middle plate 206 on the upper end of the lower plate 211 and a lower plate 211 disposed on the lower plate 211; And a conical ejection rod 1520 connected to and joined to a fluid material supply pipe 207 for introducing the fluid material into the inside.

The material molecule separation chamber 205 separates the fluid material molecules having a large specific gravity and the fluid material molecules having a light specific gravity by an intermediate plate 206 for separating the molecules of gravity, mass and specific gravity by the specific gravity difference . In the intermediate plate 206, a plurality of slots are formed so that the molecules of the fluid material move freely upward and downward.

The filtration membrane 203 is formed on the upper portion of the intermediate plate 206 to filter contaminant molecules having light specific gravity and molecules of fluids having a high specific gravity.

A plurality of high-pressure nozzles 1521 are coupled to the outer peripheral surface of the lower end of the cone-shaped ejection rods 1520 so as to eject high-pressure pressures of the fluid substance molecules into the fluid material separator 200.

The fluid material separator 200 is provided at the other side thereof with a low-level water discharge pipe (not shown) for discharging fluidic substance molecules having a high specific gravity accumulated at the lower end of the material molecule separator box 205 to the outside of the fluid material separator 200 201 are coupled in an inverted U shape and the inner end of the fluid material separator 200 is connected to the low layer water intake 202.

The fluid material separator 200 is provided at the upper portion of the other side of the fluid material separator 200 to discharge fluidic substance molecules having a specific gravity to the upper portion of the fluid material separator 200 due to a difference in gravity action, And an upper discharge port 209 is configured to be coupled to the discharge amount control valve 210.

100% by weight of the fluidic material molecules such as water is injected into the fluidic material molecular separator 200 through the conical ejection rod 1520 at a high pressure and at the lower end thereof Which is connected to the upper discharge port 209 formed at the upper part of the other side of the fluid material separator 200, while vibrating the fluid material separator 200 by operating the vibrator 107, The discharge amount control valve 210 is controlled so as to be discharged to the upper discharge port 209 only by about 0.01 wt% to 10 wt% of 100 wt% of the total amount of the inflow into the fluid material molecule separator 200 And then collected or collected separately and reused.

Fluid material molecules of 90 wt% ~ 99.99 wt%, which are not discharged to the upper discharge port 209 because of the action of gravity and the difference of mass and specific gravity, and heavy in specific gravity collected in the material molecule separation chamber 205, The fluid material separator 200 is automatically discharged to the outside of the fluid material separator 200 by using the low layer water intake port 202 and the low layer water discharge pipe 201 combined with the material molecule separator 200 to be reused or reworked.

Accordingly, the present invention is applied to a eco-friendly eco-friendly method of separating light pollutant molecules and heavy specific molecules, which are combined with fluidic substance molecules using the fluidic substance molecular separator 200 A fluidic material molecular separator is presented.

[Sixth Embodiment]

The fluidic material molecular separator 300 is formed in a circular shape and has a height of about 5m to 80m so as to exert a gravity action and a gravity acceleration action more and more.

The fluidic material molecule separator 300 includes a rectangular base plate 312, a conical spout rod 1520 connected to and connected to a fluid material molecule supply pipe 305 for introducing fluidic substance molecules therein, And a plurality of high-pressure spouts 1521 for spraying fluid substance molecules on the outer peripheral surface of the lower end of the spout rod 1520 at a high pressure in the fluid material separator 300.

 The fluidic material molecules, which have a low specific gravity and float above the fluidic material molecular separator 300 due to the action of gravity and the difference in specific gravity and mass, are disposed on the other side of the fluidic material molecular separator 300, The upper discharge port 302 is connected to the discharge amount control valve 303.

The fluidic material molecules collected at the lower end of the fluidic material molecular sieve 300 due to the action of the gravity and the difference in mass and specific gravity are introduced into the fluidic material molecular sieve 300 And a low-level water discharge pipe 307 for discharging the low-water discharge pipe 307 to the outside.

 The fluid material separator 300 is connected to the inner end of the fluid material separator 300 with a low-layer water intake 308 connected to the low-layer water discharge pipe 307.

The bottom plate 312 is coupled to a low water tank 301 connected to the low water discharge pipe 307 and coupled to the bottom high pressure pump 312 at one end of the water tank 301.

The lower high-pressure pump 312 includes a lower first discharge pipe 310 for discharging fluid substances having a high specific gravity, which temporarily stores fluid molecules such as water supplied from the low-level water discharge pipe 307, Is combined with the first lower emission control valve 316.

The end of the lower first discharge pipe 310 is connected to the fluid material molecule supply pipe 305 formed on the upper part of another fluid material molecule separator 300 formed in stages.

The other end of the water storage tank 301 is connected to a reservoir tank 307 through which the hydrofluoric acid molecules having high specific gravity are supplied from the low-level water discharge pipe 307 while passing through the fluid- 301 to the second discharge control valve 317. The second discharge pipe 315 is connected to the second discharge control valve 317,

After the plurality of fluidic material molecular separators 300 are connected in a staged manner, the lower first discharge pipe 310 of the fluid material separator 300 disposed on the rear side is connected to the front fluid material molecules The fluidic material molecular separator 300 is filled with the fresh water or fluid in the fluid material separator 300 by using the downstream high pressure pump 312 connected to the fluidic material molecule supply pipe 305 formed at the upper end of the separator 300. [ The first bottom discharge rate control valve 316 connected to the first bottom discharge pipe 310 formed at the lower end of the fluid material separator 300 is controlled after continuously injecting the material molecules, The fluid material molecules discharged from the first lower discharge pipe 310 after about 90 wt% to 99.99 wt% of the total amount of fluid material flowing into the material separator 300 are discharged to the front side Substance fraction Pressure injection hole 1521 formed in a conical spout rod 1520 coupled to the material molecule supply pipe 305 after being transferred to the fluid material molecule supply pipe 305 formed at the upper end of the device 300 The fluid material molecules are supplied to the interior of the subsequent fluid material separator 300 at a high pressure to perform a continuous processing process.

That is, due to the action of gravity, difference in specific gravity and mass, it is impossible to move to the lower end of the plurality of fluidic material separators 300 installed step by step, and the fluidic material separator 300, 0.01 to 10 wt% of the material molecules are discharged to the upper discharge port 302 formed at the upper end of each fluid material separator 300, collected, processed or collected for reuse.

[Seventh Embodiment]

The fluidic material molecular separator 300 is applied to a eco-friendly eco-friendly method for processing fluid molecules by constructing a body shape of a rectangular enclosure.

The body shape of the fluid material molecule separator 300 can be changed and configured in a wide variety of shapes and can be changed to a hexagonal or octagonal shape.

[Eighth Embodiment]

Fig. 28 is a partial perspective view of a forward rotation fixed striking rod and a reverse rotation striking rod applied to the first to eighth embodiments of the present invention, Fig. 29 is a partial perspective view of a fluid material molecule Sectional view of the separator.

The fluid material separator (7000) is configured as a housing and has a height of about 5m to 90m so as to exert a gravitational action and a gravitational acceleration action more and more.

The fluid material separator 7000 includes a vibrating vibrator 707 formed on the center lower end thereof, a lower plate 121 provided on the lower end of the vibrating vibrator 707, an air diffuser (not shown) provided on the upper plate 121, 122), and a gas injection pump (720) disposed on one side of the gas injection pump (720).

One side of the gas injection pump 720 is provided with an air inlet 728 for injecting fresh air or contaminated air from the outside or contaminated soot into the gas air pump 720.

An air supply pipe 115 for transferring air is connected between the gas injection pump 720 and the air diffuser 122 to supply fresh air or contaminated soot into the fluid material separator 7000 .

The fluid material separator 7000 is provided at the other side thereof with a low-layer water intake port 711 for discharging heavy fluid substances collected at the lower end of the fluid material separator 7000 to the outside of the fluid material separator 7000 Is provided in a one-figure form with the rising phyton suction pipe 712.

The upper portion of the ascending cyphon suction pipe 712 is provided with a secondary fluid material molecule separation tube 729 in the form of an enclosure and a fluid material molecule 729 having a light specific gravity The second discharge pipe 717 is connected to the second discharge control valve 719.

A ciphone downfalling discharge pipe 713 for discharging fluid substances having a high specific gravity is coupled to a discharge amount control valve 715 at one side of the secondary fluid material separator 729.

A fluid material inlet pipe 716 for introducing fluid material molecules such as water into the fluid material separator 7000 is connected to the upper end of the fluid material separator 7000 through a control valve 112 And a fluid material molecule diffusion hole 718 is formed at the end of the fluid material molecule inlet pipe 716. [

At the other side of the upper part of the fluidic material molecular sieve 7000, fluidic substance molecules having a specific gravity, which are bonded to fluidic material molecules such as water flowing into the fluidic material molecular sieve 7000, 7000. The upper discharge port 706 discharges the upper discharge port 706 to the outside.

On the upper side of the upper discharge port 706, the fluidic foam component 7000 which can not move downward of the fluidic substance molecular separator 7000 due to the action of gravity and the difference in specific gravity and mass, And a liquid-phase injection port 705 that exerts a function of injecting a liquid-phase liquid component into the liquid to deform the bubble component into a liquid.

A plurality of forward rotation fixed striking rods 710 arranged in a spiral shape so as to exert a material collision action and a material friction action which are arranged on one side of the fluid material molecule separator 7000 so as to rotate and collide the fluid material molecules; A rotation striking plate 708 disposed on the other side of the rotating striking plate 708 and coupled with the plurality of rotating bodies 701; And a plurality of rotating striking rods 709 in the form of a spiral so as to exhibit a material-impacting action and a material-friction action that cause the molecules of the fluid material to rotate by colliding with the rotating striking plate 708.

As described above, the fluid material separator 7000 operates the up-down vibration vibrator 707 to vibrate the fluid material separator 7000, and at the same time, Fresh air or contaminated air is continuously injected into the interior of the molecular separator 7000.

The fluid material separator 7000 continuously injects fluid material molecules such as water through the fluid material molecule inlet pipe 716 formed at the upper part thereof at a high pressure so that the specific gravity The rotating matter 709 is rotated by rotating the rotating striking plate 708 with a plurality of rotating striking plates 708 in the fluid material separator 7000 while simultaneously processing the light polluting molecules and the clean substance molecules having a large specific gravity, Fluid material molecules with a low specific gravity and fluid material molecules with a high specific gravity are continuously impacted by gas or fluid material molecules flowing into the interior, resulting in the action of gravity, the difference in specific gravity and mass, By colliding with the material explosion effect, it is processed so that the material molecules having similar mass and specific gravity are separated from each other.

Accordingly, the specific gravity moving to the lower end of the fluid material separator 7000 is heavy due to the action of the gravity and the difference between the specific gravity and the mass, relative to the total amount of the fluid material molecules flowing into the fluid material separator 7000 The fluidic material molecules 70WT% to 99.99WT% are connected to the ascending cyclone suction pipe 712 coupled to the low-layer water intake 711 formed at the lower end of the one side of the fluid material separator 7000, The discharge control valve 715 coupled to the cyclone descent discharge pipe 713 is controlled so as to be discharged through the separator 729 and the cyclone descending discharge pipe 713 and discharged.

In the meantime, 0.1 WT% to 30 WT%, which can not be discharged through the ciphone downfalling pipe 713 due to the specific gravity, mass and gravity difference, is lower than the upper outlet 706 ) And then collected and reused or reprocessed.

[Ninth Embodiment]

Fig. 30 is a cross-sectional perspective view of a fluid material separator constructed in accordance with the ninth embodiment of the present invention as follows.

The fluidic substance molecular separator 7000 is formed in the shape of a rectangular enclosure at the upper part of the base seat 109. [

The fluid material molecule separator 7000 includes four rotating wheels 703 coupled with a base seat 109; A vertical vibration vibrator 707 disposed at the lower central portion; A lower end plate 121 provided at an upper portion of a lower end; An air diffuser 122 provided at an upper portion of the lower plate 121; A gas injection pump 720 provided at an upper portion of the gas injection pump 720; And an air inlet 728 for injecting fresh air or polluted air or contaminated soot flowing into the gas inflow pump 720 from the outside into the gas air pump 720.

An air supply pipe 115 for transferring air is connected between the gas injection pump 720 and the air diffuser 122 to supply fresh air or contaminated soot into the fluid material separator 7000 .

A low-layer water intake port 711 for discharging heavy fluid substances collected at the lower end of the fluidic substance molecular separator 7000 to the outside of the fluid-material separator 7000 is connected to an upper siphon intake pipe 712 ) And the siphon descending discharge pipe 713 are formed in a U shape.

A discharge amount control valve 752 for controlling the discharge amount is provided at an upper portion of the ascending phoenix suction pipe 712 and fluidic substance molecules and gaseous substance molecules having light specific gravity are disposed at the upper end of the fluidic substance molecular separator 7000 And the upper discharge port 755 for discharging is connected to the discharge amount control valve 753.

A fluid material inlet pipe 738 for introducing fluid material molecules such as water into the inside of the upper portion of the fluid material separator 7000 is connected to a primary discharge control pump 759.

A first material molecule separation column 739 for collecting fluid material molecules and gaseous material molecules having a light specific gravity is formed on the upper portion of the fluid material molecule inlet pipe 738, And a primary discharge pipe 750 for discharging fluid substances having a specific gravity is connected to the primary discharge control valve 756 at one side.

A first material molecular reservoir 8000 is formed on the other side of the first material molecule separator 739 and a siphon uppipe 735 on the other side of the ciphone riser pipe 735 .

The first material molecular reservoir 8000 includes a movable wheel-shaped elastic body 736 provided on the four lower ends of the first material molecular reservoir 8000; A vibration vibrator 737 for generating vibration at a lower end of the first material molecular reservoir 8000; An injection pump 732 provided on the other side of the first material molecular reservoir 8000; A connection pipe 758 for introducing the backside of the injection pump 732 and the air or contaminated soot floating on the first material molecular reservoir 8000 back into the interior of the first material molecule reservoir 8000; An air diffuser 757 for spraying the air supplied from the infusion pump 732 to the bottom portion of the lower end of the first material molecular reservoir 8000; And a fluid material molecule injection pipe 731 for supplying fluid material molecules such as water into the first material molecule reservoir 8000 on the other side of the first material molecule reservoir 8000.

The process through the fluid material separator 7000 and the first material molecular reservoir 8000 is as follows.

Injecting a contaminated substance (732) into the first material molecule reservoir (8000); Continuously injecting water or seawater into the interior of the first material molecule reservoir 8000 and the interior of the fluid material molecule separator 7000; The vertical vibration vibrator 707 constituted in the fluid material separator 7000 and the first material molecular reservoir 8000 is continuously operated so that the water or seawater flowing into the fluid material separator 7000 or Continuously vibrating the contaminants and water or seawater loaded in the first material molecular reservoir 8000 while vibrating the contaminants; The process of continuously injecting air into the fluid material molecule separator 7000 is performed by using the gas injection pump 720 coupled to the fluid material separator 7000.

 Through the process described above, the fluid material molecules such as water or seawater that have passed through the siphon riser pipe 735 formed at the lower end of the first material molecular reservoir 8000 are separated into the first material molecular separator 739 % Of the amount of the fluidic substance introduced into the primary material molecular sieve 739 through the first material molecular sieve 8000 by controlling the combined primary discharge control valve 756 to 100 wt% 10% by weight is discharged through the first discharge pipe 750 and then collected separately for use or collected and reused or re-introduced into the first material molecular reservoir 8000 and reworked.

At the same time, 90 wt% to 99.99 wt% of remaining fluid material molecules introduced into the first material molecule separation column 739 are removed by using the first emission control pump 759 and the fluid material molecule inlet pipe 738, And then transferred to the inside of the separator 7000 for processing.

0.01wt% ~ 10wt of fluidic material molecule having a specific gravity relative to 100wt% of the total amount of fluidic material introduced into the primary material molecular separator 739 through the fluidic material molecular inlet pipe 738, The remaining 90wt% to 99.99wt% is discharged through the upper outlet 755 formed in the upper part of the molecular separator 7000 and the lower layer water intake 711 formed at one side of the lower end of the fluid material separator 7000, And adjusts the discharge amount control valve 752 coupled with the siphon down discharge pipe 713 to be discharged through the siphon suction pipe 712 and the siphon down discharge pipe 713.

Through this process, it is possible to reuse or reprocess fluidic material molecules with light specific gravity and fluidic material molecules with heavy specific gravity separated and extracted after extracting and processing light weight liquid material molecules combined with heavy specific gravity fluid material molecules. This paper presents a fluidic substance molecular separator applied to a friendly environmentally friendly method.

[Tenth Embodiment]

The tenth embodiment of the present invention is configured as follows.

Diluting 50 wt% to 95 wt% of salt with 5 wt% to 50 wt% of water to prepare a liquid brine; The fluid material separator is provided with a second bottom discharge pipe (315), a siphon down discharge pipe (713), and a second bottom discharge pipe 90wt% to 100wt% of the total amount of the liquid brine influx into the fluid material separator through the siphon descending pipe 730, the low-level water discharge pipe 1505, the low-level water discharge pipe 201 or the low- ~ 99.99wt% is discharged, collected, used or reprocessed.

At the same time, the second bottom discharge pipe 315, the siphon down discharge pipe 713, the siphon down discharge pipe 730, the low-level water discharge pipe 1505, the low-level water discharge pipe 201, , 0.01wt% ~ 10wt% of the fluidic substance molecules which can not be discharged through the low-level water discharge pipe 133 are discharged through the upper outlet port formed at the upper end of the fluid material separator and collected, reused or reworked We propose a fluidic substance molecular separator which is applied to environmentally friendly eco-friendly process.

[Eleventh Embodiment]

The following will describe the twelfth claim constructed according to the eleventh embodiment of the present invention.

31 is a cross-sectional perspective view of a fluid material separator constructed in accordance with an eleventh embodiment of the present invention as follows.

Fluid Material Molecular Separator (2000) consists of an enclosure type and is composed of 5m ~ 30m height so that molecules of fluid material can exert gravitational action and gravitational acceleration action more and more.

The fluid material molecule separator 2000 comprises four rotating wheels 703; A fluid material molecule inlet pipe 716 for injecting water and liquid into the fluid material separator 2000; An adjustment valve 916 for adjusting the inflow amount in the middle of the fluid material inflow pipe 716; An ultrasonic vibrator 980 coupled to a vibration absorbing rubber pad 981 at an intermediate side of the fluid material inflow pipe 716; A vertical vibration vibrator 707 disposed at the lower central portion; A gas injection pump 917 provided at one side lower portion; An air diffuser 918 provided at a lower end of one side of the gas injection pump 917; And an air inlet 728 for introducing fresh air or polluted air or contaminated soot flowing from the outside on one side of the gas injection pump 917 into the gas air pump 917.

The fluidic substance molecular sieve separator 2000 is provided at the other side thereof with a low-level water withdrawal port (2000) for discharging fluidic substance molecules having a heavy specific gravity collected at the lower end of the fluidic substance molecular sieve separator 2000 to the outside of the fluid- 991 are provided in the form of a cantilever with the lifting siphon suction pipe 928.

A discharge amount control valve 715 for controlling the discharge amount is coupled to one side of the upper side of the ascending phoenix suction pipe 928, and fluidic substance molecules having light specific gravity are discharged to the outside of the other side of the fluidic substance molecular separator 2000 A surplus material molecular discharge pipe 927 is connected.

The fluid material separator 2000 includes a rotary shaft support 992 provided at the lower end of the fluid material separator 2000, a rotary body 920 provided at the upper end thereof, A rotary shaft 921 coupled between the rotary shaft support 992 and the rotary body 920; A fixed friction plate 925 having a plurality of fluid transfer grooves 926 formed on the fluid material molecular sieve 2000; An uneven groove 996 which acts to increase the frictional force of the fixed friction plate 925; A plurality of rotation friction plates 922 between the fixed friction plates 925 on the rotary shaft 921; An uneven groove 995 which acts to increase the frictional force of the rotary friction plate 922; And a plurality of fluid transfer grooves 923 provided in the rotary friction plate 922.

As described above, the fluid material separator 2000 operates the up-and-down vibration vibrator 707 to vibrate the fluid material separator 2000, and at the same time, Fresh air or contaminated air is continuously injected into the interior of the molecular separator 2000 and the fluidic substance molecules flowing through the ultrasonic vibrator 980, It is processed by blowing.

The fluidic material molecular separator 2000 continuously injects fluidic molecules such as water through the fluidic material inlet pipe 716 at a high pressure so that the contaminant molecules having a specific gravity, The fluid material separator 2000 is rotated such that the rotating body 920 such as a motor is continuously rotated to rotate the rotating body 920 and the fixed friction plate 925 The fluidic material molecules and the gaseous material molecules flowing into the fluidic material molecular sieve separator 2000 are mixed and pulverized by using a plurality of rotating friction plates 922 between the fluidic material molecules And fluidic mass molecules with a high specific gravity, due to gravity action, gravitational acceleration action, difference in specific gravity and mass, and material friction, material friction, and material explosion The material molecules whose mass and specific gravity are similar to each other are naturally moved to move to the upper and lower layers.

Accordingly, the specific gravity moving to the lower end of the fluid material separator 2000 is heavy due to the action of the gravity and the difference between the specific gravity and the mass, compared with the total amount of the fluid material molecules flowing into the fluid material separator 2000 The fluidic material molecules 70WT% to 99.99WT% are connected to the low-level water intake port 991 formed at the lower end of the one side of the fluid material separator 2000 and the discharge control valve 715 coupled to the upward cyclone suction pipe 928, And 0.1 WT% to 30 WT%, which can not be discharged through the ascending siphon suction pipe 928 due to the difference in specific gravity, mass, and gravity, is disposed on the other side of the fluid material separator 2000 A fluid material molecular separator applied to a eco-friendly eco-friendly method of collecting, reusing, or reprocessing after discharged through an excess material molecular discharge pipe 927 is presented.

[Twelfth Embodiment]

Next, a description will be given of the thirteenth aspect constructed in accordance with the twelfth embodiment of the present invention.

32 is a cross-sectional perspective view of a fluid material separator constructed in accordance with a twelfth embodiment of the present invention.

Fluid Material Molecular Separator (9000) consists of an enclosure type and has a height of about 5m ~ 60m so that molecules of fluids can exert gravitational action and gravitational acceleration action more and more.

The fluid material molecule separator 9000 includes four rotating wheels 703; A fluid material molecule inlet pipe 716 provided at one side of the upper portion to inject water and liquid into the fluid material separator 9000; An adjustment valve 916 for adjusting the inflow amount in the middle of the fluid material inflow pipe 716; A vertical vibration vibrator 707 provided at the lower end of the center of the fluid material separator 9000; A gas injection pump 917 provided at one side lower portion; An air diffuser 918 provided at a lower end of one side of the gas injection pump 917; An air inlet 728 for injecting fresh air or polluted air or contaminated soot flowing into the gas inflow pump 917 from the outside into the gas air pump 917; The fluid material separator 9000 is provided at the other side thereof with a low-layer water intake port 901 for discharging heavy fluid substances collected at the lower end of the fluid material separator 9000 to the outside of the fluid material separator 9000, 902); A discharge control valve 903 which is connected to the hinge shaft 905 and adjusts the discharge amount to one side of the lower end of the upsiphone suction pipe 902; A surplus material molecule discharge pipe 910 disposed at the upper portion of the other side to discharge molecules of fluids having a specific gravity to the outside; And a fluid material molecular reservoir 911 for deforming light specific gravity fluid molecules discharged in the form of bubbles on the lower end portion of the surplus material molecular discharge pipe 910 into fluid mass molecules having a high specific gravity.

Inside the fluidic material molecular reservoir 911, seawater or general fresh water 913 is accommodated to convert lightweight fluidic material molecules, which are introduced in a foam form, into fluidic material molecules having a high specific gravity.

The fluidic substance storage container 911 is provided at the other side of the upper side thereof with a fluidic substance material reservoir 911 for discharging the fluidic substance molecules which have become heavy fluidic substance molecules in a state of being foamed into the fluidic substance molecular reservoir 911 2 Surplus material molecular discharge pipe 912 is provided.

The inlet port of the second surplus material molecular discharge pipe 912 is connected to the fluid material reservoir 911 by the action of gravity so as to exert the action of preferentially discharging heavy specific molecules of fluid material moving to the lower end of the molecular material reservoir 911, And is located at the lower end portion of the molecular reservoir 911.

The fluidic material molecular separator 9000 includes a plurality of rotational shafts 985 coupled with a rotating body 906 such as a motor; A rotary plate 907 provided on the rotary shaft 985; The liquid material molecule separator 9000 is formed in a diagonal direction or a lagged shape rather than a linear direction on the rotary plate 907 to exert an effect of hitting fluid molecules and gaseous substance molecules flowing into the fluid material molecule separator 9000 in an unspecified direction And a plurality of diagonal striking rods 908 for providing a plurality of diagonal striking rods 908.

The diagonal striking rod 908 is formed with a thread for generating a whirlwind.

An ultrasonic hitting unit 986 coupled with a shock absorber for absorbing an impact is coupled to the support shaft 987 at the middle of the lower end of the fluid material separator 9000 to be introduced into the fluid material separator 9000 It exerts the effect of striking fluidic and gaseous molecules.

As described above, the fluid material molecule separator 9000 vibrates the fluid material molecule separator 9000 by operating the vertical vibration vibrator 707, and uses the gas injection pump 917 to generate the fluid material molecule Fresh air or contaminated air is continuously injected into the interior of the separator 9000 and the inflow fluidic molecules are blown by using the ultrasonic vibrator 986 formed inside the fluid material molecule separator 9000 Processing.

The fluid material separator 9000 continuously injects fluid material molecules such as water through the fluid material molecule inlet pipe 716 at a high pressure so that the molecules of the contaminant molecules The rotary material 906 such as a motor formed on the side surface of the fluid material molecule separator 9000 is continuously rotated so that the diaphragm strike The rod 908 is used to generate a whirlwind so that the fluidic substance molecules and the gaseous substance molecules flowing into the fluidic substance molecular sieve separator 9000 are mixed and pulverized or struck to form fluidic substance molecules having a light specific gravity Fluid material molecules with a high specific gravity cause gravity action, gravity acceleration action, difference of specific gravity and mass, Collided by one for substance exploding action is processed such that the natural movement in the upper part and lower part between which the material molecular weight and specific gravity bisut.

Accordingly, the specific gravity moving to the lower end of the fluid material separator 9000 is heavy due to the action of the gravity and the difference between the specific gravity and the mass, compared to the total amount of the fluid material molecules flowing into the fluid material separator 9000 The fluidic substance molecules 70WT% to 99.99WT% are connected to the low-level water intake port 901 formed at the lower end of one side of the fluidic substance molecular separator 9000 and the discharge control valve 903 coupled to the upward cyclone suction pipe 902, .

Next, 0.1 WT% to 30 WT% of the fluidic substance molecules and the gaseous substance molecules that can not be discharged through the ascending phonon suction pipe 902 due to the specific gravity, the difference between the mass and the gravity, The molecular material is discharged to the fluid material storage box 911 through the surplus material molecular discharge pipe 910 formed at the upper portion of the other side and then the seawater or the fresh water 913 stored in the fluid material storage container 911 is liquefied Is applied to the eco-friendly eco-friendly method of liquefying fluid substances or gaseous substance molecules discharged in the form of bubbles using the action, and then collecting the remainder by discharging it to the second surplus material discharge pipe 912 A molecular material separator is proposed.

[Thirteenth Embodiment]

The following will describe the fourteenth embodiment constructed in accordance with the thirteenth embodiment of the present invention.

33 is a cross-sectional perspective view of a fluid material separator constructed in accordance with a thirteenth embodiment of the present invention.

The fluidic material molecular sieve separator 3000 is formed in an enclosure shape and is formed on the upper part of the four rotary wheels 703 at a height of about 5m to 90m so that the molecules of the fluid material can exert a gravitational action and a gravitational acceleration action more greatly .

The fluid material separator 3000 includes a fluid material inlet pipe 716 provided at an upper side of the fluid material separator 3000 for injecting water and liquid into the fluid material separator 3000; A control valve 916 coupled to the middle of the fluid material inlet pipe 716 to control the inflow amount; A vertical vibration vibrator 707 provided at the lower end of the center of the fluid material separator 3000; A gas injection pump 917 provided at one side lower portion; An air diffuser 918 provided at a lower end of one side of the gas injection pump 917; An air inlet 728 provided at one side of the gas injection pump 917 to inject fresh air or polluted air or contaminated soot introduced from outside into the gas air pump 917; The fluid material separator 3000 is provided at the other side of the fluid material separator 3000 to collect the fluid material molecules having a high specific gravity and collected at the lower end of the fluid material separator 3000, (936) comprises an upsiphone suction pipe (930); And a discharge control valve 931 coupled to one side of the lower end of the rising siphon suction pipe 930 to control the discharge amount.

A fluidic material molecule separator (935, 948, 949, 955) composed of a layer in the form of an inverted triangle in the middle of the fluidic material molecular separator (3000); A plurality of outlets 957, 959, 946, and 932 formed at the lower end of the fluidic material molecular sieve 935, 948, 949, and 955; Each control valve 933, 947, 960, 958 configured in each outlet 957, 959, 946, 932; (937, 939, 941, 953) which is provided at one side of each fluidic material molecular separator (935, 948, 949, 955) composed of a layered layer and discharges fluent material molecules having a specific gravity and light gaseous material molecules having a specific gravity; 932, 940, 942, and 945 constituting emission control ports 937, 939, 941 and 943 for controlling the emission amount are formed.

The fluid material separator 3000 includes a rotating shaft 956 coupled with a rotating body 951 such as a motor provided between the respective fluid material separators 935, 948, 949, and 955; A diagonal slant striking rod 950 provided in a diagonal direction and an oblique slit at a rotational axis 956; And a helical rotation means for generating a vortex and a whirlwind when it rotates on the diagonal inclination striking rod 950.

As described above, the fluid material separator 3000 operates the up-and-down vibration vibrator 707 to vibrate the fluid material separator 3000, and at the same time, Fresh air or contaminated air is continuously injected into the interior of the molecular separator 3000 and the fluid material molecules such as water are continuously introduced into the fluid material molecule inlet pipe 716 at a high pressure, And the clean substance molecules, which are heavy in weight, are separated.

The fluid material separator 3000 continuously rotates the rotating body 951 such as a motor formed on the side surface and uses the diagonal slanting rod 950 coupled to the rotating shaft 956 to rotate the swirl and the whirlwind And the fluidic substance molecules and the gaseous substance molecules flowing into the fluidic substance molecular sieve separator 3000 are crushed or pulverized while being mixed with the fluidic substance molecules having a specific gravity and heavy fluidic substance molecules having gravity Due to the effect of gravity acceleration and gravity acceleration and mass difference, material molecules which are similar to mass and specific gravity are collided due to material collision, material friction and material explosion, so that they move naturally to the upper and lower layers.

Accordingly, the fluid material molecules are moved to the lower end of the fluid material separator 3000 due to the action of gravity, the action of gravity acceleration, and the difference in specific gravity and mass with respect to the total amount of fluid material molecules flowing into the fluid material separator 3000 The fluidic substance molecules 70WT% to 99.99WT% having a high specific gravity are discharged from the fluid material separator 3000 through the low-layer water intake port 936 and the upward- The valve 931 is adjusted and discharged.

On the other hand, 0.1 WT% to 30 WT% of the fluidic substance molecules and the gaseous substance molecules that can not be discharged through the ascending phonon suction pipe 930 due to the difference in specific gravity, mass, and gravity, (937, 939, 941, 943) composed of a layered structure on the upper side and collected and reused or reworked.

[Fourteenth Embodiment]

The following describes the fifteenth aspect constructed in accordance with the fourteenth embodiment of the present invention

34 is a cross-sectional perspective view showing a cross section of a fluid material separator constructed in accordance with the fourteenth embodiment of the present invention.

The fluidic material molecular separator 9800 is configured in a shape of an enclosure to have a height of about 5m to 100m so that the molecules of the fluid material can exert the gravity action and the gravitational acceleration action more greatly, .

A fluid material molecule separator 9800 includes a fluid material molecule inlet pipe 716 provided at one side of the fluid substance separator 9800 for injecting water and liquid into the fluid material separator 9800; A control valve 916 coupled to the middle of the fluid material inlet pipe 716 to control the inflow amount; A vertical vibration vibrator 707 provided at the lower end of the center of the fluid material separator 9800; A gas injection pump 917 provided at a lower portion of one side of the fluid material molecule separator 9800; An air diffuser 918 formed at one lower end of the gas injection pump 917; An air inlet 728 provided at one side of the gas injection pump 917 to inject fresh air or polluted air or contaminated soot introduced from outside into the gas air pump 917; A lower layer water intake port 901 disposed on the other side of the lower end of the fluid material molecule separator 9800 for discharging fluidic substance molecules having a high specific gravity collected at the lower end of the fluidic substance molecular separator 9800 to the outside of the fluid material molecule separator 9800, A pipe 902; And a discharge control valve 931 coupled to one side of the lower end of the rising siphon suction pipe 930 to control the discharge amount.

The fluidic substance molecule separator 9800 is composed of an electrode 1005 and a + electrode rod 1006 which are connected to the electrolytic device 1007, respectively, for electrolyzing fluidic substance molecules in the fluidic substance molecule separator 9800.

A plurality of diagonal slanting rod 1002 coupled to the rotating shaft 1003 and a rotating body 1001 such as a motor are disposed in the middle of the fluid material separator 9800. The surface structure of the polygonal bevel striking bar 1002 is a thread-like uneven protrusion that easily generates whirlwind and vortex.

An excess material molecule discharge pipe 927 is connected to the other side of the fluidic substance molecule separator 9800 to discharge fluid substance molecules having a specific gravity to the outside.

As described above, the fluid material separator 9800 operates the up-and-down vibration vibrator 707 to vibrate the fluid material separator 9800, and at the same time, Fresh air or contaminated air is continuously injected into the interior of the molecular separator 9800 and fluidic substance molecules such as water are continuously introduced into the fluid separator 9800 through the fluidic material molecule inlet pipe 716 at a high pressure, And the clean substance molecules, which are heavy in weight, are separated.

Electrolysis apparatus 1007 is used to cause electricity to flow to electrode electrode 1005 and electrode electrode 1006 to be combined with fluid material molecules such as water flowing into the fluid material molecule separator 9800 And generates a function of decomposing fluid moult molecules having a specific gravity of a light weight and a heavy specific gravity molecule, and rotates the rotating body 1001 such as a motor constituted on the side of the fluid material separator 9800 continuously A swirling and a whirlwind are generated by using the diagonal slanting rod 1002 coupled to the rotating shaft 1003 so that the fluid material molecules and the gaseous material molecules flowing into the fluid material molecule separator 9800 are mixed, While pulverizing or striking, fluidic material molecules with a small specific gravity and fluidic material molecules with a large specific gravity are reduced due to the action of gravity, the action of gravitational acceleration, and the difference in specific gravity and mass Collided by the material impact action and friction action substance and substance exploding action is processed such that the natural movement in the upper part and lower part between the molecular substances is a mass and specific gravity bisut.

In addition, since the total amount of fluidic substance molecules flowing into the fluid material molecule separator 9800 is shifted to the lower end of the fluid material molecule separator 9800 by the action of the gravity and the difference of the gravity acceleration action, the specific gravity and the mass, The fluidic substance molecules 70WT% to 99.99WT% having a high specific gravity are connected to the low-level water intake port 901 formed at the lower end of one side of the fluid material molecule separator 9800 and the discharge control valve (715) to be discharged and recycled or reused.

On the other hand, 0.1 WT% ~ 30 WT% of the fluidic substance molecules and the gaseous substance molecules that can not be discharged through the ascending phonon suction pipe 902 due to the difference in specific gravity, mass, and gravity, A fluid material molecular separator applied to a eco-friendly eco-friendly method in which an excess material is discharged to a molecular discharge pipe 927 composed of a layered structure on the top and collected, reused or reworked.

[Example 15]

The following is a description of Claim 16 constructed in accordance with the fifteenth embodiment of the present invention

35 is a cross-sectional perspective view showing a cross section of a fluid material separator constructed in accordance with an embodiment 15 of the present invention.

The fluidic material molecular separator 10000 formed on the upper part of the four pairs of rotating wheels 703 includes a lower end enclosure 833 formed in an enclosed form; A filter 831 for generating gravitational acceleration which is configured to be narrowed in a Λ shape in the direction of the upper end of the lower end housing 833; An upper end housing 835 configured to widen in a shape of a letter in the direction of the upper end of the filter 831 for generating acceleration of gravity; A filter film 832 for friction generation provided at an upper portion of the filter 83 for generating gravitational acceleration; A plurality of gas injection pipes 830 for injecting gas such as contaminated air or air into one side of the upper end of the upper end enclosure 835; A plurality of gas ejection openings 837 formed in the gas injection pipe 830; A fluid material inflow pipe 716 provided at one side of the upper side to inject water and liquid into the fluid material separator 10000; A control valve 916 coupled to the middle of the fluid material inlet pipe 716 to control the inflow amount; A left-right direction vibrator 826 provided at an upper end of the lower end housing 833 and coupled to the transverse structure support 825; An up-and-down vibrator 828 provided at a lower end of the lower end housing 833 and coupled to the transverse structure support 827; A vertical vibration vibrator 707 provided at the lower end of the center of the fluid material separator 10000; A gas injection pump 917 provided at a lower portion of one side of the fluid material separator 10000; An air diffuser 918 provided at a lower end of one side of the gas injection pump 917; And an air inlet 728 provided at one side of the gas injection pump 917 for introducing fresh air or contaminated air from the outside or contaminated soot into the gas air pump 917.

At the other side of the fluidic material molecule separator 10000, a low-layer water intake port 936 for discharging heavy fluid substances collected at the lower end to the outside of the fluid-material separator 10000 is connected to an up- And a discharge control valve 931 for controlling the discharge amount is coupled to one side of the ascending siphon suction pipe 930.

A fluid material molecule separator 10000, a surplus material molecule discharge pipe 927 for discharging fluids of light specific gravity to the outside of the other end of the upper end enclosure 835; A plurality of rotors 821 provided on the lower end housing 833; A rotary friction plate 836 provided on the rotary shaft 821; A rotary friction rod 823 coupled to the rotary friction plate 836 and intersecting with the unspecified direction in the diagonal direction; A rotation projection formed on the rotation friction rod 823 in the form of a spiral screw; Forward and backward vibrators 820 and 829 that vibrate in the forward and backward directions on one side and the other side of the lower end housing 833; A gas injection pump 917 provided at a lower portion of one side of the lower end housing 833; An air diffuser 918 formed at one lower end of the gas injection pump 917; And an air inlet 728 provided at one side of the gas injection pump 917 for introducing fresh air or contaminated air from the outside or contaminated soot into the gas air pump 917.

The reason for constructing the filtration hole 831 for generating gravitational acceleration is that the clean substance molecules having a large specific gravity are discharged to the upper end portion of the lower end enclosure 833 in order to exert the effect of preferentially discharging the contaminant molecules having a low specific gravity, In the direction of the arrow.

The total height length of the lower end housing 833, the gravity acceleration generating filter 831 and the upper end housing 835 is 1000% to 10000% of the width of the fluid material separator 10000 and the width of the fluid material separator 10000 The larger 5m to 90m is made up of a larger height.

As described above, the fluid material separator 10000 operates the up-down vibration vibrator 707 and the front-to-back direction vibrators 820 and 829 to vibrate the fluid material separator 10000, 917 are used to continuously inject fresh air or contaminated air into the fluidic material molecular sieve separator 10000 and to mix the left and right direction vibrators 826 and the up and down direction vibrators 828 ) Are used to strike and process incoming fluidic molecules.

The fluidic material molecular separator 10000 is formed by blowing and processing fluent material molecules naturally flowing into the fluidic material molecular sieve separator 10000 by using the filter membrane 832 for friction generation, 830 to inject the fresh air or contaminated air into the fluidic material molecular sieve separator 10000 to inject the gaseous substance molecules 1003 flowing into the fluidic material molecular sieve separator 10000 And fluid material molecules are bombarded and processed while fluid material molecules such as water are continuously introduced into the fluid material molecule inlet pipe 716 at a high pressure to bind the fluid material molecules and the gaseous substance molecules (833) to be separated so as to separate the light pollutant molecules having a specific gravity and the clean substance molecules having a large specific gravity, The fluidic substance molecules and the gaseous substance molecules flowing into the fluidic substance molecular sieve separator 10000 are struck by using a rotating body 821, a rotating friction plate 836 and a rotating friction rod 823, This light liquid material molecule and the heavy liquid material molecules are collided by the material impact action, the material friction action and the material explosion action due to the action of gravity, gravitational acceleration action, difference of specific gravity and mass, One material molecule is naturally separated into upper and lower layers and processed to move.

The specific gravity that moves to the lower end of the fluid material separator 10000 due to the action of gravity acceleration and gravity and the difference between the specific gravity and mass of the fluid material molecules flowing into the fluid material separator 10000 is 100WT% The heavy fluidic material molecules 70WT% to 99.99WT% are connected to the low-level water intake port 936 formed at the lower end of one side of the fluid material separator 10000 and the discharge control valve 931 ).

In the meantime, 0.1 WT% to 30 WT%, which can not be discharged through the ascending cyclone suction pipe 930 due to the difference in specific gravity, mass, and gravity, A fluid material molecular separator applied to a eco-friendly eco-friendly method of collecting, reusing, or reprocessing after discharge through a pipe 927 is presented.

[Sixteenth Embodiment]

The following describes the seventeenth aspect constructed in accordance with the sixteenth embodiment of the present invention

36 is a cross-sectional perspective view showing a cross section of a fluid material separator constructed in accordance with the sixteenth embodiment of the present invention.

The fluid material separator 20000 includes four rotating wheels 703 in which a lower end enclosure 838 and a lower end enclosure 838 are disposed in an enclosed form and a spring rotating spiral 703 provided at the upper end of the lower end enclosure 838. [ A top rotatable spiral housing 827 in the form of a top portion; A filtration membrane 839 for friction generation provided inside the lower end of the upper rotating helical container 827; A friction generating recessed groove 841 provided inside the middle lower end of the upper rotating spiral housing 827 to exert an action of generating a material friction action and a material shock action; A fluid material inflow pipe 716 provided at one side of the upper portion of the top rotating helical container 827 for injecting water, liquid, and the like into the fluid material separator 20000; A control valve 916 provided in the middle of the fluid material inlet pipe 716 to control the inflow amount; A vertical vibration vibrator 707 provided at the lower end of the lower end enclosure 838; A gas injection pump 917 provided at a lower portion of one side of the lower end enclosure 838; An air diffuser 918 provided at a lower end of one side of the gas injection pump 917; And an air inlet 728 provided at one side of the gas injection pump 917 for introducing fresh air or contaminated air from the outside or contaminated soot into the gas air pump 917.

At the other end of the lower end of the fluid material separator 20000, a low-layer water intake port (hereinafter, referred to as " fluid material separator ") 20000, which discharges fluid material molecules having a large specific gravity, collected at the lower end of the fluid material separator 20000, 936 are provided in combination with the lifting siphon suction pipe 930.

A discharge control valve 931 for controlling the discharge amount is coupled to one side of the ascending phoenix suction pipe 930 and a fluid control valve 932 for discharging fluidic substance molecules having a light specific gravity to the upper part of the other side of the upper rotary spiral type housing 827 A surplus material molecular discharge pipe 927 is coupled.

The fluid material separator 20000 includes a plurality of rotators 821 provided in the lower end enclosure 838; A rotary friction plate 836 provided on the rotary shaft 821; And a rotary friction rod 823 provided on the rotary friction plate 836 and configured to intersect diagonally with the unspecified direction.

The rotating friction rod 823 is formed in a spiral screw shape and the upper portion of the rotating friction rod 823 is provided with a high pressure jet port 823 for introducing fluid substance molecules or gaseous substance molecules into the lower end case 838. [ (996) is coupled with the inflow pipe (997).

A magnet rod 840 and a + magnet bar 839 are formed on one side and the other side of the lower end enclosure 838 to contact the fluidic and gaseous molecules introduced into the lower end enclosure 838 .

A gas injection pump 917 is provided at a lower portion of one side of the lower end enclosure 838. An air diffuser 918 is formed at a lower end of one side of the gas injection pump 917, An air inlet 728 for injecting fresh air, contaminated air or contaminated soot into the gas air pump 917 is provided.

The fluid material molecules or the gaseous material molecules flowing into the lower end enclosure 838 are rotated in a whirlwind fashion to collide with the mixer case to generate a material friction action and a material collision action inside the lower end case 838 The rotary projection type rotary body 999 is engaged with the rotary body 998 such as a motor configured on the outside of the lower end side body 838. [

The reason for constructing the upper rotating helical enclosure 827 in the form of a rotating spiral is that the clean substance molecules having a heavy specific gravity due to the action of gravitational acceleration and gravity are preferentially discharged toward the lower end The upper end rotating spiral housing 827 is formed into a spiral spring shape.

The ratio of the length of the upper end rotating spiral housing 827 and the length of the lower end housing 838 to the total height is 1000% of the width of the upper end rotating spiral housing 827 and the width of the lower end housing 838, It is composed of a height of 5m ~ 100m which is larger than ~ 10000%.

As described above, the fluid material separator 20000 operates the up-and-down vibration vibrator 707 to vibrate the fluid material separator 20000, and at the same time, Fresh air or contaminated air is continuously injected into the interior of the molecular separator 20000 and the fluidic substance molecules flowing into the interior of the fluidic material molecular sieve 20000 are naturally blown by using the filtration membrane 839 for friction generation Processing.

The fluidic material molecular sieve separator 20000 continuously injects fluid material molecules such as water through the fluid material molecule inlet pipe 716 at a high pressure so that the specific gravity of the fluid material molecules and the gaseous material molecules The magnetic particles 840 and the magnetic bar 839 are input to the magnetic poles 840 and 839 to separate the fluid substances and the metal components contained in the gaseous substance molecules And the fluidic substance introduced into the fluidic substance molecular sieve separator 20000 by using the rotary body 821, the rotary friction plate 836 and the rotary friction rod 823 formed in the lower end housing 838, Molecules and gaseous molecules are struck with a mixer while they are finely pulverized, so that a liquid material molecule with a low specific gravity and a fluid material molecule with a high specific gravity are subjected to gravity action and gravity acceleration action Due to the difference of the specific gravity and mass, the material molecules which are similar in mass and specific gravity collide due to the material collision action, the material friction action and the material explosion action are processed so that they are separated into the upper layer and the lower layer naturally.

The specific gravity that moves to the lower end of the fluid material separator 20000 due to the action of gravity acceleration and gravity and the difference between the specific gravity and the mass of the fluid material molecules flowing into the fluid material separator 20000 is 100WT% The heavy fluidic material molecules 70WT% to 99.99WT% are connected to the low-level water intake port 936 formed at the lower end of one side of the fluid material separator 20000 and the discharge control valve 931 ).

Meanwhile, 0.1 WT% ~ 30 WT%, which can not be discharged through the ascending siphon suction pipe 930 due to the difference in specific gravity, mass, and gravity, A fluid material molecular separator applied to a eco-friendly eco-friendly method of collecting, reusing, or reprocessing after discharge through a pipe 927 is presented.

The shape of the top rotating helical housing 827 can be varied and varied. The method of constructing the top rotating helical housing 827 may be a spiral protrusion configured in a rectangular, rectangular, circular, or elliptical fashion.

The spiral protrusion can be formed by using a spool which is conventionally used, and the protrusion can be freely extended or narrowed, and the angle of the protrusion can be changed in various ways.

In addition, the shape of the rotary projection type rotation body 999 may be formed in the form of a striking rod or a fan blades, or an irregular projection may be formed by a worm wheel type, a turbo compression type, a rotary screw type or the like, It is possible to constitute such that the fluidic substance molecules or the gaseous substance molecules flowing into the lower end enclosure under pressure are blown or mixed, and all such design changes are within the scope of the present invention.

The shape of the rotation protrusion can be formed by a coiled spring, and the elbow, which is a pipe structure, can be constructed successively.

In addition, the pipe can be bent and used in a circular shape. It is to be understood that all such modifications are within the scope of the present invention.

[Seventeenth Embodiment]

The following will describe the eighteenth embodiment constructed in accordance with the seventeenth embodiment of the present invention.

38 is a cross-sectional perspective view showing a cross section of a fluid material separator constructed in accordance with the seventeenth embodiment of the present invention.

The fluid material separator 5000 comprises four rotating wheels 703; A lower end housing 510 disposed on the four pairs of rotating wheels 703 and having a lower end portion in the form of a housing and an upper end formed in a shape of a lower half of the housing; A filtration hole 831 for generating action of gravity and gravity acceleration provided on the upper portion of the lower end housing 510; An upper end enclosure 508 provided at an upper portion of the filtration hole 831 for generating a gravitational acceleration, the lower end portion of which is formed in an upper and lower narrowed shape, A material friction action and a shock-generating protrusion / protrusion 512 provided inside the filtration hole 831 for generating gravitational acceleration and the upper end housing 508; A filter membrane 503 for friction generation provided inside the lower end housing 510; Right and left vibration vibrators 505 and 506 provided on the left and right sides of the lower end housing 510; And a fluid material molecule inlet pipe 716 provided at one side of the upper end enclosure 508 for injecting blood, water, liquid and the like into the fluid material separator 5000.

The fluidic substance molecular inlet pipe 716 is coupled to a blood supply device for supplying blood collected from a human body and a control valve 916 for controlling the inflow amount is disposed in the middle of the fluidic substance molecular inlet pipe 716 .

The fluid material molecule separator 5000 includes a gas injection pump 917 provided at one side of the lower end enclosure 510 for injecting a gas such as nitrogen or oxygen; And an air diffuser 918 provided at the lower end of one side of the gas injection pump 917.

The gas injection pump 917 serves to introduce nitrogen, oxygen, or hydrogen to prevent the blood flowing into the fluid material separator 5000 from being solidified.

The fluid material separator 5000 is provided at the other side of the lower end of the fluid material separator 5000. The fluid material separator 5000 is provided at the lower end of the fluid material separator 5000, 936 is coupled with the upward phytonetal suction pipe 930 and a discharge control valve 931 for controlling the discharge amount is coupled to one side of the upward phytonetal suction pipe 930.

The upper end of the ascending physeal suction pipe 930 is connected to a syringe connected to a blood supply pipe for receiving blood to be purified by the fluid material separator 5000 and for transfusing to a human body or animals.

An excess material molecule discharge pipe 927 is connected to the upper portion of the other side of the fluidic material molecular sieve separator 5000 to discharge molecules of fluids having a specific gravity to the outside.

The left and right direction vibration vibrators 505 and 506 oscillate the fluid material separator 5000 and the friction generating filtration membrane 503 in the left and right directions to sweep the blood flowing into the fluid material molecule separator 5000 , And the fluidic material molecule with a high specific gravity and the fluidic material molecule with a specific gravity are naturally separated from each other.

The ratio of the length of the fluid material separator 5000 combined with the upper end shell 508, the lower end shell 510 and the friction generating filtration membrane 503 to the overall height is determined by the ratio of the lengths of the upper end shell 508, the lower end shell 510 ) And the height of 1m to 10m, which is larger than the width of the longitudinal direction and 1000% to 10000% of the width in the longitudinal direction, constituting the filter film 503 for friction generation.

As described above, the fluid material separator 5000 operates the left and right vibration vibrators 505 and 506 and the up and down vibration vibrator 707 to move the fluid material separator 5000 into the fluid material separator 5000 (917) is used to vibrate the fluidic substance molecules having a specific gravity and the fluidic substance molecules having a large specific gravity, which are combined with the fluidic substance molecules such as the inflow blood, 5,000), nitrogen or oxygen is continuously injected into the fluid material separator (5000) to prevent the blood flowing into the fluid material separator (5000) from being coagulated and to prevent the phenomenon of being spoiled, and the specific gravity (503) for generating frictional force, while simultaneously generating a function of separating the light fluid substance molecules and the fluid substance molecules having a heavy specific gravity, While by the impact of the fluid material to be introduced into the molecule of a molecular separator material (5000) prevents coagulation of blood which is introduced into the fluid material molecular separator (50) acts to give to avoid multiple decay.

In addition, it is possible to generate an action of separating the fluid substance molecules having a specific gravity, which is combined with the blood, and the fluid substance molecules having a heavy specific gravity, and at the same time, the blood or water Are continuously inflowed at a high pressure to separate clean contaminant molecules having a specific gravity and heavy contaminant molecules that are bonded to the fluidic material molecules and to remove the fluidic material molecules having a specific gravity and the specific gravity This heavy fluid material molecule is gravitationally accelerated by the action of gravity acceleration, due to the difference between specific gravity and mass, collided by the material collision, material friction and material explosion, So as to be moved.

At this time, the fluidic material separator 5000 moves to the lower end of the fluid material separator 5000 due to the gravitational acceleration action, gravity action, difference in specific gravity and mass, The fluidic material molecules 70WT% to 99.99WT% such as blood having a high specific gravity are combined with the low-layer water intake port 936 and the rising-siphon suction pipe 930, which are formed at the lower end of one side of the fluid material separator 5000 The discharge control valve (931) is adjusted and discharged to re-transfuse or recycle the human body.

In the meantime, 0.1 WT% to 30 WT%, which can not be discharged through the ascending phonon suction pipe 930 due to the difference in specific gravity, mass and gravity, A fluid material molecular separator applied to a eco-friendly eco-friendly method of collecting, reusing, or reprocessing after discharge through a pipe 927 is presented.

[Eighteenth Embodiment]

The following will describe the nineteenth aspect constructed in accordance with the eighteenth embodiment of the present invention.

43 is a cross-sectional perspective view showing a cross section of a fluid material separator constructed in accordance with the eighteenth embodiment of the present invention.

The fluidic material molecular branch 6000 includes four rotating wheels 703 disposed at the lower end thereof; A removable blood processor 6002 formed in an enclosed form and provided therein; Left and right vibration vibrators (505, 506) disposed on the left and right sides of the fluid material separator (6000); A fluid material molecule inflow pipe 716 provided at one side of the upper side to inject blood, water and liquid into the fluid material molecule separator 6000; A blood supply device coupled to the fluid material inlet pipe 716 for supplying blood and the like collected from a human body; A control valve 916 coupled to the middle of the fluid material inlet pipe 716 to control the inflow amount; A gas injection pump 917 provided at one side of the lower part for injecting a gas such as nitrogen or oxygen; A lower layer water intake port 936 provided at the lower end of the lower portion of the fluid material molecule separator 6000 for discharging fluid substances having a high specific gravity collected at the lower end of the fluid material molecule separator 6000 to the outside of the fluid material separator 6000, A pipe 930; A discharge amount control valve 931 coupled to one side of the ascending cyphon suction pipe 930 to adjust the discharge amount; A surplus material molecule discharge pipe 927 for discharging fluidic substance molecules having specific gravity to the upper portion of the other side to the outside; And a detachable blood processor 6002 in which a filter 831 for generating a gravitational acceleration is formed by an hourglass system.

In the detachable blood processor 6002, a fluid material molecule having a specific gravity and a fluid material molecule having a specific gravity, which are combined with the blood flowing into the inside of the detachable blood processor 6002, A filtration membrane 503 is constituted.

A material frictional action and a shock generating protrusion and protrusion 512 are formed inside the filtration hole 831 for generating a gravitational acceleration and oxygen or nitrogen supplied from the gas injection pump 917 is supplied to the lower end of the detachable blood processing machine 6002, And an air diffuser 918 for diffusing the same gaseous substance molecules.

In each portion of the detachable blood processor 6002, a fluid material molecule inlet pipe 716, an excess material molecule outlet pipe 927 and a gas injection pump 917, which are separately formed in the fluid material molecule separator 6000, And is configured to be connected to the lower layer water intake port 936 and the ascending phoenix suction pipe 930 and to supply nitrogen or oxygen or hydrogen into the fluid material molecule separator 6000 from the gas injection pump 917, Thereby preventing the coagulation.

The composition ratio of the length of the fluidic material molecular sieve 6000 to the total height is preferably in the range of 1 to 10 m Respectively.

The left and right vibration vibrators 505 and 506 are disposed on the left and right sides of the fluid material separator 6000 in such a manner that the fluid material separator 6000 and the filter film 503 for friction generation are disposed in the left and right directions So that fluidic substance molecules having a high specific gravity and fluidic substance molecules having a specific gravity that are bonded to fluidic substance molecules such as blood flowing into the fluidic substance molecular separator 6000 are separated naturally. .

The syringe connected to the blood supply pipe for supplying blood to be purified by the fluid material separator 6000 to the human body or animals is connected to the end of the ascending siphon suction pipe 930.

As described above, the fluid material molecule separator 6000 operates the left and right vibration vibrators 505 and 506 and the up and down vibration vibrator 707 and flows into the detachable blood processor 6002 The vibrating body vibrates the fluid material molecules having a specific gravity having a specific gravity and the fluid material molecules having a high specific gravity combined with the fluid material molecules such as blood while vibrating the inside of the detachable blood processing apparatus 6002 using the gas injection pump 917 To prevent the coagulation of the blood flowing into the detachable blood processing device 6002 by injecting nitrogen or oxygen into the blood removing device 6002 continuously to prevent the blood from being spoiled, Causing the action of separating heavy fluidic molecules.

The fluidic substance molecular sieve separator 6000 uses the filtration membrane 503 for friction to bombard fluent substance molecules naturally flowing into the detachable blood processing apparatus 6002 and to remove blood molecules flowing into the detachable blood processing apparatus 6002 Preventing the phenomenon of decay while preventing coagulation of the fluid material molecules and generating a function of separating the fluid material molecules having a specific gravity and the fluid material molecules having a heavy specific gravity, The blood drawn from the human body is continuously inflowed at a high pressure to process the pollutant molecules having a low specific gravity and the clean substance molecules having a high specific gravity.

As a result, the fluid material molecules with a small specific gravity and the fluid material molecules with a large specific gravity collide with each other due to the actions of gravity, gravity acceleration action, gravity and mass, Are processed so that they move naturally as they are separated into upper and lower layers.

The gravity acceleration action and gravity acting on the total amount of fluidic substance molecules flowing into the detachable blood processor 6002 and the difference of the specific gravity and the mass due to the action of the gravity acceleration and the mass of the fluid substance molecules flowing into the detachable blood processor 6002 The fluidic substance molecules 70WT% to 99.99WT% control the discharge volume control valve 931 coupled to the low-layer water intake port 936 and the rising-phonon suction pipe 930, which are formed at the lower end of one side of the detachable blood processor 6002 And then re-transfused or recycled to the human body.

In the meantime, 0.1 WT% to 30 WT%, which can not be discharged through the ascending phonon suction pipe 930 due to the difference in specific gravity, mass and gravity, 927), collected, and reused or reworked. The fluidic material molecular separator is applied to a eco-friendly, eco-friendly method for processing blood in a nature-friendly manner.

The shape of the detachable blood processor 6002 can be changed to a very different shape. It is a matter of course that all of the configurations of the detachable blood processor 6002 configured to form contaminated blood in different shapes or forms belong to the scope of the present invention.

[Example 19]

Next, the twentieth aspect constructed in accordance with the nineteenth embodiment of the present invention will be described.

44 is a cross-sectional perspective view of a fluid material molecular separator constructed in accordance with a nineteenth embodiment of the present invention.

The fluidic material molecular separator 8500 has a U shape and an open front face. The inside of the guide housing 857, which has a height of 1m to 60m, has material friction action, material impact action, gravity action, It is composed of an enclosure type with a height of 1m ~ 60m so as to exert a function of dormancy.

The fluid material separator 8500 includes a filter-combined friction member 856 for exerting a filtering function while actively exerting a material friction action, a material impact action, and a material explosion action inside the fluidic substance molecular separator 8500; A friction preventive roller 851 for preventing the generation of frictional heat generated when the fluid material molecule separator 8500 is operated in the up and down directions on the front, rear, left and right sides; A rotating shaft connection port 855 for moving the fluidic substance molecular sieve separator 8500 upward and downward from above the fluidic substance molecular sieve separator 8500; A rotating body 852 such as a motor provided on the other side of the guide housing 857; A rotation bar 853 provided at one side of the rotating body 852 and having a central U-shape and a U-shape at the other side; A rotation rod 853 connected to the rotation shaft connection port 855 and configured in a U shape; A fluid material inflow pipe 716 provided at one side of the upper side to inject water and liquid into the fluid material separator 8500; And a control valve 916 provided in the middle of the fluid material inlet pipe 716 to control the inflow amount.

The fluid material separator 8500 is connected to the lower end of the fluid material separator 8500 to discharge fluid material molecules having a high specific gravity to the outside of the fluid material separator 8500 936 is coupled to the ascending suction pipe 930 and a discharge control valve 931 for controlling the discharge amount is coupled to one side of the ascending suction pipe 930 and the fluid material separator 8500 A surplus material molecule discharge pipe 927 for discharging molecules of fluids having a specific gravity to the outside is combined.

The fluid material separator 8500 includes a gas injection pump 917 for injecting a gas such as air into the lower end thereof; And an air diffuser 918 provided at an upper end of the gas injection pump 917 to jet a gas such as air.

The rotating rod 853 is coupled with the rotating shaft connecting port 855 formed at the center of the fluid material separator 8500 and is rotated and rotated by the rotational force of the rotating body 852 to rotate the fluid material separator 8500, .

As described above, the fluid material separator 8500 continuously introduces the fluid material molecules into the fluid material separator 8500 through the fluid material inlet pipe 716, The fluidic substance molecular separator 8500 is operated upward and downward by using the rotating body 852 formed on the upper part of the separator 8500 so that the friction material 8060, A material friction action and a material explosion action generated by the collision of the fluid material molecules with the fluid material molecule 856 and the fluid material molecule separator 8500 using the gas injection pump 917 Fluid molecules are struck to produce molecules with a low specific gravity and molecules with heavy specific gravity.

Fluid material with a light weight of a specific gravity and a fluidic material with a high specific gravity The material has a mass and a specific gravity similar to each other due to a gravitational acceleration action, a gravity acceleration action, a specific gravity and a mass difference, Due to the action of gravitational acceleration and gravity and the difference in specific gravity and mass compared to the total amount of fluidic matter molecules flowing into the fluidic material molecular separator (8500) when processing such that the molecules are naturally separated into upper and lower layers and moved, Fluid material molecules 70WT% ~ 99.99WT% such as blood having a high specific gravity moving to the lower end of the fluid material separator 8500 are separated from the low layer water withdrawal port 936 formed at the lower end of one side of the fluid material separator 8500, And the discharge amount control valve 931 coupled to the ascending cyphon suction pipe 930 to control the discharge of the fluid material separator 8500 Release it for reuse or recycling.

Meanwhile, 0.1 WT% to 30 WT%, which can not be discharged through the rising siphon suction pipe 930 due to the difference in specific gravity, mass, and gravity, A fluidic material molecular separator applied to a eco-friendly eco-friendly method of discharging fluid substances with a low specific gravity through a pipe (927), collecting them for reuse or reworking.

The method of constructing the filter-combined friction member 856 can be widely varied. The fluidic material molecules and the gaseous material molecules flowing into the fluidic material molecular separator constituting the filter-combined friction member 856 constituting the inside of the fluidic material molecular separator come into contact with the friction material 856 serving as the filter A friction material 856 serving as a filter so as to separate material molecules having a large specific gravity and substances having a light specific gravity which are combined with the fluid material molecules and the gaseous material molecules by causing the material friction action and the substance catalysis action and the material explosion action, Are all within the scope of the present invention.

[Twentieth Embodiment]

The following will describe the twenty-first aspect of the present invention constructed in accordance with the twentieth embodiment of the present invention.

45 is a cross-sectional perspective view of a fluid material molecular separator constructed in accordance with the twenty first embodiment of the present invention as follows.

The fluidic material molecular separator 5800 is configured as a rectangular enclosure and has a height of about 1m to 60m.

The fluidic material molecular separator 5800 includes a fixed bed 580; Rotating means 581, such as a motor, coupled to the fixed table 580; A rotary striking rod 582 cross-coupled in a diagonal direction to a rotating shaft constituted by the rotating means 581; A vibrating vibrator 583 coupled to the fixed table 580; A fluid material inflow pipe 716 provided at one side of the upper side to inject water and liquid into the fluid material separator 5800; A control valve 916 provided in the middle of the fluid material inlet pipe 716 to control the inflow amount; A lower layer water inlet 936 provided at the lower end of the lower portion of the fluid material separator 5800 for discharging the fluid substance molecules having a high specific gravity collected at the lower end of the fluid material separator 5800 to the outside of the fluid material separator 5800, A pipe 930; A discharge amount control valve 931 provided at one side of the ascending cyphon suction pipe 930 to adjust the discharge amount; A surplus material molecule discharge pipe (927) provided on the other side of the fluid material separator (5800) for discharging fluid material molecules having a light specific gravity to the outside; A gas injection pump 917 for injecting a gas such as air through the lower end of the fluid material separator 5800; The fluid material separator 5800 includes an air diffusion port 918 for discharging a gas such as air.

As described above, the fluidic substance molecular sieve separator 5800 continuously inflows fluidic substance molecules into the fluidic substance molecular sieve separator 5800 through the fluidic substance molecule inflow pipe 716 formed at the upper part thereof At the same time, fresh air or contaminated air is injected into the fluid material separator 5800 using the gas injection pump 917, and the fluid material separator 5800 is coupled with the rotating means 581 And the vibrating vibrator 583 coupled with the fixing table 580, using the rotating striking rod 582, which strikes the fluid material molecules and the gaseous material molecules, By striking gaseous material molecules, it is processed to separate pollutant molecules with light specific gravity and clean substance molecules with heavy specific gravity, which are bonded to fluidic material molecules, Physical substance Molecules and liquid materials with a high specific gravity Molecules have gravity action and gravity Acceleration action Due to difference in specific gravity and mass Material collision action and material Friction action and substance Explosion action Similar to mass and specific gravity Material Molecule Naturally And the lower layer portion.

At this time, the total amount of the fluidic substance molecules flowing into the fluid material separator 5800 moves to the lower end of the fluid material separator 5800 by the action of the gravitational acceleration action and the gravity action and the difference between the specific gravity and the mass The fluidic substance molecules 70WT% to 99.99WT% having a high specific gravity are connected to the low-level water intake port 936 formed at the lower end of one side of the fluid material molecule separator 5800 and the discharge control valve (931) to be discharged to the outside of the fluid material separator (5800) and reused or recycled.

Meanwhile, 0.1 WT% to 30 WT%, which can not be discharged through the ascending cyclone suction pipe 930 due to the difference in specific gravity, mass, and gravity, A fluidic material molecular separator applied to a eco-friendly eco-friendly method of discharging fluid substances with a low specific gravity through a pipe (927), collecting them for reuse or reworking.

[Example 21]

The following will describe the twenty-second aspect which is constructed in accordance with the twenty-first embodiment of the present invention.

FIG. 46 is a cross-sectional perspective view of a fluid material molecular separator constructed in accordance with the twenty first embodiment of the present invention, as follows.

The fluid material molecule separator 5900 includes a support frame 596 formed in a U-shape by being coupled with a rotation axis 596 formed across one side and the other side of the support frame 596, An upper and lower vibration vibrator 707 provided at the center of the lower end of the support frame 596 and a cylindrical tool 591 provided on the rotary shaft 596 for passing gas or fluid substance molecules therethrough, A fluid inlet 592 provided at one side of the rotary shaft 596 for introducing fluid material molecules such as water or seawater, a gas inlet 593 provided at the other side for introducing fresh air or contaminated gas, And a driven pulley 592 provided on the other side of the rotating shaft 596. The driven pulley 592 is provided with a rotating means 595 such as a motor, ).

The casing of the fluid material separator 590 is formed to be horizontally disposed with the rotation axis 596 as a starting point.

The fluid material separator 5900 is connected to the fluid material separator 5900 at a lower end of the fluid material separator 5900. The fluid material separator 5900 is connected to the fluid material separator 5900, 936 and an elevated siphon suction pipe 930 associated with the low-stream water withdrawal port 936 are disposed.

A discharge amount control valve 931 for controlling the discharge amount is coupled to one side of the ascending phoenix suction pipe 930 and fluid substance molecules having light specific gravity are discharged to the outside on the other side of the fluid material separator 5900 A surplus material molecule discharge pipe 927 is coupled.

As described above, the fluid material molecules or the seawater or the fresh water are continuously introduced into the fluid material separator 5900 through the fluid inlet 592 formed on the side surface of the fluid material separator 5900 Fresh air or contaminated gas is continuously introduced through the gas inlet 593 formed on the other side and the rotating means 595 constituted on the other side of the fluid material molecule separator 5900 is used The rotating striking rod 590 coupled to the rotating shaft 596 is used to successively strike the contaminated fluidic substance molecules and gaseous substance molecules flowing into the fluidic substance molecular separator 5900, The fluid material separator 5900 is connected to the fluid material separator 5900 by using the up and down vibration vibrator 707 formed at the lower end of the material molecule separator 5900, Fluid material molecules and gaseous material molecules are successively struck to cause fluidic material molecules with a low specific gravity and fluidic material molecules with a high specific gravity to act on gravity and gravitational acceleration, Material The material molecules whose mass and specific gravity are similar to each other by the friction action and the material explosion action are processed so that they move naturally as they are separated into the upper and lower layers.

At this time, the total amount of the fluidic substance molecules flowing into the fluid material molecule separator 5900 moves to the lower end of the fluid material separator 5900 due to the effect of the gravity acceleration action and the action of the gravity and the specific gravity and mass, The fluidic substance molecules 70WT% to 99.99WT% such as blood having a high specific gravity are combined with the low-layer water intake port 936 and the rising-siphon suction pipe 930, which are formed at the lower end of one side of the fluid material molecule separator 5900 The discharge amount control valve 931 is adjusted and discharged to the outside of the fluid material molecule separator 5900 for reuse or recycling.

In the meantime, 0.1 WT% ~ 30 WT%, which is not discharged through the ascending siphon suction pipe 930 due to the specific gravity, mass and gravity difference, A fluidic material molecular separator applied to a eco-friendly eco-friendly method of discharging fluid substances with a low specific gravity through a pipe (927), collecting them for reuse or reworking.

[Example 22]

In the material molecule separator 30000, a moving means 991 constituted by rubber tires or the like is formed on one side and the other side of the base rest 992;

On the upper part of the moving means 991, the material molecule separator 30000 is configured in an upright form;

At the upper end of the base rest 992, a vibrator 990 is configured to exert an action to shake fluidic substance molecules flowing into the interior of the material molecule separator 30000;

An air injection striking device 1102 for blowing air is connected to an air pipe 1008 coupled to the air generating device 1007 at one side of the lower end of the material molecule separator 30000;

A pipe 9930 is formed in a diagonal shape using a circular pipe or a square pipe inside the other side of the lower end of the material molecule separator 30000;

The upper portion of the cyphone generating pipe 9930 is connected to the upper end of the cyphon generating pipe 9930 by using a low-level water discharge pipe 9931 formed in an L-shaped configuration, A structure of a low-level water discharge system in which a discharge amount control valve 9932 is coupled to one end of a pipe 9931;

A plurality of rotation striking devices 2001 for striking molecules of a fluid material or gaseous substances introduced into the material molecule separator 30000 are formed in the middle of the material molecule separator 30000;

The driving pulley 6102 constituting the driven pulley 2102 and the rotating motor 6102 constituting the upper end or the one side of the material molecular sieve separator 30000 and the rotating pulley Along with;

A filtration membrane (9820) for filtering fluid molecules entering the material molecule separator (30000) is coupled to the filtration membrane support (9821) on one side of the upper end of the material molecule separator (30000);

A structure in which an inlet 1300 for introducing fluid material molecules into the material molecule separator 30000 is connected to the inlet control valve 1301 at an upper portion of the material molecule separator 30000;

A contaminant molecule outlet port 1112 for discharging fluidic substance molecules having a specific gravity to the other end of the upper part of the material molecule separator 30000 is combined with a control valve 1113;

The lower end discharge port (101) for discharging heavy fluid molecules is connected to the lower end discharge control valve (102) at the lower end of the material molecule separator (30000).

Fluid material molecules constituting polluted rainwater, contaminated river water or seawater or milk or alcohol, beverage, or general fresh water through the inlet 1300 configured as described above are introduced into the first fluid material molecule treatment plant 3700 The rotary striking device 2001, the air generating device 1007 and the vibrator 990 constituting the first fluid material molecule treatment plant 3700 are operated to remove polluted rainwater and polluted river water or seawater or milk, It has been found that striking fluidic material molecules composed of alcohol, beverage, or general freshwater and striking lightweight substance molecules and massive substance molecules which are bonded to these fluidic substance molecules, contaminated rainwater, contaminated river water or seawater Or milk or a liquid substance molecule constituting a drink or a drink or general fresh water is heavy With the clean material by the molecular weight and separating light contaminants molecule enforcing the function of injury to the upper end of said first fluid material molecule Plant (3700) continuously;

In this process, the discharge amount control valve 9932, which is formed at one end of the low-level water discharge pipe 9931 coupled with the pipe 9930, is adjusted to the lower end of the material molecule separator 30000 The low-level water discharged at the lower end of the material molecular separator 30000 is discharged at a rate of about 95 Wt% to 99.9 Wt% relative to 100 Wt% of the inflow amount of the fluent material molecules constituting the moving rainwater or the river water or the sea water or the milk or the alcoholic beverage or the general fresh water. The liquid molecular material molecules 0.1Wt% to 5WT%, which have a specific gravity of low specific gravity floating to the upper end of the material molecule separator 30000 due to the difference in specific gravity and the action of gravity when externally discharged through the pipe 9931, The material molecule separator 30000 configured to discharge the pollutant to the pollutant outlet 1112 formed at the upper end of the pollutant outlet 1112, Rainwater and contaminated river water or seawater or milk, or liquid or liquid foods such as drinks or beverages, blood, vinegar and grains, or general liquids, A material molecular separator 3000, which is used to reuse the collected material molecules or mix them with another material for energy or to process or purify the clean fluid material molecules, Friendly material material molecule separator applied to a naturally friendly environmentally-friendly separation method of separating and processing clean fluid material molecules and lightweight liquid material molecules

The present invention is a method for purifying polluted rainwater, polluted river water, fluid substance molecules such as seawater, milk, liquor, beverage, and general fresh water, which are constituted according to the present invention, with clean substance molecules. There are many places to apply eco-friendly methods.

In addition, the market of the eco-friendly method of the present invention which functions to purify contaminated blood after collecting blood will be very wide.

In addition, since the polluted fresh water can be purified with clean tap water without the input of the medicine, the market of the fluid material separator applicable to the environment-friendly environment-friendly method constituted according to the present invention will be endless.

200,300,1000,1500: Fluid material molecular separator
1502: base seat plate 1513: rear plate

Claims (31)

Water, water, liquid, water, liquid, etc. By using the rotary striking device, the air blowing striking device, and the vibration striking device, it is possible to produce a clean substance having a heavy weight, A fluid material molecular separator which is separated and processed in a friendly manner,
Wherein the fluidic material molecular separator is configured in an enclosed form and is configured to exert a gravitational action and a gravitational acceleration action on an upper portion of a base seat coupled with a plurality of rotating wheels,
The fluid material molecule separator 1500 includes a base seat 1502 coupled to four rotating wheels 1503; A first pump 1516 disposed on the base seat 1502 for pumping water, liquid and the like into the fluid material separator 1500 and coupled with the liquid inlet 1509; A second pump 1515 disposed on the base seat 1502 to pump air or polluted soot into the fluid material separator 1500 and to be coupled to the air inlet 1510; A base rest frame 1517 formed in the center of the base seat 1502 in the shape of a letter U; A U-shaped coupling base 1519 which is opposed to one side and the other side of the base frame 1517; A vibrator 1585 formed at the lower end of the base frame 1517; A front plate 1518 formed in a U-shape at the front portion of the U-shaped coupling base 1519; A back plate 1513 which bolts a rear plate coupling part 1556 formed in the U-shaped coupling plate 1519 and a rear plate coupling part 1533 formed in the rear plate 1513 with bolts; An air injection pipe coupling 1553 disposed at the lower end of the front portion of the lower air injection port 1555 and injecting air or soot generated in the second pump 1515 into the fluid material separator 1500; An air injection pipe 1506 for injecting air or polluted soot into the fluid material molecular sieve 1500 through the air injection pipe coupling 1553; A fluid material molecule injection pipe 1508 connected to the first pump 1516 to introduce various liquid substance molecules constituted of liquid such as water into the fluid material molecule separator 1500; A conical spout rod 1520 connected to the fluid material molecule injection pipe 1508 and communicating with the lower side of the upper outlet 1501; A plurality of friction rods 1530 disposed on the front plate 1518; And a friction plate 1550 disposed on the rear plate 1513,
The fluid material molecule separator (1500)
A fluid material such as water is injected into the fluid material molecular sieve 1500 through the conical spout rod 1520 connected to the liquid inlet 1509, the first pump 1516 and the fluid material molecule injection pipe 1508, The molecules are continuously introduced at a high pressure,
The friction rod 1530 constituting the front plate 1518 of the fluid material molecule separator 1500 and the friction plate 1550 constituting the rear plate 1513, the striking rod 1551 and the striking groove 1552 The fluid material molecules flowing into the fluid material separator 1500 are successively struck and processed to form contaminant molecules having a small specific gravity and clean specific substance molecules bonded to the fluid material molecules It is processed to be automatically separated by the action of gravity,
The fluid material molecules flowing into the fluid material molecule separator 1500 are continuously blown and processed using the vibrator 1585 formed in the base seat 1502 and the air inlets 1510, The second pump 1515 and the air injection pipe 1506 are used to introduce air into the fluidic substance molecular sieve separator 1500 using a high-pressure pressure, The material molecules are successively struck and processed,
The fluidic material molecular sorter 1500 moves to the lower end of the fluidic material molecular sieve 1500 due to the action of gravity and the difference between the specific gravity and the mass, based on the total amount of the fluidic material molecules flowing into the molecular material separator 1500, The material molecules 70 WT% to 90 WT% are fluidized by using a low-layer water discharge pipe 1505 and a discharge pump 1507 combined with the low-layer water discharge port 1558 formed at the lower end of one side of the fluid material separator 1500, And is discharged to the lower layer water intake port 1558 due to the difference in gravity action, mass and specific gravity, and is discharged to the upper end of the fluid material separator 1500, The material molecules are separated and discharged to an upper discharge port 1501 formed at the upper end of the fluid material separator 1500 and then collected and used or reworked.
Fluid material molecular separator.
The method according to claim 1,
0.01 WT% to 10 WT% relative to the total amount of influent 100 WT% flowing into the fluid material molecule separator 1500 when processing a typical food such as fresh water, seawater, alcohol, milk, The lower layer water discharge pipe 1505 is formed to have a size smaller by 0.01% to 10% than the size of the fluid material molecule injection pipe 1508 so as to be discharged to the upper discharge port 1501 formed on the other side of the upper portion.
Fluid material molecular separator.
3. The method of claim 2,
A plurality of fluidic material molecular separators 1500 are continuously installed through a plurality of steps and the low fluidic water discharge pipe 1505 and the second fluidic material molecular separator The fluidic material molecules discharged from the low-level water discharge pipe 1505 formed in the respective fluidic material molecular sieve 1500 are connected to the fluid inlet 1509, Is transferred to a liquid inlet (1509) constituted in each fluid material separator (1500)
The fluid material molecules are repeatedly re-injected and reprocessed through the conical ejection rods 1520 formed in the respective fluid material separators 1500 to be combined with the fluid material molecules or the gaseous substance molecules Which has a specific gravity of light pollutant molecules and heavier fluidic material molecules or gaseous material molecules that are combined with lightweight fluidic material molecules and heavier gravity fluidic molecules,
Fluid material molecular separator.
Water, water, liquid, water, liquid, etc. By using the rotary striking device, the air blowing striking device, and the vibration striking device, it is possible to produce a clean substance having a heavy weight, A fluid material molecular separator which is separated and processed in a friendly manner,
The fluid material separator 1000 is configured as an enclosure and is configured to exert a gravitational action and a gravitational acceleration action, and is formed on an upper part of a base seat coupled with a plurality of rotating wheels,
The fluidic substance molecular sieve separator (1000) includes a vibrator (107) disposed at a lower central portion; A lower plate 121 provided at the upper portion of the lower end; An air diffuser 122 formed at an upper portion of the lower plate 121; An air outlet 113 for diffusing air from the upper end of the air diffuser 122; And an air supply pipe 115 for transferring air is connected between the air pump 116 and the air diffuser 122 to connect the fluid material separator 1000 The air or contaminated soot is supplied to the inside of the air-
A low-level water discharge pipe (not shown) provided with a low-level water intake port 106 for discharging heavy fluid substances collected at the lower end of the fluidic substance molecular sieve separator 1000 to the outside of the fluid material separator 1000 103 is connected to the discharge pump 105 and a fluid material molecule for introducing fluid material molecules such as water into the fluid material molecule separator 1000 is connected to one side of the upper end of the fluid material molecule separator 1000 The injection port 111 is configured to be coupled with the control valve 112,
The upper portion of the fluid material separator 1000 is provided with an upper discharge port (not shown) for discharging fluid material molecules having a specific gravity, which are bonded to fluid material molecules such as water, (110)
The fluidic substance molecular sieve separator 1000 is provided with a plurality of rotating shafts 101 in a pipe shape on the other side and a plurality of rotating shafts 101 are coupled with the rotating shaft housing 100, Are coupled to one side and the other side of the housing (1000).
An inlet hole 103 for introducing fluid substances such as air or water is coupled to the inside of the rotary shaft 101 and a fluid substance such as air or water is diffused and supplied to the end of the rotary shaft 101 And a friction plate 102 coupled to the diffusion supply port 119. The friction plate 102 is provided at one end thereof with a jet port 118 and a friction wing 117 for ejecting fluid substances such as air or water And,
The fluidic material molecular separator 1000 separates fluidic substance molecules such as air or water at a high pressure through an inlet hole 103 and an outlet port 118 combined with a plurality of rotary shafts 101, The fluid material separator 1000 is continuously supplied into the fluid material separator 1000 using the friction plate 102 and the friction wing 117 that are coupled to the rotating shaft 101, It is important to separate and process pollutant molecules with a low specific gravity and clean substances with a high specific gravity,
The fluid material molecules flowing into the fluid material molecular sieve separator 1000 are continuously blown and processed by using the vibrator 107 formed on the base seat plate 109 and the air pump 116 Air is introduced into the fluidic material molecular sieve separator 1000 at a high pressure to continuously blow and process the gas or fluent material molecules flowing into the fluidic material molecular sieve separator 1000,
The fluid material molecules are continuously introduced into the fluid material separator 1000 through the fluid material molecule injection port 111 to continuously inflow fresh water, seawater, liquor, milk, beverage, and blood, The material molecules are processed so as to be separated naturally by the action of gravity, the action of material collision, the material friction action and the material explosion action, so that the total influx of the fluid material molecules flowing into the fluid material molecular sieve separator 1000 The fluidic substance molecules 70WT% to 99.99WT% of heavy specific gravity molecules moving to the lower end of the fluidic material molecular sieve 1000 due to the difference between the specific gravity and the mass are connected to the low-level water withdrawal port 106 formed at the lower- Is discharged to the outside of the fluid material separator (1000) by using the discharge pipe (133) and the discharge pump (105)
Due to the difference in mass and specific gravity of gravity, it can not be discharged to the outside of the fluid material separator 1000 through the low-layer water intake port 106, and the specific gravity floating on the upper end of the fluid material separator 1000 is low The material molecules are separated and discharged to the upper discharge port 110 formed at the upper end of the fluid material molecule separator 1000, collected and used or reworked,
Fluid material molecular separator.
Water, water, liquid, water, liquid, etc. By using the rotary striking device, the air blowing striking device, and the vibration striking device, it is possible to produce a clean substance having a heavy weight, A fluid material molecular separator which is separated and processed in a friendly manner,
Wherein the fluidic material molecular separator is configured in an enclosed form and is configured to exert a gravitational action and a gravitational acceleration action on an upper portion of a base seat coupled with a plurality of rotating wheels,
The fluidic substance molecular separator 200 includes a vibrator 107 disposed at a lower central portion thereof, a lower end plate 211 disposed at a lower end portion thereof, a lower plate 211 disposed at a lower end portion thereof, A material-molecule separation chamber 205, a conical spout rod 1520 connected to and coupled to a fluid material molecule supply pipe 207 for introducing fluidic substance molecules into the upper portion of one side of the fluidic material molecule separator 200, Lt; / RTI >
The material molecule separation chamber 205 separates the fluid material molecules having a large specific gravity and the fluid material molecules having a light specific gravity by an intermediate plate 206 for separating the molecules of gravity, mass and specific gravity by the specific gravity difference . A plurality of long holes are formed in the intermediate plate 206 so that the molecules of the fluid material move freely upward and downward,
The filtration membrane 203 is formed on the upper portion of the intermediate plate 206 so as to filter the contaminant molecules having light specific gravity and the fluidic molecules having a high specific gravity,
A plurality of high-pressure ejection openings 1521 are coupled to the outer peripheral surface of the lower end of the cone-shaped ejection rods 1520 so as to eject high-pressure pressures of the fluid material molecules into the fluid material separator 200,
The fluid material separator 200 is provided at the other side thereof with a low-level water discharge pipe (not shown) for discharging fluidic substance molecules having a high specific gravity accumulated at the lower end of the material molecule separator box 205 to the outside of the fluid material separator 200 201 are coupled in an inverted U shape and the inner end of the fluid material separator 200 is connected to the low layer water intake 202,
The fluid material separator 200 is provided at the upper portion of the other side of the fluid material separator 200 to discharge fluidic substance molecules having a specific gravity to the upper portion of the fluid material separator 200 due to a difference in gravity action, An upper discharge port 209 is configured to be coupled to the discharge control valve 210,
100% by weight of the fluidic substance molecules such as water is injected into the fluidic material molecule separator 200 through the conical ejection rod 1520 at a high pressure and at the same time, 107 is operated to vibrate the fluid material separator 200 and to use the discharge amount control valve 210 coupled to the upper discharge port 209 formed on the other side of the fluid material separator 200 The discharge amount control valve 210 is controlled to be discharged to the upper discharge port 209 by about 0.01 wt% to 10 wt% of 100 wt% of the total amount of the inflow into the fluid material separator 200, After collecting and reusing,
Fluid material molecules of 90 wt% ~ 99.99 wt%, which are not discharged to the upper discharge port 209 because of the action of gravity and the difference of mass and specific gravity, and heavy in specific gravity collected in the material molecule separation chamber 205, The fluid material separator 200 is automatically discharged to the outside of the fluid material separator 200 by using the low layer water intake port 202 and the low layer water discharge pipe 201 combined with the material molecule separator 200 to reuse or re-
Fluid material molecular separator.
Water, water, liquid, water, liquid, etc. By using the rotary striking device, the air blowing striking device, and the vibration striking device, it is possible to produce a clean substance having a heavy weight, A fluid material molecular separator which is separated and processed in a friendly manner,
Wherein the fluidic material molecular separator is configured in an enclosed form and is configured to exert a gravitational action and a gravitational acceleration action on an upper portion of a base seat coupled with a plurality of rotating wheels,
The fluidic material molecular separator (300)
A conical spout rod 1520 connected to and joined to a fluid material molecule supply pipe 305 for introducing fluidic substance molecules into the inside, a base plate 312 having a rectangular shape, And a plurality of high-pressure ejection ports 1521 for ejecting the substance-substance molecules into the fluid-material separator 300 at a high pressure,
The fluidic material molecules, which have a low specific gravity and float above the fluidic material molecular separator 300 due to the action of gravity and the difference in specific gravity and mass, are disposed on the other side of the fluidic material molecular separator 300, 300) is connected to the discharge amount control valve (303), and the upper discharge port (302)
The fluidic material molecules collected at the lower end of the fluidic material molecular sieve 300 due to the action of the gravity and the difference in mass and specific gravity are introduced into the fluidic material molecular sieve 300 And a low-level water intake port 308 connected to the low-level water discharge pipe 307 is connected to the inner end of the fluidic substance molecular sieve 300. The low-level water discharge pipe 307 is connected to the low- Lt; / RTI &
A water storage tank 301 coupled to a low water discharge pipe 307 is connected to the other end of the base plate 312. A water storage tank 301 is coupled to a lower high pressure pump 312 at one end of the water storage tank 301,
The fluidic material molecular separator (300)
The lower first discharge pipe 310 of the fluid material separator 300 disposed on the rear side is connected to the lower fluid discharge pipe 310 of the fluid material separator 300 on the front side, After the polluted fresh water or fluid material molecules are continuously introduced into each fluid material separator 300 by using the downstream high pressure pump 312 connected to the molecular supply pipe 305, The fluid material molecules flowing into the first-stage fluid material separator 300 are controlled by adjusting the first lower discharge-amount control valve 316 coupled to the first lower discharge pipe 310 formed at the lower end of the separator 300, The fluidic substance molecules discharged from the first lower discharge pipe 310 are discharged from the fluidic material separator 300 at the upper end of the fluidic material separator 300 at the front side by discharging approximately 90 wt% to 99.99 wt% Substance fraction The fluid material separator 300 is conveyed to the supply pipe 305 and then to the subsequent fluidic material separator 300 at a high pressure through the high pressure discharge port 1521 formed in the conical discharge rod 1520 coupled with the material molecule supply pipe 305, And the fluid material molecules are injected into the interior of the cavity,
Fluid material molecular separator.
The method according to claim 6,
The fluidic material molecular separator (300) has a body shape of a rectangular enclosure shape to process fluid molecules,
Fluid material molecular separator.
Water, water, liquid, water, liquid, etc. By using the rotary striking device, the air blowing striking device, and the vibration striking device, it is possible to produce a clean substance having a heavy weight, A fluid material molecular separator which is separated and processed in a friendly manner,
Wherein the fluidic material molecular separator is configured as an enclosure to exert a gravity action and a gravity acceleration action,
The fluidic material molecule separator 7000 may include a fluid material separator 7000,
An air diffuser 122 provided at an upper portion of the lower plate 121, a gas injection unit 120 disposed at an upper portion of the lower plate 121, An air inlet 728 provided at one side of the pump 720 and the gas injection pump 720 for introducing fresh air or contaminated air from the outside or contaminated soot into the gas air pump 720, An air supply pipe 115 provided between the air diffusion port 720 and the air diffusion port 122 for conveying the air, a material collision action and a material friction action, which are disposed on one side thereof, A plurality of forward rotation fixed striking rods 710 in the form of a spiral so as to be rotatable; A rotation striking plate 708 disposed on the other side of the rotating striking plate 708 and coupled with the plurality of rotating bodies 701; And a plurality of rotary striking rods (709) in a spiral shape for exerting a material-impacting action and a material-friction action for causing the rotating striking plate (708) to collide by rotating the fluidic substance molecules,
The fluid material separator 7000 is provided at the other side thereof with a low-layer water intake port 711 for discharging heavy fluid substances collected at the lower end of the fluid material separator 7000 to the outside of the fluid material separator 7000 Is formed in a one-figure form with an upward phonon suction pipe 712,
The upper portion of the ascending cyphon suction pipe 712 is provided with a secondary fluid material molecule separation tube 729 in the form of an enclosure and a fluid material molecule 729 having a light specific gravity A second exhaust pipe 717 for discharging the exhaust gas to the outside is coupled to the second exhaust control valve 719,
A ciphone downfalling discharge pipe 713 for discharging heavy fluid molecules is connected to a discharge volume control valve 715 at one side of the secondary fluid material separator 729, 7000 is provided with a fluid material inlet pipe 716 connected to the control valve 112 for introducing fluid material molecules such as water into the fluid material separator 7000, A fluid material molecule diffusion hole 718 is formed at an end of the material molecule inlet pipe 716,
The fluid material molecule separator 7000 operates the vertical vibration vibrator 707 to vibrate the fluid material molecule separator 7000 and simultaneously use the fluid material molecule separator 7000) with fresh air or contaminated air continuously,
The fluid material separator 7000 continuously injects fluid material molecules such as water through the fluid material molecule inlet pipe 716 formed at the upper part thereof at a high pressure so that the specific gravity The rotating matter 709 is rotated by rotating the rotating striking plate 708 with a plurality of rotating striking plates 708 in the fluid material separator 7000 while simultaneously processing the light polluting molecules and the clean substance molecules having a large specific gravity, Fluid material molecules with a low specific gravity and fluid material molecules with a high specific gravity are continuously impacted by gas or fluid material molecules that flow into the interior, resulting in a gravity action, a difference in specific gravity and mass, Material particles having mass and specific gravity similar to each other are collided by a material explosion action,
Accordingly, due to the action of gravity and the difference between the specific gravity and the mass, the total amount of the fluidic substance molecules flowing into the fluidic material separator 7000 is 70WT% ~ 99.99WT % Indicates the ascending siphon suction pipe 712 coupled with the low-layer water intake port 711 formed at the lower end of the fluid material separator 7000, the secondary fluid-molecule separator 729, The discharge amount control valve 715 coupled with the siphon down discharge pipe 713 to be discharged through the discharge pipe 713,
Fluid material molecular separator.
Water, water, liquid, water, liquid, etc. By using the rotary striking device, the air blowing striking device, and the vibration striking device, it is possible to produce a clean substance having a heavy weight, A fluid material molecular separator which is separated and processed in a friendly manner,
Wherein the fluidic material molecular separator is configured as an enclosure to exert a gravity action and a gravity acceleration action,
The fluid material molecule separator (7000) comprises: a vertical vibration vibrator (707) disposed at the lower central portion; A lower end plate 121 provided at an upper portion of a lower end; An air diffuser 122 provided at an upper portion of the lower plate 121; A gas injection pump 720 provided at an upper portion of the gas injection pump 720; And an air inlet 728 for injecting fresh air or polluted air or contaminated soot flowing into the gas inflow pump 720 from the outside into the gas air pump 720,
An air supply pipe 115 for transferring air is connected between the gas injection pump 720 and the air diffuser 122 to supply fresh air or contaminated soot into the fluid material separator 7000 ,
A low-layer water intake port 711 for discharging heavy fluid substances collected at the lower end of the fluidic substance molecular separator 7000 to the outside of the fluid-material separator 7000 is connected to an ascending / And a discharge control valve 752 for controlling the discharge amount is provided at an upper portion of the ascending suction pipe 712. The discharge control valve 752 is connected to the fluid material separator 7000), an upper discharge port 755 for discharging molecules of fluids and gaseous substances having a specific gravity is connected to a discharge amount control valve 753,
A first material molecule separation column 739 for collecting fluid material molecules and gaseous material molecules having a light specific gravity is formed on the upper portion of the fluid material molecule introduction pipe 738, A first material molecular reservoir 8000 is formed in the form of a housing capable of being opened and closed at one side of the siphon up pipe 735,
The first material molecular reservoir 8000 includes a movable wheel-shaped elastic body 736 provided on the four lower ends of the first material molecular reservoir 8000; A vibration vibrator 737 for generating vibration at a lower end of the first material molecular reservoir 8000; An injection pump 732 provided on the other side of the first material molecular reservoir 8000; A connection pipe 758 for introducing the backside of the injection pump 732 and the air or contaminated soot floating on the first material molecular reservoir 8000 back into the interior of the first material molecule reservoir 8000; An air diffuser 757 for spraying the air supplied from the infusion pump 732 to the bottom portion of the lower end of the first material molecular reservoir 8000; And a fluid material molecule injection pipe 731 for supplying fluid material molecules such as water into the first material molecule reservoir 8000 on the other side of the first material molecule reservoir 8000,
The fluid material molecules such as water or seawater that have passed through the siphon uprising pipe 735 formed at the lower end of the first material molecular reservoir 8000 are introduced into the first material molecular sieve 739, By adjusting the discharge amount control valve 756, 0.01 wt% to 10 wt%, relative to the total amount of the influent material molecules introduced into the first material molecule separator 739 through the first material molecular reservoir 8000, Collecting and re-collecting or re-entering the first material molecular reservoir 8000 and discharging the material,
Fluid material molecular separator.
10. The method of claim 9,
Salt water is prepared by diluting 50 wt% to 95 wt% of salt with 5 wt% to 50 wt% of water to prepare a liquid brine, continuously supplying the liquid salt water prepared in advance into the fluid material molecule separator, The low-level water discharge pipe 201, the low-level water discharge pipe 201, and the low-level water discharge pipe 315, the siphon down discharge pipe 713, the siphon down discharge pipe 730, 133 to 90% by weight to 99.99% by weight based on 100% by weight of the total amount of the brine influx into the fluidic material separator, collecting and using the same,
The lower bottom discharge pipe 315, the siphon down discharge pipe 713, the siphon down discharge pipe 730, the low-level water discharge pipe 1505, the low-level water discharge pipe 201, And 0.01 wt% to 10 wt% of the fluidic substance molecules, which can not be discharged through the low-level water discharge pipe 133, are discharged through the upper discharge port formed at the upper end of the fluid material separator and then collected and re-
Fluid material molecular separator.
Water, water, liquid, water, liquid, etc. By using the rotary striking device, the air blowing striking device, and the vibration striking device, it is possible to produce a clean substance having a heavy weight, A fluid material molecular separator which is separated and processed in a friendly manner,
Wherein the fluidic material molecular separator is configured as an enclosure to exert a gravity action and a gravity acceleration action,
The fluid material molecule separator 2000 comprises four rotating wheels 703; A fluid material molecule inlet pipe 716 for injecting water and liquid into the fluid material separator 2000; An adjustment valve 916 for adjusting the inflow amount in the middle of the fluid material inflow pipe 716; An ultrasonic vibrator 980 coupled to a vibration absorbing rubber pad 981 at an intermediate side of the fluid material inflow pipe 716; A vertical vibration vibrator 707 disposed at the lower central portion; A gas injection pump 917 provided at one side lower portion; An air diffuser 918 provided at a lower end of one side of the gas injection pump 917; And an air inlet 728 for injecting fresh air or contaminated air or contaminated soot flowing from the outside on one side of the gas injection pump 917 into the gas air pump 917,
The fluidic substance molecular sieve separator 2000 is provided at the other side thereof with a low-level water withdrawal port (2000) for discharging fluidic substance molecules having a large specific gravity collected at the lower end of the fluidic substance molecular sieve separator 2000 to the outside of the fluid- 991 are provided in the shape of a squigg with the lifting siphon suction pipe 928,
A discharge amount control valve 715 for controlling the discharge amount is coupled to one side of the upper side of the ascending phoenix suction pipe 928, and fluidic substance molecules having light specific gravity are discharged to the outside of the other side of the fluidic substance molecular separator 2000 A surplus material molecular discharge pipe 927 is connected,
The fluid material molecule separator 2000 vibrates the fluid material molecule separator 2000 by operating the vertical vibrating vibrator 707 and simultaneously vibrates the fluid material separator 2000 using the gas injection pump 917 2000), and simultaneously injecting fresh air or contaminated air into the interior of the fluid material separator (2000), and blowing the fluidic substance molecules flowing thereinto using the ultrasonic vibrator (980) and,
Fluid material The molecular mass separator 2000 is a fluid material having a high specific gravity moving to the lower end of the fluid material separator 2000 due to the action of gravity and the difference between specific gravity and mass, The molecules 70WT% to 99.99WT% are adjusted by adjusting the discharge amount control valve 715 coupled with the low-layer water intake port 991 and the upward-phonon intake pipe 928, which are formed at the lower end of the fluid material molecule separator 2000 0.1 WT% to 30 WT% which can not be discharged through the ascending siphon suction pipe 928 due to the difference in specific gravity, mass, and gravity after the discharge, Discharged through the discharge pipe 927, collected and reused or reprocessed,
Fluid material molecular separator.
Water, water, liquid, water, liquid, etc. By using the rotary striking device, the air blowing striking device, and the vibration striking device, it is possible to produce a clean substance having a heavy weight, A fluid material molecular separator which is separated and processed in a friendly manner,
Wherein the fluidic material molecular separator is configured as an enclosure to exert a gravity action and a gravity acceleration action,
The fluidic material molecular separator 9000 can be used,
A fluid material molecule inlet pipe 716 provided at one side of the upper portion to inject water and liquid into the fluid material separator 9000; An adjustment valve 916 for adjusting the inflow amount in the middle of the fluid material inflow pipe 716; A vertical vibration vibrator 707 provided at the lower end of the center of the fluid material separator 9000; A gas injection pump 917 provided at one side lower portion; An air diffuser 918 provided at a lower end of one side of the gas injection pump 917; An air inlet 728 for injecting fresh air or polluted air or contaminated soot flowing into the gas inflow pump 917 from the outside into the gas air pump 917; The fluid material separator 9000 is provided at the other side thereof with a low-layer water intake port 901 for discharging heavy fluid substances collected at the lower end of the fluid material separator 9000 to the outside of the fluid material separator 9000, 902); A discharge control valve 903 which is connected to the hinge shaft 905 and adjusts the discharge amount to one side of the lower end of the upsiphone suction pipe 902; A surplus material molecule discharge pipe 910 disposed at the upper portion of the other side to discharge molecules of fluids having a specific gravity to the outside; And a fluid material molecule holder 911 for deforming the lightweight fluid substance molecules of specific gravity discharged in the form of a foam on the lower end portion of the excess substance molecular discharge pipe 910 into a fluid substance molecule having a high specific gravity,
An ultrasonic hitting unit 986 coupled with a shock absorber for absorbing an impact is coupled to the support shaft 987 at the middle of the lower end of the fluid material separator 9000 to be introduced into the fluid material separator 9000 Striking fluidic and gaseous material molecules,
The fluid material molecule separator 9000 vibrates the fluid material molecule separator 9000 by operating the vertical vibration vibrator 707 and uses the fluid material molecule separator 9000 And the fluidic substance molecules flowing thereinto are blown and processed by using the ultrasonic vibrator 986 formed inside the fluidic substance molecular sieve separator 9000,
The fluidic material molecules 9000 are moved to the lower end of the fluidic material molecular sieve separator 9000 due to the action of gravity and the specific gravity and mass of the fluidic material molecules flowing into the fluidic material molecular separator 9000, The molecules 70WT% to 99.99WT% are adjusted by regulating the discharge volume control valve 903 coupled with the low-layer water intake port 901 and the up-and-down suction pipe 902 formed at the lower end of one side of the fluid material separator 9000 However,
Fluid material molecular separator.
Water, water, liquid, water, liquid, etc. By using the rotary striking device, the air blowing striking device, and the vibration striking device, it is possible to produce a clean substance having a heavy weight, A fluid material molecular separator which is separated and processed in a friendly manner,
Wherein the fluidic material molecular separator is configured as an enclosure to exert a gravity action and a gravity acceleration action,
The fluid material molecule separator (3000)
A fluid material molecule inlet pipe 716 provided at one side of the upper portion to inject water and liquid into the fluid material separator 3000; A control valve 916 coupled to the middle of the fluid material inlet pipe 716 to control the inflow amount; A vertical vibration vibrator 707 provided at the lower end of the center of the fluid material separator 3000; A gas injection pump 917 provided at one side lower portion; An air diffuser 918 provided at a lower end of one side of the gas injection pump 917; An air inlet 728 provided at one side of the gas injection pump 917 to inject fresh air or polluted air or contaminated soot introduced from outside into the gas air pump 917; The fluid material separator 3000 is provided at the other side of the fluid material separator 3000 to collect the fluid material molecules having a high specific gravity and collected at the lower end of the fluid material separator 3000, (936) comprises an upsiphone suction pipe (930); And a discharge control valve 931 coupled to one side of the lower end of the rising siphon suction pipe 930 to adjust the discharge amount,
A fluidic material molecule separator (935, 948, 949, 955) composed of a layer in the form of an inverted triangle in the middle of the fluidic material molecular separator (3000); A plurality of outlets 957, 959, 946, and 932 formed at the lower end of the fluidic material molecular sieve 935, 948, 949, and 955; Each control valve 933, 947, 960, 958 configured in each outlet 957, 959, 946, 932; (937, 939, 941, 953) which is provided at one side of each fluidic material molecular separator (935, 948, 949, 955) composed of a layered layer and discharges fluent material molecules having a specific gravity and light gaseous material molecules having a specific gravity; 940, 942, and 945 constituting exhaust ports 937, 939, 941, and 943 of the respective surplus material molecules,
The fluid material separator 3000 operates the up and down vibrating vibrator 707 to vibrate the fluid material separator 3000 while simultaneously using the fluid material separator 3000 Is continuously injected with fresh air or contaminated air, and the fluid material molecules such as water are continuously introduced into the fluid material molecule inlet pipe 716 at a high pressure, It is processed to separate pollutant molecules with light specific gravity and clean substance molecules with heavy specific gravity,
The specific gravity moving to the lower end of the fluid material separator 3000 due to the action of the gravity and the action of the gravity acceleration and the difference of the specific gravity and the mass relative to the total amount of the fluid material molecules flowing into the fluid material separator 3000 The heavy fluidic material molecules 70WT% to 99.99WT% are discharged from the fluid material separator 3000 through the low-level water intake port 936 formed at one side of the fluid material separator 3000 and the discharge control valve 931 ),
Fluid material molecular separator.
Water, water, liquid, water, liquid, etc. By using the rotary striking device, the air blowing striking device, and the vibration striking device, it is possible to produce a clean substance having a heavy weight, A fluid material molecular separator which is separated and processed in a friendly manner,
Wherein the fluidic material molecular separator is configured as an enclosure to exert a gravity action and a gravity acceleration action,
The fluidic material molecular separator 9800,
A fluid material inflow pipe 716 provided at one side of the upper side to inject water and liquid into the fluid material separator 9800; A control valve 916 coupled to the middle of the fluid material inlet pipe 716 to control the inflow amount; A vertical vibration vibrator 707 provided at the lower end of the center of the fluid material molecule separator 9800; A gas injection pump 917 provided at a lower portion of one side of the fluid material molecule separator 9800; An air diffuser 918 formed at one lower end of the gas injection pump 917; An air inlet 728 provided at one side of the gas injection pump 917 to inject fresh air or polluted air or contaminated soot introduced from outside into the gas air pump 917; A lower layer water intake port 901 disposed on the other side of the lower end of the fluid material molecule separator 9800 for discharging fluidic substance molecules having a high specific gravity collected at the lower end of the fluidic substance molecular separator 9800 to the outside of the fluid material molecule separator 9800, A pipe 902; And a discharge control valve (931) coupled to one side of the lower end of the rising siphon suction pipe (930) to adjust the discharge amount,
The fluidic substance molecule separator 9800 is composed of an electrode rod 1005 and a + electrode rod 1006 which are connected to the electrolytic device 1007 to electrolyze fluidic substance molecules in the fluidic substance molecule separator 9800,
The fluidic substance molecular separator 9800 operates the downward vibration vibrator 707 to vibrate the fluidic substance molecular separator 9800 and simultaneously use the gas injection pump 917 to move the fluidic substance molecular separator Fresh air or contaminated air is continuously injected into the interior of the fluid material inlet pipe 9800 and the fluid material molecules such as water are continuously introduced into the fluid material molecule inlet pipe 716 at a high pressure, And the clean substance molecules having a heavy specific gravity are separated from each other,
Electric power is supplied to the electrode rod 1005 and the + electrode rod 1006 by using the electrolytic apparatus 1007 so that the specific gravity which is combined with the fluid material molecules such as water flowing into the fluid material molecule separator 9800 And the rotating body 1003 constituting the side of the fluid material molecule separator 9800 is continuously rotated to rotate the rotating shaft 1003, A swirling and a whirlwind are generated by using the diagonal slanting rod 1002 coupled to the fluid material separator 9800 so that the fluid material molecules and the gaseous material molecules flowing into the fluid material molecule separator 9800 are mixed, In this paper, we propose a new method for analyzing the effect of gravitational acceleration, gravitational acceleration, gravity and mass. Collided by the quality and the material of friction action explosion action, and processed such that the natural movement in the upper part and lower part between the molecular substances is a mass and specific gravity bisut,
The specific gravity which moves to the lower end of the fluid material separator 9800 due to the action of gravity and the action of gravity acceleration and the difference of specific gravity and mass with respect to the total amount of fluid material molecules flowing into the fluid material molecule separator 9800 The heavy fluidic material molecules 70WT% to 99.99WT% are connected to the low-level water intake port 901 formed at the lower end of one side of the fluid material molecule separator 9800 and the emission control valve 715 ) To be discharged and recycled or reused.
Fluid material molecular separator.
Water, water, liquid, water, liquid, etc. By using the rotary striking device, the air blowing striking device, and the vibration striking device, it is possible to produce a clean substance having a heavy weight, A fluid material molecular separator which is separated and processed in a friendly manner,
Wherein the fluidic material molecular separator is configured as an enclosure to exert a gravity action and a gravity acceleration action,
The fluid material separator (10000) comprises a lower end enclosure (833) in the form of an enclosure; A filter 831 for generating gravitational acceleration which is configured to be narrowed in a Λ shape in the direction of the upper end of the lower end housing 833; An upper end housing 835 configured to widen in a shape of a letter in the direction of the upper end of the filter 831 for generating acceleration of gravity; A filter film 832 for friction generation provided at an upper portion of the filter 83 for generating gravitational acceleration; A plurality of gas injection pipes 830 for injecting gas such as contaminated air or air into one side of the upper end of the upper end enclosure 835; A plurality of gas ejection openings 837 formed in the gas injection pipe 830; A fluid material inflow pipe 716 provided at one side of the upper side to inject water and liquid into the fluid material separator 10000; A control valve 916 coupled to the middle of the fluid material inlet pipe 716 to control the inflow amount; A left-right direction vibrator 826 provided at an upper end of the lower end housing 833 and coupled to the transverse structure support 825; An up-and-down vibrator 828 provided at a lower end of the lower end housing 833 and coupled to the transverse structure support 827; A vertical vibration vibrator 707 provided at the lower end of the center of the fluid material separator 10000; A gas injection pump 917 provided at a lower portion of one side of the fluid material separator 10000; An air diffuser 918 provided at a lower end of one side of the gas injection pump 917; And an air inlet 728 provided at one side of the gas injection pump 917 for introducing fresh air or polluted air or polluted soot into the gas air pump 917 from the outside,
The fluid material molecule separator 10000 vibrates the fluid material molecule separator 10000 by operating the vertical vibration vibrator 707 and the forward and backward vibrators 820 and 829 while using the gas injection pump 917 Fresh air or contaminated air is continuously injected into the fluid material molecule separator 10000 and the left and right direction vibrators 826 and the up and down vibrators 828 constituted inside the lower end case 833 are used The fluidic material molecules are struck and processed,
The specific gravity that moves to the lower end of the fluid material separator 10000 due to the action of gravity acceleration and gravity and the difference between the specific gravity and mass of the fluid material molecules flowing into the fluid material separator 10000 is 100WT% The heavy fluidic material molecules 70WT% to 99.99WT% are connected to the low-level water intake port 936 formed at the lower end of one side of the fluid material separator 10000 and the discharge control valve 931 ),
Fluid material molecular separator.
Water, water, liquid, water, liquid, etc. By using the rotary striking device, the air blowing striking device, and the vibration striking device, it is possible to produce a clean substance having a heavy weight, A fluid material molecular separator which is separated and processed in a friendly manner,
Wherein the fluidic material molecular separator is configured as an enclosure to exert a gravity action and a gravity acceleration action,
The fluid material molecule separator 20000 includes:
A rotary shaft 833 having a lower end enclosure 838 and a lower end enclosure 838 arranged in an enclosure shape and a lower end enclosure 838 disposed at the upper end of the lower end enclosure 838, 827); A filtration membrane 839 for friction generation provided inside the lower end of the upper rotating helical container 827; A friction generating recessed groove 841 provided inside the middle lower end of the upper rotating spiral housing 827 to exert an action of generating a material friction action and a material shock action; A fluid material inflow pipe 716 provided at one side of the upper portion of the top rotating helical container 827 for injecting water, liquid, and the like into the fluid material separator 20000; A control valve 916 provided in the middle of the fluid material inlet pipe 716 to control the inflow amount; A vertical vibration vibrator 707 provided at the lower end of the lower end enclosure 838; A gas injection pump 917 provided at a lower portion of one side of the lower end enclosure 838; An air diffuser 918 provided at a lower end of one side of the gas injection pump 917; And an air inlet 728 provided at one side of the gas injection pump 917 for introducing fresh air or polluted air or polluted soot into the gas air pump 917 from the outside,
The fluid material separator 20000 includes a plurality of rotators 821 provided in the lower end enclosure 838; A rotary friction plate 836 provided on the rotary shaft 821; And a rotary friction rod 823 which is provided in the rotary friction plate 836 so as to intersect diagonally with the unspecified direction. The rotary friction rod 823 has a rotary projection in the form of a spiral screw, A high pressure injection port 996 for introducing molecules of fluid substance or gaseous substance into the lower end enclosure 838 is coupled to the inlet pipe 997,
A magnet rod 840 and a + magnet bar 839 are formed on one side and the other side of the lower end enclosure 838 to contact the fluidic and gaseous molecules introduced into the lower end enclosure 838 , And is configured to exert an action
The fluid material separator 20000 operates the vertical vibration vibrator 707 to vibrate the fluid material separator 20000 and simultaneously use the fluid material separator 20000), the fluid material molecules flowing into the fluid material separator 20000 are naturally injected and processed by using the filtration film 839 for friction generation,
Fluid material molecules such as water are continuously introduced at a high pressure through the fluid material inlet pipe 716, so that the pollutant molecules having a specific gravity, which are combined with the fluid material molecules and the gaseous substance molecules, The material molecules are separated and the magnetic force is input to the magnet rod 840 and the magnet bar 839 to separate the metallic material contained in the fluid material molecules and the gaseous material molecules,
The specific gravity that moves to the lower end of the fluid material separator 20000 due to the action of gravity acceleration and gravity and the difference between the specific gravity and the mass of the fluid material molecules flowing into the fluid material separator 20000 is 100WT% The heavy fluidic material molecules 70WT% to 99.99WT% are connected to the low-level water intake port 936 formed at the lower end of one side of the fluid material separator 20000 and the discharge control valve 931 ),
Fluid material molecular separator.
Water, water, liquid, water, liquid, etc. By using the rotary striking device, the air blowing striking device, and the vibration striking device, it is possible to produce a clean substance having a heavy weight, A fluid material molecular separator which is separated and processed in a friendly manner,
Wherein the fluidic material molecular separator is configured as an enclosure to exert a gravity action and a gravity acceleration action,
The fluid material separator 5000 includes a lower end housing 510 disposed on the four rotating wheels 703 and having a lower end portion in the form of a housing and an upper end formed in a shape of a lower half of the lower portion; A filtration hole 831 for generating action of gravity and gravity acceleration provided on the upper portion of the lower end housing 510; An upper end enclosure 508 provided at an upper portion of the filtration hole 831 for generating a gravitational acceleration, the lower end portion of which is formed in an upper and lower narrowed shape, A material friction action and a shock-generating protrusion / protrusion 512 provided inside the filtration hole 831 for generating gravitational acceleration and the upper end housing 508; A filter membrane 503 for friction generation provided inside the lower end housing 510; Right and left vibration vibrators 505 and 506 provided on left and right sides of the lower end housing 510; And a fluid material molecule inlet pipe (716) provided at one side of the upper end enclosure (508) for injecting blood, water and liquid into the fluid material separator (5000)
The fluid material molecule separator 5000 includes a gas injection pump 917 provided at one side of the lower end enclosure 510 for injecting a gas such as nitrogen or oxygen; And an air diffuser 918 provided at a lower end of the gas injection pump 917. The gas injection pump 917 introduces nitrogen or oxygen or hydrogen into the fluid material molecular sieve separator 5000, Preventing the blood from solidifying,
The fluidic substance molecular sieve separator 5000 operates the left and right vibrating vibrators 505 and 506 and the up and down vibrating vibrator 707 to move the blood molecules The fluid material molecules having a specific gravity and the fluid material molecules having a high specific gravity are separated from each other and the fluid material molecules are separated from the fluid material separator 5000 using a gas injection pump 917 Nitrogen or oxygen is continuously injected into the fluid material separator 5000 to prevent coagulation of the blood flowing into the fluid material separator 5000 and prevent the blood from being corrupted, Thereby generating a function of separating the substance molecules and the fluidic substance molecules having a large specific gravity, and at the same time, by using the filter film 503 for friction generation, The fluid material molecules injected into the separator 5000 are struck to prevent the blood flowing into the fluid material separator 5000 from being coagulated,
The specific gravity that moves to the lower end of the fluid material separator 5000 due to the action of the gravity acceleration action and the gravity action and the difference in specific gravity and mass to the total amount of the fluid material molecules flowing into the fluid material separator 5000 The fluidic substance molecules 70WT% to 99.99WT% such as heavy blood are discharged from the fluid material separator 5000 by controlling the discharge amount combined with the low-layer water withdrawal port 936 and the ascending phonon suction pipe 930, The valve 931 is adjusted and discharged to re-transfuse or recycle the human body,
Fluid material molecular separator.
Water, water, liquid, water, liquid, etc. By using the rotary striking device, the air blowing striking device, and the vibration striking device, it is possible to produce a clean substance having a heavy weight, A fluid material molecular separator which is separated and processed in a friendly manner,
Wherein the fluidic material molecular separator is configured as an enclosure to exert a gravity action and a gravity acceleration action,
The fluidic material molecular branch 6000 includes four rotating wheels 703 disposed at the lower end thereof; A removable blood processor 6002 formed in an enclosed form and provided therein; Left and right vibration vibrators (505, 506) disposed on the left and right sides of the fluid material separator (6000); A fluid material molecule inflow pipe 716 provided at one side of the upper side to inject blood, water and liquid into the fluid material molecule separator 6000; A blood supply device coupled to the fluid material inlet pipe 716 for supplying blood and the like collected from a human body; A control valve 916 coupled to the middle of the fluid material inlet pipe 716 to control the inflow amount; A gas injection pump 917 provided at one side of the lower part for injecting a gas such as nitrogen or oxygen; A low-layer water intake port 936 provided at the lower end of the lower portion of the fluid material separator 6000 for discharging fluid substances having a high specific gravity collected at the lower end of the fluid material separator 6000 to the outside of the fluid material separator 6000, A pipe 930; A discharge amount control valve 931 coupled to one side of the ascending cyphon suction pipe 930 to adjust the discharge amount; A surplus material molecule discharge pipe 927 for discharging fluidic substance molecules having specific gravity to the upper portion of the other side to the outside; And a detachable blood processing machine 6002 in which a filtration hole 831 for generating gravitational acceleration is formed in an hourglass manner,
In the detachable blood processing apparatus 6002, a fluid material molecule having a specific gravity and a fluid material molecule having a specific gravity, which are combined with the blood flowing into the inside of the detachable blood processing apparatus 6002, A filtration membrane 503 is constituted,
The fluidic substance molecule separator 6000 operates the left and right direction vibrating vibrators 505 and 506 and the up and down direction vibrating vibrator 707 so that the fluid molecules A vibrating unit for vibrating the fluid material molecules having a specific gravity and the fluid material molecules having a large specific gravity combined with the fluid material molecules to separate them, and at the same time, introducing nitrogen or water into the detachable blood processing unit 6002 using the gas injection pump 917 Oxygen is continuously injected to prevent the blood from flowing into the detachable blood processor 6002, thereby preventing the blood from being corrupted, and at the same time, Causing the action of separating the material molecules,
The gravity acceleration action and gravity acting on the total amount of fluidic substance molecules flowing into the detachable blood processor 6002 and the difference of the specific gravity and the mass due to the action of the gravity acceleration and the mass of the fluid substance molecules flowing into the detachable blood processor 6002 The fluidic substance molecules 70WT% to 99.99WT% control the discharge volume control valve 931 coupled to the low-layer water intake port 936 and the rising-phonon suction pipe 930, which are formed at the lower end of one side of the detachable blood processor 6002 To be re-transfused or recycled to the human body,
Fluid material molecular separator.
Water, water, liquid, water, liquid, etc. By using the rotary striking device, the air blowing striking device, and the vibration striking device, it is possible to produce a clean substance having a heavy weight, A fluid material molecular separator which is separated and processed in a friendly manner,
Wherein the fluidic material molecular separator is configured as an enclosure to exert a gravity action and a gravity acceleration action,
The fluidic material molecular separator 8500 can be used,
A friction material 856 serving as a filter for exerting a filtering function while actively exerting a material friction action, a material crash action and a material explosion action inside the tubular body; A friction preventive roller 851 for preventing the generation of frictional heat generated when the fluid material molecule separator 8500 is operated in the up and down directions on the front, rear, left and right sides; A rotating shaft connection port 855 for moving the fluidic substance molecular sieve separator 8500 upward and downward from above the fluidic substance molecular sieve separator 8500; A rotating body 852 such as a motor provided on the other side of the guide housing 857; A rotation bar 853 provided at one side of the rotating body 852 and having a central U-shape and a U-shape at the other side; A rotation rod 853 connected to the rotation shaft connection port 855 and configured in a U shape; A fluid material inflow pipe 716 provided at one side of the upper side to inject water and liquid into the fluid material separator 8500; And a control valve (916) provided in the middle of the fluid material inlet pipe (716) for controlling the inflow amount,
The fluid material separator 8500 is connected to the lower end of the fluid material separator 8500 to discharge fluid material molecules having a high specific gravity to the outside of the fluid material separator 8500 936 is coupled to the ascending suction pipe 930 and a discharge control valve 931 for controlling the discharge amount is coupled to one side of the ascending suction pipe 930 and the fluid material separator 8500 , A surplus material molecule discharge pipe 927 for discharging fluid substance molecules having a light specific gravity to the outside is connected to the upper part of the other side,
The fluidic material molecule separator 8500 continuously introduces the fluidic substance molecules into the fluidic material molecular separator 8500 through the fluidic material molecule inlet pipe 716 while the fluidic material molecule separator 8500 The fluidic substance molecular separator 8500 is operated upward and downward by using the rotating body 852 formed on the upper portion of the fluidic substance molecular separator 8500 so that the filter- A material friction action and a material explosion action which are generated when the fluid material molecules collide with each other and a fluid material which flows into the fluid material molecule separator 8500 by using the gas injection pump 917 The particles are struck to separate the light pollutant molecules and the heavy specific molecules, which are bonded to the fluidic substance molecules,
Fluid material with a light weight of a specific gravity and a fluidic material with a high specific gravity is a material having a mass and a specific gravity similar to each other due to a gravitational acceleration action, a gravity acceleration action, a specific gravity and a mass difference, Due to the action of gravitational acceleration and gravity and the difference in specific gravity and mass compared to the total amount of fluidic matter molecules flowing into the fluidic material molecular separator (8500) when processing such that the molecules are naturally separated into upper and lower layers and moved, Fluid material molecules 70WT% ~ 99.99WT% such as blood having a high specific gravity moving to the lower end of the fluid material separator 8500 are separated from the low layer water withdrawal port 936 formed at the lower end of one side of the fluid material separator 8500, And the discharge amount control valve 931 coupled to the ascending cyphon suction pipe 930 to control the discharge of the fluid material separator 8500 Release to reuse or recycle,
Fluid material molecular separator.
Water, water, liquid, water, liquid, etc. By using the rotary striking device, the air blowing striking device, and the vibration striking device, it is possible to produce a clean substance having a heavy weight, A fluid material molecular separator which is separated and processed in a friendly manner,
Wherein the fluidic material molecular separator is configured as an enclosure to exert a gravity action and a gravity acceleration action,
The fluidic material molecular separator 5800,
A fixing table 580; Rotating means 581, such as a motor, coupled to the fixed table 580; A rotary striking rod 582 cross-coupled in a diagonal direction to a rotating shaft constituted by the rotating means 581; A vibrating vibrator 583 coupled to the fixed table 580; A fluid material inflow pipe 716 provided at one side of the upper side to inject water and liquid into the fluid material separator 5800; A control valve 916 provided in the middle of the fluid material inlet pipe 716 to control the inflow amount; A lower layer water inlet 936 provided at the lower end of the lower portion of the fluid material separator 5800 for discharging the fluid substance molecules having a high specific gravity collected at the lower end of the fluid material separator 5800 to the outside of the fluid material separator 5800, A pipe 930; A discharge amount control valve 931 provided at one side of the ascending cyphon suction pipe 930 to adjust the discharge amount; A surplus material molecule discharge pipe (927) provided on the other side of the fluid material separator (5800) for discharging fluid material molecules having a light specific gravity to the outside; A gas injection pump 917 for injecting a gas such as air through the lower end of the fluid material separator 5800; The fluid material separator (5800) includes an air diffusion port (918) for ejecting a gas such as air,
The fluidic material molecular separator 5800 continuously inflows fluidic substance molecules into the fluidic material molecule separator 5800 through the fluidic material inflow pipe 716 formed at the upper part, The pump 917 is used to inject fresh air or contaminated air into the fluid material molecule separator 5800 while rotating inside the fluid material molecule separator 5800 in rotation By using the striking rod 582 to strike fluidic molecules and gaseous material molecules while using the vibrating vibrator 583 coupled with the fixed base 580, The molecules are struck so that the pollutant molecules with a specific gravity bound to the fluidic substance molecules and the clean substance molecules with a heavy specific weight are separated, and at the same time, Fluid materials with heavy masses and heavy gravity molecules have gravity action and gravitational acceleration action, due to difference of specific gravity and mass, material collision action and material friction action and material explosion action have similar mass and specific gravity material molecules are naturally upper and lower layer So as to be moved,
The specific gravity that moves to the lower end of the fluid material separator 5800 due to the action of gravity acceleration and the action of gravity and the difference between the specific gravity and the mass, relative to the total amount of 100WT% of the fluid material molecules flowing into the fluid material separator 5800 The heavy fluid material molecules 70WT% to 99.99WT% are connected to the low-level water withdrawal port 936 formed at the lower end of one side of the fluid material separator 5800 and the discharge regulating valve 931 ) Is discharged to the outside of the fluid material separator (5800) to be reused or recycled,
Fluid material molecular separator.
Water, water, liquid, water, liquid, etc. By using the rotary striking device, the air blowing striking device, and the vibration striking device, it is possible to produce a clean substance having a heavy weight, A fluid material molecular separator which is separated and processed in a friendly manner,
Wherein the fluidic material molecular separator is configured as an enclosure to exert a gravity action and a gravity acceleration action,
Fluid material molecule separator 5800 includes a fixed table 580; Rotating means 581, such as a motor, coupled to the fixed table 580; A rotary striking rod 582 cross-coupled in a diagonal direction to a rotating shaft constituted by the rotating means 581; A vibrating vibrator 583 coupled to the fixed table 580; A fluid material inflow pipe 716 provided at one side of the upper side to inject water and liquid into the fluid material separator 5800; A control valve 916 provided in the middle of the fluid material inlet pipe 716 to control the inflow amount; A lower layer water inlet 936 provided at the lower end of the lower portion of the fluid material separator 5800 for discharging the fluid substance molecules having a high specific gravity collected at the lower end of the fluid material separator 5800 to the outside of the fluid material separator 5800, A pipe 930; A discharge amount control valve 931 provided at one side of the ascending cyphon suction pipe 930 to adjust the discharge amount; A surplus material molecule discharge pipe (927) provided on the other side of the fluid material separator (5800) for discharging fluid material molecules having a light specific gravity to the outside; A gas injection pump 917 for injecting a gas such as air through the lower end of the fluid material separator 5800; The fluid material separator (5800) includes an air diffusion port (918) for ejecting a gas such as air,
The fluidic material molecular separator 5800 continuously inflows fluidic substance molecules into the fluidic material molecule separator 5800 through the fluidic material inflow pipe 716 formed at the upper part, The pump 917 is used to inject fresh air or contaminated air into the fluid material molecule separator 5800 while rotating inside the fluid material molecule separator 5800 in rotation By using the striking rod 582 to strike fluidic molecules and gaseous material molecules while using the vibrating vibrator 583 coupled with the fixed base 580, The molecules are struck so that the pollutant molecules with a specific gravity bound to the fluidic substance molecules and the clean substance molecules with a heavy specific weight are separated, and at the same time, And heavy specific gravity Fluid material molecules due to gravity action and gravity Acceleration action due to difference in specific gravity and mass Material collision action and material Friction action and material Explosion action similar mass and specific gravity material Molecules naturally upper and lower layers Processed so as to be moved while being separated,
The specific gravity that moves to the lower end of the fluid material separator 5800 due to the action of gravity acceleration and the action of gravity and the difference between the specific gravity and the mass, relative to the total amount of 100WT% of the fluid material molecules flowing into the fluid material separator 5800 The heavy fluid material molecules 70WT% to 99.99WT% are connected to the low-level water withdrawal port 936 formed at the lower end of one side of the fluid material separator 5800 and the discharge regulating valve 931 ) Is discharged to the outside of the fluid material separator (5800) to be reused or recycled,
Fluid material molecular separator.
Water, water, liquid, water, liquid, etc. By using the rotary striking device, the air blowing striking device, and the vibration striking device, it is possible to produce a clean substance having a heavy weight, A fluid material molecular separator which is separated and processed in a friendly manner,
Wherein the fluidic material molecular separator is configured as an enclosure to exert a gravity action and a gravity acceleration action,
The fluidic material molecular separator 5900,
A support frame 596 formed in a U-shape in combination with a rotary shaft 596 constituted across one side and the other side; four rotation wheels 703 formed at a lower end of the support frame 596; An upper and a lower vibration vibrator 707 provided at the center of the lower end of the rotating shaft 596, a tubular tool 591 provided on the rotating shaft 596 for passing gas or fluid material molecules, A fluid inlet 592 for introducing fluid molecules such as water or seawater, a gas inlet 593 provided at the other side for introducing fresh air or contaminated gas, A rotating striking rod 590 in a recirculated form, a driven pulley 592 provided on the other side of the rotating shaft 596,
The fluid material separator 5900 is connected to the fluid material separator 5900 at a lower end of the fluid material separator 5900. The fluid material separator 5900 is connected to the fluid material separator 5900, 936 and an elevated siphon suction pipe 930 associated with the low-layer water withdrawal port 936,
The fluidic substance molecule separator 5900 is connected to the fluidic substance separator 5900 through the fluid inlet 592 formed on the side surface of the fluidic substance molecular separator 5900, Fresh air or contaminated gas is continuously introduced through the gas inlet 593 formed in the fluid material separator 5900 and the rotating means 595 constituted on the other side of the fluid material molecule separator 5900 is used, The fluidized matter separator (5900) continuously blows contaminating fluidic and gaseous material molecules flowing into the fluidic material molecular separator (5900) by using the rotary striking rod (590) 5900), the fluidic substance molecular separator 5900 is introduced into the fluidic substance molecular separator 5900 using the vibration vibrator 707, Fluid material molecules with light specific gravity and fluid material molecules with heavy specific gravity are continuously impacted by vaginal and gaseous material molecules. Due to gravity action, gravity acceleration action, difference in specific gravity and mass, And material substances whose mass and specific gravity are similar to each other due to the explosion of the material are processed so as to move while being separated into upper and lower layers naturally,
The specific gravity which moves to the lower end of the fluid material separator 5900 due to the action of the gravity acceleration action and gravity and the difference between the specific gravity and the mass of the fluid material molecules flowing into the fluid material separator 5900 is 100WT% The fluidic substance molecules 70WT% to 99.99WT% such as heavy blood are discharged from the fluid material separator 5900 by adjusting the discharge amount combined with the low-layer water withdrawal port 936 formed at one side of the fluid material separator 5900 and the ascending phonon suction pipe 930 The valve 931 is adjusted and discharged to the outside of the fluid material molecule separator 5900 to be reused or recycled,
Fluid material molecular separator.
21. The method according to any one of claims 1 to 20,
Characterized in that gaseous substance molecules made by processing the temperature of the gaseous substance molecules flowing into the fluid material molecule separator to a temperature as low as about 0 to about 30 degrees are introduced and processed to perform gravity acceleration action and gravity action Which separates light material molecules and heavier fluid material molecules that are combined with fluid material molecules using material friction action and material explosion action,
Fluid Material Molecular Separator
21. The method according to any one of claims 1 to 20,
The fluidic substance molecular separator is constituted by a nonferrous metal in which no magnetic force is generated when the fluidic substance molecular separator used for processing the fluidic substance molecule or the gaseous substance molecule is formed, Blood is collected and reworked to be clean blood and re-transfused into the human body. At the same time, it is combined with the fluid material molecules by using gravity action, gravity acceleration action, material friction action and material explosion action Which separates the light material molecules and the heavier fluid material molecules,
Fluid material molecular separator.
21. The method according to any one of claims 1 to 20,
A magnetic rod 530 and a + magnet rod 531 are provided in the fluidic substance molecular separator when the fluidic material separator is used to process the fluidic substance or the gaseous substance, A blood material characterized by the fluidic substance molecule separator which processes the fluid substance molecules or the gaseous substance molecules, and then re-processes the blood to prepare clean blood, which is then re-transfused into the human body, Action and Material By using friction action and material explosion action, it is possible to separate light material molecules and heavier fluid substances that are combined with fluid material molecules,
Fluid material molecular separator.
21. The method according to any one of claims 1 to 20,
The rotating direction of the rotary hitting means constituted in the fluid material molecule separator is constituted in the forward direction and the rotational direction of the secondary hitting means is rotated in the reverse direction, The rotating hitting means constituted so as to rotate in the forward direction and to be rotated in the reverse direction in the rotating direction of the rotating means of the fourth order, the rotating direction of the fifth rotating means is configured to rotate in the forward direction, And is configured to rotate in the forward direction in the rotating direction of the seventh-order rotating means, and to rotate in the reverse direction in the rotating direction of the eighth-order rotating means, and to rotate in the forward direction in the rotating direction of the ninth- In the rotating direction of the rotating means, Adapted to be rotated in the direction,
Fluid material molecular separator.
In the material molecule separator 30000, a moving means 991 constituted by rubber tires or the like is formed on one side and the other side of the base rest 992;
On the upper part of the moving means 991, the material molecule separator 30000 is configured in an upright form;
At the upper end of the base rest 992, a vibrator 990 is configured to exert an action to shake fluidic substance molecules flowing into the interior of the material molecule separator 30000;
An air injection striking device 1102 for blowing air is connected to an air pipe 1008 coupled to the air generating device 1007 at one side of the lower end of the material molecule separator 30000;
A pipe 9930 is formed in a diagonal shape using a circular pipe or a square pipe inside the other side of the lower end of the material molecule separator 30000;
The upper portion of the cyphone generating pipe 9930 is connected to the upper end of the cyphon generating pipe 9930 by using a low-level water discharge pipe 9931 formed in an L-shaped form, A structure of a low-level water discharge system in which a discharge amount control valve 9932 is coupled to one end of a pipe 9931;
A plurality of rotation striking devices 2001 for striking molecules of a fluid material or gaseous substances introduced into the material molecule separator 30000 are formed in the middle of the material molecule separator 30000;
The driving pulley 6102 constituting the driven pulley 2102 and the rotating motor 6102 constituting the upper end or the one side of the material molecular sieve separator 30000 and the rotating pulley Along with;
A filtration membrane (9820) for filtering fluid molecules entering the material molecule separator (30000) is coupled to the filtration membrane support (9821) on one side of the upper end of the material molecule separator (30000);
A structure in which an inlet 1300 for introducing fluid material molecules into the material molecule separator 30000 is connected to the inlet control valve 1301 at an upper portion of the material molecule separator 30000;
A contaminant molecule outlet port 1112 for discharging fluidic substance molecules having a specific gravity to the other end of the upper part of the material molecule separator 30000 is combined with a control valve 1113;
The lower end discharge port (101) for discharging heavy fluid molecules is connected to the lower end discharge control valve (102) at the lower end of the material molecule separator (30000).
Fluid material molecules constituting polluted rainwater, contaminated river water or seawater or milk or alcohol, beverage or general fresh water through the inlet 1300 constituted as described above are introduced into the first fluid material molecule treatment plant 3700 The rotary striking device 2001, the air generating device 1007 and the vibrator 990 constituting the first fluid material molecule treatment plant 3700 are operated to remove contaminated rainwater and polluted river water or seawater or milk, It has been found that striking fluidic material molecules composed of alcohol, beverage, or general fresh water and striking lightweight substance molecules and heavy substance molecules combined with these fluidic substance molecules, contaminated rainwater, contaminated river water or seawater Or milk or a liquid substance molecule constituting a drink or a drink or general fresh water is heavy With the clean material by the molecular weight and separating light contaminants molecule enforcing the function of injury to the upper end of said first fluid material molecule Plant (3700) continuously;
In this process, the discharge amount control valve 9932, which is formed at one end of the low-level water discharge pipe 9931 coupled with the pipe 9930, is adjusted to the lower end of the material molecule separator 30000 The low-level water discharged at the lower end of the material molecular separator 30000 is discharged at a rate of about 95 Wt% to 99.9 Wt% relative to 100 Wt% of the inflow amount of the fluent material molecules constituting the moving rainwater or the river water or the sea water or the milk or the alcoholic beverage or the general fresh water. The liquid molecular material molecules 0.1Wt% to 5WT%, which have a specific gravity of low specific gravity floating to the upper end of the material molecule separator 30000 due to the difference in specific gravity and the action of gravity when externally discharged through the pipe 9931, The material molecule separator 30000 configured to discharge the pollutant to the pollutant outlet 1112 formed at the upper end of the pollutant outlet 1112, Rainwater and contaminated river water or seawater or milk, or liquid or liquid foods such as drinks or beverages, blood, vinegar and grains, or general liquids, A material molecular separator 3000, which is used to reuse the collected material molecules or mix them with another material for energy or to process or purify the clean fluid material molecules, Friendly material that separates and processes clean fluid material molecules and lightweight liquid material molecules into environmentally friendly separation processes.
48 and 49, a substance molecular separator which separates light substance molecules having relatively high specific gravity and fluid substance molecules having heavy specific gravity, which are combined with gaseous substance molecules and fluid substance molecules, 50 and Fig. 51, a material molecule separator for separating light material molecules having a specific gravity and heavy material molecules, which are bonded to the gaseous material molecules and the fluid material molecules,
52 and Fig. 53 are used to separate light material molecules having a specific gravity and heavy material molecules, which are bonded to gaseous material molecules and fluid material molecules,
A structure of a material molecule separation cylinder 370 coupled with an air pump 917 and a plurality of rotary impact shafts 350 coupled with a rotary motor (not shown);
A structure of a discharge amount control valve 931 coupled with a low water discharge pipe 931 coupled with a pipe 930 for generating a ciphone constituting one side of the material molecule separation cylinder 370;
A structure of a filtration pipe 380 for laminating a filtration membrane 360 and a filtration membrane 362 for filtering gaseous molecules or molecules of fluid substances on the upper part of the material molecule separation vessel 370;
A structure of a support table 361 for supporting the filter plate 360 in a layered structure;
A structure of the flow port 363 formed in the filtration plate 360 in an unspecified form;
The structure of the fluid material inflow pipe 716 constituting one side of the upper portion of the filtration pipe 380;
A control valve 916 provided in the middle of the fluid material inlet pipe 716 to control the inflow amount;
The structure of the surplus material molecular discharge pipe 927 formed on the other side of the upper part of the filtration pipe 380;
A plurality of rotation striking shafts 350 formed in the interior of the material molecule separating cylinder 370 are rotated while injecting fluid molecules or fresh water or seawater contaminated into the inside of the filtration pipe 380, The fluid material molecules or gaseous material molecules flowing into the separating cylinder 370 are simultaneously blown and the air pump 917 coupled with the material molecule separating cylinder 370 is operated to move the inside of the material molecule separating cylinder 370 Pressure air is injected into the filtration pipe 380 and the material molecule separator 370 to blow fluent material molecules and gaseous material molecules, And clean specific materials with a high specific gravity are separated so as to separate them, and at the same time, a fluid material molecule having a light specific gravity and a fluid material molecule having a high specific gravity are subjected to gravity action, gravity acceleration action, As the mass and specific gravity by the material impact action and friction action substance and substance exploding action due to the difference between a natural separation similar material molecules in the upper part and lower part, and processed such that the movement,
The specific gravity moving to the lower end of the fluid material separator 50000 due to the action of the gravity acceleration action and the action of the gravity and the difference between the specific gravity and the mass of the fluid material molecules flowing into the fluid material separator 50000 The heavy fluid material molecules 70WT% to 99.99WT% are connected to the low-level water withdrawal port 936 formed at the lower end of one side of the fluid material separator 50000 and the discharge regulating valve 931 ) Is discharged to the outside of the fluid material separator (5000) to be reused or recycled, while the rest of the fluid material molecules having a small specific gravity of 0.01WT% to 30WT% are transferred to the fluid material separator (50000) And discharged through a surplus material molecular discharge pipe (927) formed at the upper part to be reused or reprocessed.

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