KR100835400B1 - Method to purify polluted water naturally or refine seawater using partitions - Google Patents

Abstract

The present invention relates to a method of naturally purifying contaminated water or purifying seawater by using a purifying tank configured to pass water through an inclined cascade to remove various foreign substances contained in the water and to discharge only clean water.

In the present invention, water is continuously supplied to the water supply tank, and the water is sequentially discharged through the outlet formed in the lower portion of each partition simply by discharging the water continuously. The floating action can occur naturally to purify the water quality, and the purified water can be finally discharged. In addition, the pollutants can float to the upper part of each space to be discharged, spontaneously decomposed or filtered. Natural water quality can be filtered by filtering.

That is, the present invention improves the water quality by the material acceleration action, material scavenging phenomenon, material release action, material floating action in the process of water exiting through the outlet located at the bottom of each partition without using a separate biochemical method And the principle that the pollutants with a relatively low specific gravity are deposited in the upper part of each space by gravity, and the pure water with a relatively high specific gravity is deposited in the lower part of each space. In addition, it is possible to discharge only clean water in a state where contaminants are completely purified, so that water such as rivers, rivers, and reservoirs can be quickly purified and supplied to household water, and additional biochemical treatment is not required. It can be shortened, as well as the advantage that the processing cost does not at all.

Water, Purification, Canister, Partition, Throttle

Description

Method to purify polluted water naturally or refined seawater using partitions}

The present invention relates to a method for naturally purifying contaminated water or purifying seawater by using partitions, and more particularly, by passing contaminated water or salt water between the bottoms of partitions and being included in water under the influence of specific gravity and gravity. Various foreign matters, purify or purify by removing various foreign substances contained in the brine.

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

Therefore, since several methods have been proposed to purify the stored water, the conventional water purification methods include gravel contact oxidation method, reverse contact oxidation method, sewage treatment plant water purification method, chlorine input purification method, etc. Compared to the cost, the effect was negligible.

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

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

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

"Material Acceleration" and "Material Scavenging" and "Law of Material Preservation Instinct" and "Material Aggregation" and "Material Coupling" and "Material Rejection" in which contaminated water quality contained in river water is naturally purified or deteriorated. Effect ”and“ material release ”.

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

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

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

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

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

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

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

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

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

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

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

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

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

Substances that undergo various kinds of chemical reactions are naturally introduced into the water. These unknown substances meet with another substance, and when the unique chemical component of the substance and the unknown chemical component meet, As it explodes, it creates a substance like fine air bubbles, which floats on the surface of the water. That is, the fine droplets continuously occur in the beer glass because the fine particles and the fine particles contained in the beer are exploded to meet and continue to generate droplets.

Subsequent mass explosions occur in water, which are produced continuously by the tiny droplets due to the explosive mass of materials that meet and explode. When these explosions occur, another substance is formed by the combination of air bubbles and other fine particles contained in the water, and the generated fine particles have a specific gravity that is heavier than the molecular structure of the water. As it precipitates in the bottom layer of the water, it will increase the pollution of the water.

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

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

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

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

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

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

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

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

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

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

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

The present invention by applying the principle of water purification as described above to let the contaminants contained in the water in the process of passing the water to the lower portion of the partition, and to remove only the clean water and at the same time the contaminants are separated from the water To provide a method of purifying contaminated water naturally or by using partitions to purify contaminated water by disintegrating into ultra-small sized microparticles and extinguishing themselves, or by removing and removing salt impurities. will be.

In order to solve this problem, the present invention is provided with one or more partitions in a constant storage space, such as an artificial septic tank, a fish tank, a lake, a river reservoir, a pond, fish farm, and a bath, but forms an outlet at the bottom of the partition and purifies Alternatively, the water requiring purification passes through the outlet located at the bottom of the partition, so that the pollutants are separated from the water molecules due to the influence of gravity and specific gravity, so that they can be deposited in the upper layer of water and only the clean water is discharged to the bottom. Natural purification or purification of contaminated water or salt.

When water is confined in a certain space, the contamination of the water is increased by the material cutting action and the material binding action. The principle of the increase of pollution is due to the following actions.

There are tens of thousands of substances in the water, which can be divided into inorganic particulates and organic particulates. The fine particles are decomposed by the friction action that comes into contact with the fine particles contained in the water and produce other fine particles. The fine particles produced in this process are not able to combine with other inorganic and organic material fine particles. As it occurs, it is transformed into particulates that are heavier than the weight of water, and sinks to the bottom of the stream. This action adds to the contamination of the water, and this action is a material binding action. It is

In addition, even if there is no oxygen contained in the water, the friction between the fine particles contained in the water occurs, the material contained in the water is naturally decomposed, the action is the material friction action.

By this material friction action, the fine particles contained in the water are decomposed even more finely.

The material that is decomposed by the mass decomposition action is settled inside the top discharge water storage device as it becomes a substance that is heavier than the specific gravity of the water as the material aggregation action that materially combines with other particles contained in the water. .

In addition, the principle that water confined by the material scraping action is further contaminated will be described.

When water is confined in a certain space, the specific gravity of water confined rather than the specific gravity of water changes to a heavy state due to the material binding action that the inorganic and organic fine particles contained in the water bind to each other. When light new water flows out, the existing gravity is not penetrating into the inside of heavy water, but the surface of the water passes through the surface of the water. .

In other words, the water trapped inside the reservoir or water purifier remains stagnant but the newly introduced water flows quickly through the top of the reservoir, as it flows through the top of the stagnant reservoir because of the high flow rate. This prevents them from mixing with the reservoirs.

This action is the material cutting action.

In other words, when the water is confined using concrete submerged beams, the upper discharge gate and the upper discharge rubber dams, the material that is not mixed with the water flowing from the upstream and stored water is left out first. The sedimentation sludges generated by the material friction action that collides with the fine particles contained in the stored water, and the material binding action that aggregates or combines the decomposed materials again and again, is accumulated inside the storage device. At the same time, ① natural decomposition by dissolved oxygen contained in water ② decomposition by microorganisms ③ physical degradation caused by fine particles and particulates crushing and ④ natural decomposition by solar heat ⑤ Decomposition of matter which is decomposed by frictional force of aquifer The sedimentation sludge naturally decomposes due to the decomposition of the material by the osmotic pressure and the decomposition of the material by the pressure of gravity, and the decomposition of the material by the capillary phenomenon. At the same time, it is the same principle that water contamination is further aggravated by generating another fine particles continuously by mass friction action, material decomposition action, material binding action and material aggregation action.

In addition, the bottom water discharge device is installed in a part of the rubber dam to discharge a part of the river water, or a siphon passage is installed in the part of the conductive water gate to discharge the inflow water from the upstream of the stream. When the water is confined using the water storage device of the contaminated water, the contaminated water confined in the water storage device is more active in the condensation water by mass cutting action. As it is done, more and more pollution is added.

In other words, waters that are heavy due to the heavy gravity of water, which are separated by light weights, are pushed out first, and the water is contaminated because the binding of water is more active. It is called. When the stone is thrown into the water, the principle of pushing out the water and sinking into the water is the material cutting action.

The following explains the principles by which polluted water naturally survives.

Water contains about 60,000 kinds of substances, and all the substances in them have their own mass, and the mass of herpes in the stored water differs according to the mass.

That is, the layers occupy different materials, which is called laminar flow.

Even the same nitrogenous component and phosphorus component have different layers of herpes depending on the size at which the particles are decomposed.

In other words, it is because of the force of gravity that a substance with a specific gravity of 0.99999998 never penetrates into a substance with a specific gravity of 1 or a substance with a specific gravity of 0.99999999. This is the same principle that oil floats on water.

 This is because of Corio's force, or gravity.

In the same principle as the discharge of the stored water to the lower part of the sluice while the laminar flow is continuously maintained by the action of gravity, when it is discharged to the lower part of the partition, the particles of pollutants and water molecules having different specific gravity are different. The condensation and mass-binding action generated by the viscous force of the mass or binding of the substances do not occur, so that the pollution of the water is not increased.

In other words, if a partition is formed in the middle of the reservoir and the water is discharged to the upper part by supplying fresh water while the reservoir is filled with water, the molecules of water and the fine particles of the contaminants are aggregated. Water condensation is aggravated by the agglomeration and binding of substances, but if the water is discharged to the lower part of the partition as much as the fresh water is supplied, the contaminants of the water are not added and the fine particles contained in the water Particles are naturally decomposed by ① dissolved oxygen in water, ② decomposed by microorganisms, ③ decomposed by the friction of matter caused by fine particles and particles, and ④ decomposed by solar heat. 5) Decomposition of matters and 5) Decomposition of substances which are decomposed by frictional force of aquifer ⑥ decomposes by the osmotic action, ⑦ decomposes by the pressure of gravity, and ⑧ decomposes by the capillary phenomenon. The fine particles are transported to the upper part of the water stored by the action of gravity, and are further decomposed more and more by the eight natural purification actions such as above, and have very clean water contained in the river water. When the action of the "law of conservation of substances" occurs naturally at the same time, the contaminated water, which is combined with or trapped inside the water molecules, is separated from the water molecules and moved to the upper part of the reservoir. Decomposed and contaminated with contaminated particulates Very clean pure water, freed of contaminated particulates, is a naturally occurring process of natural circulation that can be discharged to the outside of the reservoir, whereby the contaminated water is naturally purified.

The present invention aims to provide a method for naturally purifying or purifying polluted water by using the principle of natural water purification.

In the present invention, water is continuously supplied to the water supply tank, and the water is sequentially discharged through the outlet formed in the lower portion of each partition simply by discharging the water continuously. Not only can the action occur naturally to purify the water quality, but also that the purified water can be finally discharged, with the contaminants suspended in the upper layers of each space to allow it to be released, spontaneously decomposed, or Natural water quality can be filtered by filtering.

That is, the present invention improves the water quality by the material acceleration action, material scavenging phenomenon, material release action, material floating action in the process of water exiting through the outlet located at the bottom of each partition without using a separate biochemical method And the principle that the pollutants with a relatively low specific gravity are deposited in the upper part of each space by gravity, and the pure water with a relatively high specific gravity is deposited in the lower part of each space. In addition, it is possible to discharge only clean water in a state where contaminants are completely purified, so that water such as rivers, rivers, and reservoirs can be quickly purified and supplied to household water, and additional biochemical treatment is not required. It can be shortened, as well as the advantage that the processing cost does not at all.

Along with this, propellers are installed in each space to force aeration, and thus, water purification can be realized more actively through the purification of water itself and foreign matter floating by aeration. When the zigzag is formed in multiple stages, the increase in the volume of the purification process of the water can be made long without increasing the volume, thereby further improving the purification efficiency of the water.

Therefore, if this method is applied, no matter how contaminated the storage water can be, the polluted river water can be easily purified and supplied to household water at a low cost, and water can be installed by installing a septic tank in the middle path of the river or river or in the waterway. If it is passed through, it can make clean water without using chemicals such as chlorine and fluorine to purify the river water, reduce the occurrence of sedimentation sludge, and It prevents the source of green algae and prevents the algae from occurring at the source, and the contaminated river waters generated from the streams of the land flows into the sea to naturally block the red tide that occurs naturally through the process of combining materials It has a great effect.

In addition, the principle of water purification can be applied to a fishbowl to purify the water quality of a fish tank without a separate filter, so that it can be used for convenience, and the principle of water purification can be applied to a lake to purify the water quality of the water contained in the lake. Of course, the water in the lake can be prevented in advance.

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

[First Embodiment]

1 is a perspective view of a water purification device according to a first embodiment of the present invention, Figure 2 is a side cross-sectional view of a water purification device according to a first embodiment of the present invention, Figure 3 is a first embodiment of the present invention It is a perspective view of a catching net applied.

As shown, the water purifying apparatus according to the first embodiment of the present invention is provided with a purifying tank 10 inclined downwardly at the bottom, and the purifying tank 10 has partitions each having an outlet 21 formed at one lower side thereof. 20 is installed in multiple stages at equal intervals, the lowermost side of the clarification container 10 is formed with a drain 11, the control plate 30 for adjusting the opening degree of the drain 11 while moving up and down the front of the drain 11 Located in the upper portion of the control plate 11 is connected to the front end of the piston rod 42 of the operation cylinder 41 fixed to the clarification tank 10, the bottom of the drain 11 has a reservoir having a discharge pipe 61 ( 50 is positioned, the water supply pipe 62 is located on the upper side opposite the drain hole position of the clarification container 10, the space formed between the clarification container 10 and the partition 20 or between each partition 20 (hereinafter, Commonly referred to as a space), the strainer 30 is positioned to be removable each.

At this time, the strainer 70, the bottom portion 71 is made of a closed shape so as to contain the sludge settled to the outside, the remaining portion is composed of a mesh 72 so that water can pass through, the top Tow line 73 is made to be connected.

In addition, the guides 31 are respectively installed at both sides of the adjustment plate of the purification container 10 so that the adjustment plate 30 can be always moved up and down at a predetermined position.

Referring to the operation of the water purification device according to the first embodiment of the present invention configured as described above are as follows.

First, when water is supplied through the water supply pipe 62 in a state in which the drain hole 11 formed at the lowermost side of the septic tank 10 is completely closed through the adjusting plate 30, the water is filled from the space at the upper side of each space. Water is moved through the outlet 21 located at one side of the partition 20 to sequentially fill the space at the lower side.

When the water is filled in all the space through the water supply pipe (62) while continuously supplying water to shrink the operation cylinder 41 to raise the control plate 30, the drain hole 11 is opened to discharge the water, Since the specific gravity of contaminants contained is lighter than that of pure water, the gravity of the pollutants contained in the upper layer of each space is caused by gravity, so that water moves from each space to the adjacent space below through the outlet 21 formed in each partition 20. Only clean water escapes, and this process proceeds sequentially through each space, so that material acceleration, mass cutting, material desorption, and material flotation occur naturally in the process of water discharge. As it exits the state, pollutants can float to the upper part to purify the water. The water discharged through the drain hole 11 will be a very pure state.

The water drained through the drain 11 is collected in the reservoir 50 located below and discharged to the outside through the discharge pipe 61, the opening degree of the drain 11 is equal to the water supply and the drainage The clean water does not stagnate in the clarifier 10 so that the clean water can be continuously discharged in a state in which secondary pollution due to a mass aggregation action does not occur, and the opening of the drain 11 Although not shown, the water supply rate or the water supply speed may be measured through a sensor, and may be automatically operated by controlling the operation cylinder through a comprehensive control system according to the detection signal, and manually adjusted according to the water supply speed. The degree of opening can also be manipulated.

On the other hand, as the water moves between the spaces, foreign matters with large particles are caught by the catching network 70, and the sludge component that is fine enough to pass through the catching network 70 is not discharged from each space and is suspended. By contaminating the contaminants together by the sedimentation is generated in the downward direction, the sediment is collected in the closed bottom 71 of the hooking network 70, so if it is periodically pulled out to the outside through the tow line 73 to clean the foreign matter It is also very simple.

Therefore, the water supply pipe 62 according to the first embodiment of the present invention only by continuously supplying and discharging the water of rivers, rivers, reservoirs can be discharged only clean water in the process of passing through the water purifier (10) In particular, since the method according to the first embodiment of the present invention is to naturally purify while continuously supplying water and discharging it continuously by the amount of water supplied, the purification tank 10 is configured on a large scale, and the water supply is If a large amount is made, no matter how big the river, river, or reservoir water can be easily purified in a short time.

Second Embodiment

4 is a side cross-sectional view of a water purification device according to a second embodiment of the present invention.

As shown, the water purification apparatus according to the second embodiment of the present invention, all the technical configuration is the same as the first embodiment of the present invention, except that the propeller 80 in the space formed through each partition 20 There is a difference between each installation.

All the methods for purifying water using the water purifying apparatus according to the second embodiment of the present invention configured as described above are the same as those of the first embodiment of the present invention. 80), the vortex is forcibly formed by the vortex, and the aeration is caused by the vortex, and when the bubble is suspended by the aeration, the contaminated material contained in the water is separated from the water molecule and suspended in the upper layer together with the bubble. It can be purified more cleanly.

Of course, these propellers 80 may be installed in each space, or may be installed in several places, so the number of installation of such propellers 80 is not particularly limited.

In addition, the propeller 80 may be operated at the time of purifying water, may repeat the operation of stopping after operation only for a certain time, or may operate only at the operation of the operator. The movable pattern of 80 is also not particularly limited.

Third Embodiment

5 is a side cross-sectional view of a water purification apparatus according to a third embodiment of the present invention.

As shown, in the water purifying apparatus according to the third embodiment of the present invention, the inclined plates 12 of the multi-stage are fixed in a zigzag shape so as to be inclined downward in the purification tank 10 having a long length in the vertical direction, and each inclined plate 12 In the lower part, the partition 20 having the outlet 21 formed on each lower side is installed in multiple stages at equal intervals, and the water supply pipe 62 is positioned at the upper end of the septic tank 10, and the lower space of the septic tank 10 is It serves as a reservoir, and the discharge pipe 61 is connected to the lower sidewall of the purification tank 10 is configured to discharge the water to the outside.

In this case, although not shown in the drawings, the space formed through the partitions 20 may be provided with the same strainer 70 and propeller 80 as those applied to the first or second embodiment of the present invention, respectively. have.

In addition, each partition 20 includes two heating wires or heating tubes 22, each up and down, and connects electricity to heat the heating wires or heating tubes 22, or connects a solar panel to the outside of the purifier to transfer heat. And installed in the solar panel and the heating wire or the heat pipe 22 may be connected to the heat transfer, or the heat pipe may be connected to a heating device such as a boiler. In the drawings, only the heating wire or the heat pipe 22 is incorporated in each of the partitions 20, and the illustration of the apparatus for transferring or generating heat to the heat wire or heat pipe 22 is omitted.

When the water is supplied through the water supply pipe 62 in the state configured as described above, the water is gradually filled downward from the upper portion and gradually descends, and the swash plate 12 is formed in a zigzag shape in one purifying container 10 and is excited here. Since the multi-stage partitions 20 are installed at equal intervals, water flows zigzag along each of the inclined plates 12, and as in the first or second embodiment of the present invention, the contaminants float to the top of each space and are relatively As a result, the material acceleration, material scavenging, material releasing action, and material floating action occur naturally while the water flows down to another space adjacent to each other downwardly through the outlet 21 of each partition 20. As the water flows out into the purified state sequentially, contaminants can float to the upper part to naturally purify the water quality. The water discharged through the discharge pipe 61 is to be in a very pure state.

At this time, in accordance with the third embodiment of the present invention, compared to the first or second embodiment of the present invention, the movement path thereof is lengthened in proportion to the number of the inclined plates 12 while the inclined plate 12 is vertically up and down. Since it is arranged in a zigzag shape in the purifying container 10 of the long direction in the direction is that the water purification effect is further improved without taking up a large volume.

In addition, the lower part of the purification tank 10 itself serves as a reservoir, there is also an advantage that can be immediately discharged purified water without the need for a separate reservoir.

Although not shown in the third embodiment of the present invention, by installing the strainer 70 or propeller 80 in each space to filter the sludge precipitated, and forcibly forming a vortex to contaminate the air bubbles floating by aeration It is clear that the substance can be further separated from the water molecules and floated together with the bubbles, thereby further enhancing the water purification effect.

In addition, when heating the heating wires, which are built up in each of the two partitions 20, or supplying heat through the heating pipes, the water temperature near the heating wires or the heating pipes 22 becomes higher than that of other parts, so that the water has a water temperature difference. As a result of convection, contaminants break down finely and float to the upper part, thereby purifying water quality more efficiently. In this case, the reason why the heating wire or the heating tube 22 is installed in each partition 20 by two top and bottom is that the convection speed is too slow when only one heating wire or the heating tube 22 is provided so that the convection occurs at a higher speed. .

Of course, in the third embodiment of the present invention, since the number of heating wires or heat pipes 22 embedded in each partition 20 may be two or more, the number of the heating wires or the heating pipes 22 may be changed to be within the scope of the present invention. It is natural.

Fourth Embodiment

6 is a side cross-sectional view of a state in which the volume of each space of the water purification apparatus according to the fourth embodiment of the present invention is maximized, and FIG. 7 is a volume of each space of the water purification apparatus according to the fourth embodiment of the present invention. Side cross-sectional view of the state to be minimized.

As shown, the fourth embodiment of the present invention constitutes a water purifying apparatus according to the first to third embodiments of the present invention, wherein the lower end of each partition 20 is rotatable to the purifying container 10. Connecting to the hinge 25, the upper end of each partition 20 is connected to one operating rod 23, respectively, one end of the operating rod 23, such as a cylinder for advancing the operating rod 23 back and forth By connecting the forward and backward means 24 to change the volume of the space between each partition 20 in accordance with the forward and backward movement of the forward and backward means 24, each partition 20 in accordance with the change in the volume of space between the partition 20. Vortex is generated by changing the water level in the space between), and it is configured to purify contaminated water by using the principle of separating contaminants from water by these vortices.

At this time, the forward and backward means 24 applied to the fourth embodiment of the present invention can be configured in various ways, such as a cylinder, a crank, a screw, and the like, and the type is not particularly limited. The cylinder is shown as an example.

When the operating rod 23 is moved forward and backward through the forward and backward means 24 while supplying water through the water supply pipe 62 in the state configured as described above, each partition 20 of the partition 20 rotatably connected to the operating rod 23 is provided. At the same time as the upper end is moved back and forth as the operating rod 23 and rotates around the hinge 25 connection portion of the lower portion, the space between each partition 20 is changed according to the rotation of each partition 20, When the spacing between each partition 20 is changed, the volume of space between each partition 20 is changed to change the level of water to be filled therein, and the vortices are forcibly formed according to the change of the water level. When the bubble is aerated, when the bubbles are suspended, contaminated substances contained in the water are separated from the water molecules and float with the bubbles to the upper part to purify the water more cleanly.

The forward and backward means 24 may be operated at the time of purifying water, may repeat the operation of stopping after operation only for a certain time, or may be operated only at the operation of the operator. The movable pattern of the means 24 is also not particularly limited.

[Example 5]

8 is a side cross-sectional view of a state in which the volume of each space of the water purification apparatus according to the fifth embodiment of the present invention is maximized, and FIG. 9 is a volume of each space of the water purification apparatus according to the fifth embodiment of the present invention. Side cross-sectional view of the state to be minimized.

As shown, the fifth embodiment of the present invention constitutes a water purifying apparatus according to the first to third embodiments of the present invention, wherein each of the partitions 20 is located at a lower position of each partition of the purification tank 10. Each supporting jaw 14 is formed to have the same thickness as each other, and each partition 20 is positioned above the supporting jaw 14 at regular intervals so that a space therebetween forms an outlet, and each partition 20 The upper one side of the rotatable hinge (25 ') are connected to each, and the upper end of each partition 20 is connected to one operating rod (23'), respectively, one end of the operating rod (23 ') operating rod By connecting the forward and backward means 24 'such as a cylinder for advancing and revolving the 23', the space volume between the partitions 20 is changed according to the forward and backward motion of the forward and backward means 24 ', and each partition Vortex occurs by changing the water level in the space between each partition 20 according to the change of space volume between 20 To, and by this eddy current using the principle of separating the contaminants from water is to configured to purify contaminated water.

At this time, the forward and backward means 24 applied to the fifth embodiment of the present invention can be configured in various ways such as a cylinder, a crank, a screw, etc., and the type is not particularly limited. The application is shown by way of example.

In addition, between the supporting jaw 14 is provided with a strainer 70 having the same shape as that applied to the first or second embodiment of the present invention.

In this configuration, while the water is supplied through the water supply pipe 62 and the operating rod 23 'is moved back and forth through the forward and backward means 24', each partition (rotationally connected to the operating rod 23 '( The upper end of the 20 is moved forward and backward as the operating rod 23 'and at the same time rotates around the hinge 25' connecting portion, the interval between each partition 20 in accordance with the rotation of each partition 20. This is changed, and the space between each partition 20 is changed when the space between each partition 20 is changed to change the level of water to be filled therein, and the vortex is forcibly formed according to the change of the water level The aeration is made by the vortex, and when the bubbles are suspended by the aeration, contaminated substances contained in the water are separated from the water molecules and suspended together with the bubbles to the upper layer to purify the water more cleanly.

In addition, as described above, since each partition 20 is rotated around a hinge 25 'connecting portion located at an upper side of the partition 20, the water filled in the clarifier 10 during the rotation of the partition 20 is more vortexed. It can be formed large, and by this action it can cause aeration more actively to further improve the purification efficiency of water.

In addition, the support jaw 14 and the strainer 70 is always fixed at each partition bottom position of the purification vessel 10, so that the water is gradually filled downward from the water supply position, and the heavy sediment contained in the water strains the strainer ( 70) so that the purification of the water can be made better.

In addition, the forward and backward means 24 ′ applied to the fifth embodiment of the present invention may be operated at the time of purifying water as in the fourth embodiment of the present invention, and the operation of stopping after operation for only a certain amount of time may be performed. It may be repeated, or it may be made to operate only at the time of operator's operation, and this movable pattern of the forward-backward means 24 'is not specifically limited, either.

[Sixth Embodiment]

10 is a side sectional view of a water purification apparatus according to a sixth embodiment of the present invention.

As shown, the water purifying apparatus according to the sixth embodiment of the present invention constitutes a water purifying apparatus according to the first to third embodiments of the present invention, and guides are provided at each partition contacting portion of the purifying container 10. (13) are formed respectively, and each of the partitions 20 is inserted into the guides 13 so as to be able to move up and down so that the space between the lower end of the partition 20 and the bottom of the purification vessel 10 forms an outlet 21. In addition, by connecting the lifting means 26, such as a cylinder to the upper portion of each partition 20, the vortices are generated by the difference in the discharge speed of the water according to the size change of the outlet 21, and the pollutants by water Purifying contaminated water using the principle of separation from it.

At this time, the elevating means 26 applied to the sixth embodiment of the present invention can be configured in various ways, such as a cylinder, a crank, a screw, etc. It is not particularly limited to the kind, the elevating means 26 in the drawings The cylinder is shown as an example.

Reference numeral 27 in the drawing represents a support for supporting the elevating means 26.

In this configuration, while supplying the water through the water supply pipe 62, each partition 20 is moved up and down through the lifting means 26, the outlet width between each partition 20 and the bottom of the purification vessel 10 is respectively When the water flows to the other space adjacent to each other through the discharge port 21 having different widths, the discharge speed is changed to form a vortex while aeration is formed by these vortices, when the bubble is floating by aeration The contaminated material contained in the water is separated from the water molecules and floated together with the bubbles to the upper part to purify the water more cleanly.

The lifting means 26 may be operated at all times during the purification of water, may repeat the operation of stopping after operation only for a certain time, or may operate only at the operation of the operator. The movable pattern of the means 26 is also not particularly limited.

In addition, when the water purification apparatus according to each embodiment of the present invention is applied to a septic tank or a sewage treatment plant, a large amount of water can be quickly obtained by a natural treatment method according to the present invention without separate biochemical treatment. It can be cleaned up so that a breakthrough system can be built in terms of equipment costs and future maintenance costs.

[Seventh Embodiment]

11 is a top sectional front view of the water purification device according to the seventh embodiment of the present invention.

As shown, the seventh embodiment of the present invention connects the drain pipe 91 to the upper side of each space when applying the first to sixth embodiments of the present invention, the discharge portion of the drain pipe 91 The bypass channel 92 is connected to the lower portion, and the water supply portion of the water supply pipe 62 is immersed to at least one third of the space formed by the purification tank 10 and the partition 20.

At this time, it is obvious that the installation position of the drain pipe 91 should be a position corresponding to the highest point of each water level, and the drain pipe 91 is provided with a discharge valve to selectively discharge the upper water of each space, It should be connected to the side of the purifying container 10, respectively, so as not to interfere with the position of the water supply pipe 62.

In this way, the water is supplied to 1/3 of the space formed by the clarifier 10 and the partition 20, so that the water pushes out the existing water and further floats the contaminants to the upper layer, and the water drains the pipe 91. When the vehicle is filled up to the vicinity, the water in the upper layer is discharged through the drain pipe 91, and contaminants or floats that have been shrouded in the upper layer of the uppermost space are discharged together to remove the float without a separate device. Pollutants or suspended matter discharged through the can be disposed of by moving to the waste place through the bypass channel (92).

In addition, in the space other than the uppermost space, water is introduced into the lower portion through the outlet 21 of each partition 20, which also causes the existing water to be pushed further to float the pollutants to the upper portion. While filling up to a position higher than the drain pipe 91, the contaminants or suspended matter in the uppermost layer may be discharged and disposed through the drain pipe 91.

That is, if the water supplied through the water supply pipe 62 is 100% by weight, 5 to 10% of the water may be discharged together with the contaminant through the drain pipe 91 to be disposed of or used as odd water. % Of water can be finally purified and discharged with clean water.

In this case, in FIG. 11, only the uppermost side space is illustrated for convenience, and the other spaces are connected to the drain pipe 91 to the upper side of each space, and a bypass channel 92 is positioned below the drain pipe 91. It is self-evident.

In addition, a method of purifying contaminated water quality by using a method of dividing the strainer network into a plurality and a method of activating the Brownian movement of the fine particles by installing an air pump inside the partition constituted by the multiple, also belonging to the scope of the present invention It is natural.

[Eighth Embodiment]

12 is a side cross-sectional view of a water purification apparatus according to an eighth embodiment of the present invention, and FIG. 13 is a plan cross-sectional view of a water purification apparatus according to an eighth embodiment of the present invention.

As shown, the water purifying apparatus according to the eighth embodiment of the present invention is a further improvement of the first to third embodiments or the seventh embodiment, which is applied to the first or second embodiment. If described as an example.

The bottom portion is provided with a downwardly inclined purification container 10, the partition 20 is provided with a plurality of partitions 20, each having a discharge port 21 formed on one lower side at equal intervals, the lowermost side of the purification container 10 The drainage opening 11 is formed, and the control plate 30 for adjusting the opening degree of the drainage opening 11 while moving up and down is located in front of the drainage opening 11, the upper portion of the control plate 11 is fixed to the purifying tank 10 The front end of the piston rod 42 of the operation cylinder 41 is connected, a reservoir 50 having a discharge pipe 61 is located at the lower portion of the drain port 11, and a water supply pipe 62 on the opposite side of the drain hole position of the clarification tank 10. ) Is positioned so that its end is immersed to the inside of the clarification container 10, although not shown, a space (hereinafter, referred to as a space) formed between the clarification container 10 and the partition 20 or between each partition 20. Of course, each of the strainer (not shown) can be located.

In this water purifying apparatus, in the eighth embodiment of the present invention, the propellers 80 are disposed below the middle of the space formed between the clarification tank 10 and the partition 20 or between the partitions 20, respectively. The air injection pipe 82 connected to the air compressor 81 is watertightly inserted from the lower part of each space, and the discharge part is disposed to be located at the lower part of each propeller 80.

In addition, both side walls of the purification vessel 10 is configured to be lower than the height of each partition 20 and the front and rear walls of the purification vessel 10 to be configured so that the water of the upper layer flows through these both side walls, both sides of the purification vessel 10 The outside of the contaminant collecting container (83) for containing the overflowing water is formed, the contaminant collecting container (83) is configured to connect the sewage pipe (84) communicating with the sewage treatment plant.

In this configuration, when the drain hole 11 formed at the lowermost side of the septic tank 10 is completely closed through the control plate 30 and water is supplied through the water supply pipe 62, the water is filled from the upper space of each space. Water is moved through the outlet 21 located at one side of each partition 20 to sequentially fill the space at the bottom side.

When the water is filled in all the space through the water supply pipe (62) while continuously supplying water to shrink the operation cylinder 41 to raise the control plate 30, the drain hole 11 is opened to drain the water, Since the specific gravity of contaminants contained is lighter than that of pure water, the gravity of the pollutants contained in the upper layer of each space is caused by gravity, so that water moves from each space to the adjacent space below through the outlet 21 formed in each partition 20. Only clean water escapes, and this process proceeds sequentially through each space, so that material acceleration, mass cutting, material desorption, and material flotation occur naturally in the process of water discharge. As it exits the state, contaminants can float to the top.

At the same time, when the air is injected through the air injector 82 while driving each propeller 80 disposed in the middle of each space, contaminants combined with water molecules are rotated by the propeller 80 and the air compressor ( 81) The pollutants and water molecules bound in the water molecules are transformed into ultrafine particles by the frictional force of the air generated in the air.In this process, heavy water molecules are multi-stage by the action of gravity and buoyancy. The clean water is secured while naturally moving to the lower layer of the clarifier 10, and contaminants having a lighter weight from the water molecules by the frictional action of the clarifier 10 are caused by the action of gravity and buoyancy. Lightly contaminants that naturally float towards the upper layer and continue to push away the material in front of them. By the material advance act through both side walls of the cleaning column 10 to flow overflowing to the outside.

When the upper water containing the contaminant overflows to the outside through both side walls of the purification tank 10 as described above, it is collected through the contaminant collecting container 83 and sent to the sewer pipe 84, and the pollution collected through the above process. The materials can be treated in sewage treatment plants.

That is, while the water is discharged through the discharge port 21 as described above, the water is continuously supplied through the water supply pipe 62, so that the water always maintains the full water level, and in this state, each propeller 80 is driven. , Since the injection of air through each air injection pipe 82 is made, the foreign substances in the upper portion of each space including the foreign substances overflows on both side walls of the purification vessel 10 so that foreign substances can be removed.

Therefore, the water discharged through the discharge port 21 is about 90 to 95% of the initial water supply on a volume basis, but the process of passing through each partition 20 as described above, vortex generated by driving the propeller 80, air dust Only water in a pure state in which contaminants have been removed by aeration through air injection of the officer 82 may be discharged.

And, the upper water containing the contaminant is discharged overflowing into the pollutant container 83 through the both side walls of the clarification tank 10 can be completely separated from the clean water discharged through the drain 11 of the clarification tank 10. In addition, since the water discharged through the drain 11 of the clarification tank 10 is purified water, the water is discharged into the river as it is first received in the reservoir 50.

Of course, the septic tank 10 of the above structure can be configured to sequentially purify the water quality without the addition of a separate chemical by placing two or more in multiple stages in a place that requires purification, such as rivers, rivers, reservoirs, etc. Therefore, it is a matter of course that these modified embodiments fall within the scope of the present invention.

In addition, since the propeller 80 applied to the eighth embodiment of the present invention may be installed in each space or may be installed in several places, the number of installation of the propeller 80 is not particularly limited, and the air injection pipe 82 ) Can also be installed in each space or can be installed in several places, so the number of installation of such an air injector 82 is not particularly limited.

In addition, the propeller 80 and the air injection pipe 82 may be driven at all times during the purification of water, may cause the operation to be stopped after the operation for a certain period of time, and may be operated only at the time of the operator's operation. As it may be, the movable pattern of the propeller 80 and the air injection pipe 82 is also not particularly limited.

[Example 9]

14 is a perspective view of a fish tank according to a ninth embodiment of the present invention, Figure 15 is a cross-sectional view of a fish tank according to the present invention d.

The ninth embodiment of the present invention is to apply the action to purify the water naturally to the fish tank, the fish tank 100 according to the ninth embodiment of the present invention is divided into two to have different volumes through the partition 101, The lower part of the partition 101 is spaced apart from the bottom so that the divided both side spaces 102 and 103 communicate with each other.

The pump 104 is installed at the lower end of the relatively wide space 102 of the space of the fish tank 100, one end is connected to the pump 104 through the fish tank 100 and the other end is the fish tank 100 The discharge pipe 105 is installed so as to come in from the relatively narrow space 103 above and be located in the lower portion of the relatively narrow space 103 so that the water in the relatively wide space 102 side is relatively received through the discharge pipe 105. It is configured to be discharged to the upper portion of the narrow space 103 side.

At this time, it is obvious that the packing member 106 should be interposed between the discharge port 105 and the fish tank through portion of the discharge tube 105 so as not to leak between the discharge tube 105 and the fish tank 100, although the pump 104 and the discharge tube 105 are not shown. ) Is to be fixed to the fish tank 100 through a fixing means such as a suction port so as to be firmly fixed to the fish tank 100.

In addition, the water supply pipe 107 is positioned above the relatively wide space 102 of the fish tank 100 so that new water can be supplied to the fish tank 100, and the upper side of the fish tank 100 has a relatively narrow space 103. It is connected to the drain pipe 108 having a discharge valve to discharge the pollutants with a light weight that is separated from the water molecules by aeration and is suspended in the circulating water to the outside.

When the pump 104 is driven in the state configured as described above, water in the relatively wide space 102 is sucked through the pump 104 and discharged into the relatively narrow space 103 along the discharge pipe 105. Aeration occurs naturally, and the abrasion of material friction occurs when the sharp ends of the fine particles of the material molecules contained in the discharged water and the sharp ends of the fine particles of the water molecules, which always maintain the molecular structure of the water, collide with each other. Mass explosive action will occur.

This material friction and explosive action break down the molecular structures of pollutants, which are combined with the molecular structure of pollutants and water molecules, into smaller particles and eventually contaminate some of the pollutants that are combined with water components. Is floated to the upper part, and part of the self-disappears, and when the water moves from the relatively wide space 102 to the relatively narrow space 103 by the pumping of the pump 104, the heavy water clean water partition 101 It moves to the opposite wide space 102 through the lower end of the horizontal to be horizontal.

Through such action, clean water always flows into the relatively wide space 102 of the fish tank 100, which is advantageous for the fish to live in. In the relatively narrow space 103, water purification is continuously performed by the frictional action of the material. It is made to play a role of supplying clean water to the relatively wide space 102 side of the made constant.

In addition, the water purification of the water filled in the fish tank 100 is continuously made while the water is circulated in accordance with the pumping operation of the pump 104, by this action always clean state without cleaning the fish tank 100 separately It can be maintained.

However, in the process of performing the pumping operation after filling the fish tank 100, insoluble water is evaporated to gradually reduce the water in the fish tank 100, as well as to herpes on the upper portion of the relatively narrow space 103 of the fish tank 100. Water is also reduced in the process of removing contaminants to periodically replenish water in the fish tank (100), and to ensure that the contaminants in the upper portion of the relatively narrow space (103) for the convenience of use is automatically removed This is preferable.

To this end, in the ninth embodiment of the present invention, the water supply pipe 107 is positioned above the relatively wide space 102 of the fish tank 100, and the discharge valve is disposed toward the upper side of the relatively narrow space 103 of the fish tank 100. By connecting the drain pipe 108 having, when the water in the fish tank 100 is reduced to some extent while supplying water through the water supply pipe 107 to open the discharge valve of the drain pipe 108, and at the same time the pump 104 By circulating the water in the fish tank 100 through the discharge pipe 105 to operate the water filled in the fish tank 100 as described above can be purified by the material friction action and material explosion action, the fish tank ( The contaminant molecules separated from the water can be discharged to the outside through the drain pipe 108 which is separated from the water to the upper portion of the relatively narrow space 103 of 100). Jugeona beneath a separate receptacle connected to a lower portion of the hasugwanro 108 and is received inside the water containing contaminants.

Of course, the water supply through the water supply pipe 107 and the drainage operation through the drain pipe 108 may be performed periodically for a short time when the water in the fish tank 100 is reduced.

[Example 10]

16 is a perspective view of the water storage structure according to the tenth embodiment of the present invention, Figure 17 is a cross-sectional view of the water storage structure according to the tenth embodiment of the present invention.

In the tenth embodiment of the present invention, the ninth embodiment is applied to a large-scale storage structure such as a swimming pool, fish farm, pond, aquarium, etc., which is much larger than this, and the storage structure 600 according to the tenth embodiment of the present invention is It is made of an artificial structure or a natural structure, a small separation space 603 is formed through the partition 601 on one side of the reservoir space 602 of the reservoir structure 600, the pump 604 in the reservoir space 602 The discharge pipe 605 is connected to the end of the discharge pipe 605 from the top of the separation space 603 into the separation space 603 to be located in the inner lower portion of the separation space 603, partition 601 ) Is spaced apart from the bottom of the reservoir structure 600 so that the reservoir space 602 and the separation space 603 communicate with each other.

In this case, when the water storage structure 600 is a rectangular artificial structure, one side of the corners may be blocked by the partition 601 to form a small separation space in a triangular plane, and the separation space 603 may have any shape. It is possible.

In addition, the pump 604 may be configured as a submersible pump and positioned inside the storage space 602, and one end of the discharge pipe 605 connected thereto in a state where the pump 604 is located outside the storage space 602 may be a storage space ( The 602 may be immersed and the other end may be positioned above the separation space 603.

In addition, the water supply pipe 606 is positioned in the upper portion of the reservoir space 602 so that new water can be supplied to the reservoir space 602, and the water is circulated in the upper side of the separation space 603. The drain pipe 607 having a discharge valve is connected to discharge the pollutants having a light weight separated from the water molecules by the aeration to the outside together with the upper water.

When the pump 604 is driven in this manner, the water in the reservoir space 602 is sucked by the pump 604, moves along the discharge pipe 605, and is discharged into the separation space 603 to naturally aeration. When the aeration occurs, the pointed ends of the fine particles of the material molecules contained in the discharged water and the pointed ends of the fine particles of the water molecules, which always maintain the molecular structure of the water, come into contact with each other. This will happen.

Through this material friction and explosive action, the contaminant molecules and the molecular structures of the contaminants, which are combined with the molecular structure of the water molecules, are gradually decomposed into small particles and contaminants that are combined with the water components are partially. Is floating, and part of itself is extinguished, and when water moves from the reservoir to the separation space 603 by the pumping of the pump 604, clean water having a heavy specific gravity is returned to the reservoir through the lower end of the partition 601 again. Moving to 602 is made horizontal.

Through this action, clean water can always flow into the reservoir space 602 of the reservoir structure 600, and in the separation space 603, water purification is continuously performed by the material friction action and the material explosion action. Will continue to supply clean water to the reservoir 602 side.

In addition, the water purification of the water filled in the water storage structure 600 is continually made while the water is circulated in accordance with the pumping operation of the pump 604, by this action storage structures such as swimming pools, fish farms, ponds, aquariums It is possible to always maintain a clean state without cleaning the 600 separately.

However, the water filled in the water storage structure 600 is inevitably evaporated during the pumping operation, so that the water in the water storage structure 600 is gradually reduced, and also in the process of removing the contaminants in the upper portion of the separation space 603. It is preferable to periodically replenish water in the reservoir structure 600 and to reduce the contaminants in the upper portion of the separation space 603 in order to improve the convenience of use.

To this end, in the tenth embodiment of the present invention, the water supply pipe 606 is positioned on the upper portion of the storage space 602, and the drain pipe 607 having a discharge valve is connected to the upper side of the separation space 603. When the pump 604 is driven at the same time as supplementing the water through the 606, water in the reservoir space 602 is discharged into the separation space 603 as described above. The pollutant molecules are separated from the molecules, and clean water molecules having a relatively high specific gravity are located in the lower layer of the separation space 603 and flow into the reservoir space 602 through the lower end of the partition 601 to be horizontal. Since water is supplied to the water through 606, water is also filled in the upper portion of the separation space 603.

Therefore, when the water is filled up to the position of the drain pipe 607 while the discharge valve of the drain pipe 607 is opened, the upper portion of the separation space 603 is discharged through the drain pipe 607 while the pollutants contained therein are discharged together. It can be used to automatically remove contaminants without cleaning.

Of course, the water supply through the water supply pipe 606 and the drainage operation through the drain pipe 607 may be performed periodically for a short time when the water in the reservoir structure 600, such as a swimming pool, fish farm, pond, aquarium is reduced.

[Eleventh embodiment]

18 is a perspective view of a water storage structure according to an eleventh embodiment of the present invention, and FIG. 19 is a cross-sectional view of the water storage structure according to the eleventh embodiment of the present invention.

The eleventh embodiment of the present invention is an improvement to enable a more effective purifying effect of the tenth embodiment, and the water storage structure 600 'according to the eleventh embodiment of the present invention is an artificial structure like the tenth embodiment. Or it is made of a natural structure, the separation space in the number corresponding to the number of partitions (601 ') through a plurality of partitions (601') having a predetermined interval on one side of the storage space (602 ') of the water storage structure 600'. 603 ', a discharge pipe 605' having a pump 604 'is connected to the reservoir 602' so that an end of the discharge pipe 605 'is separated from the outermost part of the separation space 603'. It enters from the top of the space 603 'to be located inside and outside the outermost separation space 603', and each partition 601 'is such that the reservoir space 602' and the separation space 603 'communicate with each other. It is formed to be spaced apart from the bottom of the water storage structure 600 ', and both side walls between the partitions 601' exceed the number of upper floors. It is discharged than the other portion is formed to a lower height to form a discharge unit (608 ').

At this time, when the storage structure 600 'is a rectangular artificial structure, one side of the corner may be blocked by each partition 601' to form a separation space 603 ', and a new storage space 602' may be formed. A water supply pipe 606 'is positioned at an upper portion of the storage space 602' to supply water.

When the pump 604 'is driven in such a configuration, the water in the reservoir 602' is sucked by the pump 604 ', moves along the discharge pipe 605', and then the most of the separation spaces 603 '. Particles are discharged into the outer separation space 603 'to naturally generate aeration, and the particles of the water molecules always maintain the pointed ends of the particles of the material molecules contained in the discharged water and the molecular structure of the water. The pointed ends of the bumps collide with each other, resulting in mass friction and mass explosion.

Through this material friction and explosive action, the contaminant molecules and the molecular structures of the contaminants, which are combined with the molecular structure of the water molecules, are gradually decomposed into small particles and contaminants that are combined with the water components are partially. Is rich, and some are self-extinguishing.

In this process, the upper layer water containing the contaminants in the upper part of the separation space is naturally discharged through the discharge portion 608 'configured to have a lower height than the other portions, and clean water having a relatively specific gravity is partitioned (601'). Through the lower end of the inlet flows into the separation space 603 'of the next step, and while performing the same operation as described above, the upper water containing the contaminants is discharged to the outside through the discharge unit 608' and has a relatively low specific gravity. The clean water is repeated through the bottom of the partition 601 'to the next separation space 603' and finally moves to the storage space 602 'through the bottom of the partition without clean water. It will be level.

That is, while the water containing the contaminants introduced through the discharge pipe 605 'is sequentially moved to the separation space of several stages, the contaminants contained in the water may be separated in stages and discharged to the outside through the discharge unit 608'. In addition, the water can be purified to a more clean state through the separation process of the contaminants in these steps.

In addition, through this action, clean water can always flow into the reservoir space 602 'of the reservoir structure 600', and the water quality by the material friction action and the material explosion action continuously in each separation space 603 '. Purification effect is made to play a role of supplying clean water to the storage space (602 ') continuously.

In addition, the water purification of the water filled in the reservoir structure 600 'is continuously made while the water is circulated in accordance with the pumping operation of the pump 604', by this action, such as pool, fish farm, pond, aquarium It is possible to always maintain a clean state without separately cleaning the structure (600 ').

However, the water filled in the water storage structure 600 'is inevitably evaporated during the pumping operation, so that the water in the water storage structure 600' is gradually reduced, and contaminants are deposited on the upper portion of each separation space 603 '. Since the water is naturally discharged to the outside through the discharge portion, the reservoir structure 600 'should be supplemented with water periodically.

To this end, in the eleventh embodiment of the present invention, the water supply pipe 606 'is positioned on the upper portion of the water storage space 602', and the pump 604 'is driven while supplementing water through the water supply pipe 606'. As described above, the water in the reservoir space 602 'is discharged into the outermost separation space 603' while the pollutant molecules are separated from the water molecules by the material friction action and the material explosion action, and have a relatively specific gravity. This heavy clean water molecule passes through the lower end of the partition 601 'and moves to the next separation space 603' sequentially so that only clean water in which the pollutant is finally separated flows into the storage space 602 '. And the horizontal water containing contaminants can be naturally discharged to the outside through the discharge unit 608 ', so that the contaminants can be kept clean without any separate cleaning operation, and the water structure (60) 0 ') level can be kept constant all the time.

In addition, since the contaminant separation process of the multi-step compared to the tenth embodiment of the present invention can obtain a more detailed contaminant separation effect, in particular, including the contaminants without separate drain pipe through each separation space (603 ') Since the upper layer water can be naturally discharged to the outside through the discharge unit 608 ', it is possible to promote convenience in use.

[Twelfth Example]

20 is a perspective view of a storage tank according to a twelfth embodiment of the present invention, Figure 21 is a cross-sectional view of the storage tank according to a twelfth embodiment of the present invention.

The twelfth embodiment of the present invention is to provide a storage tank that can always maintain a clean state without cleaning, a plurality of partitions 701 having a constant interval on one side of the storage space 702 of the rectangular storage tank 700 Separating space 703 is formed in the number corresponding to the number of partitions 701 through the (), and the end of the water supply pipe 706 enters inward from the upper portion of the outermost separation space 703 of the separation space 703 The partition 701 is formed at an inner lower portion of the outer separation space 703, and each partition 701 is spaced apart from the bottom of the storage tank 700 so that the storage space 702 and the separation space 703 communicate with each other. A discharge pipe 705 having a discharge valve 705a is connected to the lower side opposite to the water supply position so as to communicate with the lower end of 702, and both walls between the partitions 701 have a height higher than that of the other parts so that the upper layer water is discharged. To form a low discharge portion 708 .

At this time, the separation space is preferably formed in a relatively narrow space compared to the overall size of the storage tank 700 at one corner of the storage tank 700.

In this configuration, when the discharge valve 705a of the discharge pipe 705 is closed and water is discharged into the separation space 703 of the outermost part of the separation space 703 through the water supply pipe 706, aeration naturally occurs. This aeration causes material friction and material explosion to occur as the sharp ends of the fine particles of the material molecules contained in the supplied water and the sharp ends of the fine particles of the water molecules, which always maintain the molecular structure of water, collide with each other.

Through this material friction and explosive action, the contaminant molecules and the molecular structures of the contaminants, which are combined with the molecular structure of the water molecules, are gradually decomposed into small particles and contaminants that are combined with the water components are partially. Is rich, and some are self-extinguishing.

In this process, the supernatant water containing contaminants in the upper part of the separation space 703 is naturally discharged through the discharge part 708 configured to have a lower height than other parts, and clean water having a relatively low specific gravity is partitioned 701. Into the separation space 703 of the next step through the lower end of the), and the same operation as above, the upper layer water containing contaminants is discharged to the outside through the discharge portion 708 and the cleanness is relatively light Water is repeated again flowing into the separation space 703 of the next step through the bottom of the partition 701, and finally only clean water without contaminants moves to the storage space 702 through the bottom of the partition 701 and is horizontal. Is achieved.

That is, while the water introduced through the water supply pipe 706 sequentially moves to the separation space 703 of several stages, contaminants contained in the water may be separated in stages and discharged to the outside through the discharge unit 708. Multiple stages of contaminant separation can purify the water to a cleaner state.

Accordingly, if the total water to be supplied is 100% by weight, the water filled in the water storage tank 700 becomes about 80 to 90%, but the water to be filled in the water storage tank 700 is always clean without any additional cleaning. There is an advantage that can be maintained.

In addition, although the lid is not shown in the drawing, it is obvious that the storage tank 700 is provided with the lid.

[Thirteenth Embodiment]

22 is a plan view of a lake according to a thirteenth embodiment of the present invention, and FIG. 23 is a cross-sectional view taken along the line A-A of FIG.

A thirteenth embodiment of the present invention is for purifying water stored in a reservoir or a lake (hereinafter, referred to as a lake) by using the principle of water purification. The partition wall 200 is provided along a water inflow direction flowing into the lake. By dividing the lake into two sections in the longitudinal direction, the partition wall 200 is built in a predetermined interval at a predetermined interval in the state in which the discharge port 201 is formed over the entire width of the shear surface on the lower side, the lower end of each partition wall ( While positioned between the 200, the upper end portion is installed in each partition wall 200, a plurality of discharge pipes 210 having a pump 211 so as to be located on the storage space side beyond the partition wall 200.

In this case, the height of the partition wall 200 may be configured to be higher than the water level of the lake or may be configured to be lower than the water level of the lake, so that the discharge portion of the discharge pipe 210 may be above the water surface or may be underwater. Obviously, at least the bottom of the discharge pipe 210 should be located at the bottom of the lake and its top should be located much higher than the bottom.

In addition, it is preferable that the pump 211 uses an underwater pump, and such a pump 211 may be installed at any position of the discharge pipe 210.

In addition, the discharge port 201 formed in the partition wall 200 may have a size larger than that of the water in the storage space may flow between the partition walls 200 at a speed faster than the pumping amount of the pump 211.

The thirteenth embodiment of the present invention configured as described above functions as follows.

Pollution of rivers, lakes, etc. can be said to be caused by point sources and nonpoint sources. In addition to these sources, water quality is always combined by organic matter, phosphorus, nitrogen, etc. It can be said to have the potential to be polluted.

In particular, it is well known that the water becomes more contaminated when the water in the river is trapped in a reservoir formed by an underwater beam or the like.

Therefore, the thirteenth embodiment of the present invention is designed to purify the water stagnant in such a storage space or a lake, and when each pump 211 is driven, between the partition walls 200 through the discharge pipe 210. The water near the bottom of the water located in the pumping is discharged to the storage space side beyond each partition wall 200 to generate aeration, the acute end of the fine particles of the material molecules contained in the discharged water by such aeration The pointed ends of the particulates of the water molecules, which maintain the molecular structure of the water and the water at all times, collide with each other, causing a frictional action of the contaminants that are associated with the pollutants and the molecular structure of the water molecules. As molecular structures are gradually broken down into smaller particles, pollutants associated with water components are gradually eliminated and purified. As the water filled in the lake descends from the upper layer to the lower layer according to the specific gravity, the clean water is gradually spread and the relatively clean water is repeatedly introduced into the space between the partition walls 200 through the outlet 201. With this repetitive water cycle, the lake's water can gradually be purified to clean water.

That is, the thirteenth embodiment of the present invention can purify the water quality of the water stored in the reservoir or the lake by continuously circulating by inducing aeration while actively pumping the water of the reservoir or the lake by the pump 211. As the driving time of the pump 211 depends on the pollution degree of the reservoir or the lake, the driving pattern of the pump 211 is not limited.

In addition, the narrower the interval between the partition wall 200 is advantageous, but may vary according to the storage capacity according to the storage space or the size of the lake, so the interval between each partition wall 200 is not numerically limited, The size of the outlet 201 formed in each partition wall 200 is also not limited for the above reasons.

In addition, since the number of installation of the discharge pipe 210 and the pump 211 is increased in proportion to the volume of the storage space or the lake, the number of installation of the discharge pipe 210 and the pump 211 is not limited.

In addition, since the construction of each partition wall 200 may be made of concrete, or blocks may be constructed by stacking, the materials or methods used for the construction of each partition wall 200 are all within the scope of the present invention. It is natural.

[Example 14]

24 is a plan view of a lake according to a fourteenth embodiment of the present invention, and FIG. 25 is a cross-sectional view taken along line B-B in FIG.

A fourteenth embodiment of the present invention is to prevent water pollution by purifying water flowing into a lake so that only clean water flows into the lake, and at a lower portion of the lake at a right angle to the water inflow direction. At least one partition wall 300 having an outlet 301 is constructed, and a water gate 310 is installed on the front side of the partition wall 300 in the water inflow direction of the partition wall 300 located at the top of the partition wall 300. And, the lower portion between each partition wall 200 is provided with a sewage sludge collection basket 320.

At this time, the sluice 310 applied to the present invention can be configured in various forms, such as a winch-type sluice, a sluice sluice, a rotary sluice, and although not shown, the unit sluice 310 can be configured to cover the entire width of the shear surface. Can be configured to connect to each other.

In addition, the interval between the partition walls 300 is not particularly limited because it depends on the amount of inflow water, storage space or lake.

In addition, the installation place of the partition wall 300 is suitable about 3 to 5 places, but is not particularly limited to this, the discharge port 301 formed in each partition wall 300 is located at a predetermined height from the lower end. So that foreign matter is blocked by each partition wall 300 so as not to proceed any further, and the discharge port 301 formed in each partition wall 300 by varying its height depending on the position of each partition wall 300 to form a zigzag shape Will be configured.

When the water gate 310 is opened in this state, water is introduced from an upstream stream. The stream water is combined by a material binding action in which the clean river water and the contaminated river water combine, and the river water is partitioned on the uppermost partition wall. When it hits (300), the polluted water is cleaned by the material separation action in which pollutants are naturally separated from the clean water molecules by the action of gravity and specific gravity.

In addition, the pollutants having a low specific gravity released from the clean water molecules are moved to the upper part of the partition wall 300 by the action of gravity, and the clean water having a heavy specific gravity is discharged from the lower part of the partition wall 300. The natural contaminant moving downstream through 301 allows the contaminated water to be purified to clean water.

In addition, in the process of passing through the outlet 301 of each partition wall 300, aeration occurs due to natural water purification by material separation, material rolling, material injury, material cutting, material friction, etc. As the molecules and substances collide with each other, the water quality can be naturally purified by the action of decomposing molecules of pollutants contained in the water into fine particles.

In addition, since the outlet 301 of each partition wall 300 has a zigzag shape with different heights, the incoming water flows in a zigzag shape while passing through the outlet 301 of each partition wall 300. The same water purification can be made more active.

Therefore, the water passing through each partition wall 300 can be introduced into the lake in a clean purified state to prevent water pollution of the lake.

By the way, the water flowing into the lake can not only contain foreign matters, these foreign matters are aggregated into a larger material by the agglomeration of the material is accumulated on the floor, these foreign matters are moved with water because the specific gravity is greater than the water partition wall (300) When you meet the) is blocked by the partition wall 300 is to be stacked on the bottom.

Of course, some foreign matter may be discharged through the outlet 301 of the partition wall 300 together with the water, but the partition wall 300 is composed of a multi-stage process of passing through the outlet 301 of the partition wall 300 of the multi-stage. Most of the foreign matter in the specific gravity will be settled to the bottom between the partition wall 300 and the partition wall (300).

In addition, the sedimentation sludge accumulated on the partition wall 300 located at the uppermost part may be dredged and removed at a certain period, and the sedimentary sludge collection basket 320 is disposed between the partition walls 300 so that the sedimentary sludge is deposited at regular intervals. Lift and remove the collection basket (320).

On the other hand, since the water level and the quantity of water flowing into the reservoir or the lake will vary depending on precipitation, the water gate 310 formed on the partition wall 300 of the uppermost part of the partition wall 300 is detected by detecting the water level or water pressure. By appropriately opening according to the natural water purifying action is to always occur efficiently, and when the quantity increases rapidly, such as heavy rain or floods, the water gate 310 is opened as much as possible to discharge the incoming water at high speed By allowing the water level to be maintained within a faster time, the water gate 310 may be closed during dredging to remove foreign matter accumulated at the bottom of the partition wall 300 at the top end.

Thus, unlike the thirteenth embodiment of the present invention, unlike the thirteenth embodiment, the water quality can be naturally purified in the course of natural water flow by gravity without using a separate power source, and is included in the incoming water. Since foreign matters such as wood, soil, and earth and sand are accumulated at the bottom of the upper side partition wall 300, only the dredging is required to be removed by dredging.

In addition, in the fourteenth embodiment of the present invention, the construction of each partition wall 300 may be made of concrete, or the blocks may be stacked to be constructed. Thus, the materials or methods used for the construction of each partition wall 300 are all Naturally, it belongs to the scope of the present invention.

[Example 15]

26 is a plan view of a lake according to a fifteenth embodiment of the present invention.

The fifteenth embodiment of the present invention is a combination of the thirteenth embodiment and the fourteenth embodiment. The upstream of the lake has the same multi-stage horizontal partition wall 300 as the twelfth embodiment in the direction perpendicular to the water inflow direction. The same vertical partition wall 200 as that of the eleventh embodiment is doubled in the water inflow direction between the central portion of the partition wall 300 at the lowermost end of the horizontal partition wall 200 and the central portion of the bank. .

In addition, although not shown, the outlet 301 is formed in the lower portion of the horizontal partition wall 300 to form a zigzag shape by varying its height, as in the fourteenth embodiment, and the outlet of the top horizontal partition wall 300. A sluice gate 310 is installed to open and close the 301, and a collection basket 320 is provided between the walls of each of the horizontal partitions 300.

In addition, although not shown, the outlet 201 is formed in the lower portion of the vertical partition wall 200, the lower end is located between the partition walls 200, while the upper end is located above the partition wall 200 on the reservoir side. A plurality of discharge pipes 210 having pumps 211 are provided in each of the longitudinal partition walls 200, respectively.

Thus, if configured as described above, the advantages of the thirteenth and fourteenth embodiments of the present invention can be obtained. First, water is introduced into the horizontal partition wall 300 so as to pass through the respective outlets 301. In this process, aeration occurs due to natural water purification by material jungle, material injury, material shredding, and material friction, so that the molecules of the pollutants contained in the water come into contact with each other. The water quality can be naturally purified by the action of decomposing to, and since the outlet 301 of each of the horizontal partition walls 300 has a zigzag shape at different heights, the incoming water is formed in each horizontal partition wall ( While passing through the outlet 301 of 300 to flow in a zigzag shape can be more active water purification as described above. Therefore, the water passing through each of the horizontal partition walls 300 can be introduced into the lake in a clean purified state to prevent water pollution of the lake.

In addition, the water passing through the horizontal partition wall 300 is filled in the reservoir space of the lake formed by the embankment, if the stagnant as it is without discharging the water of the lake, contaminants are aggregated together by the aggregation of water It is well known that the sedimentation at the bottom creates sedimentary sludge, which adds to the contamination.

In the fifteenth embodiment of the present invention, the longitudinal partition wall 200 is constructed in duplicate between the center of the lowermost horizontal partition wall 300 and the central part of the room, and a discharge port is formed at the lower portion of each longitudinal partition wall 200. 201) is formed, and a plurality of discharge pipes 210 for pumping water between each vertical partition wall 200 to the outside of each vertical partition wall 200 are installed in each vertical partition wall 200, so that each discharge pipe When the pump 211 provided in the 210 is driven, water near the bottom of the water located between the respective vertical partition walls 200 through the discharge pipe 210 is pumped to each of the vertical partition walls 200. The aeration is generated while being discharged to the reservoir side beyond, and the acute end of the fine particles of the material molecules contained in the discharged water by these aerations and the sharp end of the fine particles of the water molecules always maintaining the molecular structure of the water. When people collide with each other, material friction action occurs, and by the material friction action, the molecular structure of pollutant, which is combined with the molecular structure of pollutant components and water molecules, gradually breaks down into small particles, The contaminants are gradually eliminated and purified, and the water filled in the lake gradually cleans the water as it descends from the upper part to the lower part according to the specific gravity, and relatively clean water is discharged through the outlet 201 again in each of the vertical partition walls 200. The process of inflowing into the space between) is repeated, and the water in the lake can be gradually purified into clean water by this repeated water cycle.

That is, according to the fifteenth embodiment of the present invention, the water quality can be prevented from being introduced into the lake by purifying the water quality while the water is introduced into the lake, and the water once introduced into the reservoir of the lake is also continuously By purifying and making clean water, the water purification efficiency can be further improved as compared with applying the thirteenth and fourteenth examples separately.

And, although not described in detail, it is apparent that the inflow water is controlled by the water gate 310 installed in the horizontal partition wall, and the sedimentary sludge collection basket 320 is periodically lifted to remove the sedimentary sludge.

In addition, the thirteenth to fifteenth embodiments of the present invention are not applicable only to a reservoir of a river or a lake, but are applied to a place where water is confined to a predetermined space such as a swimming pool, a public bath, a fish farm, a pond, and the like. Since it is possible to purify the confined water, the principles of the present invention can be applied to all the water confined in a certain space, and therefore, those applying the water purification principle of the present invention in a state in which the water is confined in a certain space are all rights of the present invention. It is natural to fall within the scope.

[Example 16]

27 is a side cross-sectional view of a brine purification device according to a sixteenth embodiment of the present invention.

The sixteenth embodiment of the present invention is for purifying salt water using an apparatus configured as the first to eighth embodiments of the present invention, and is applied to the first to eighth embodiments of the present invention. The mixing tube 400 is connected to the water supply pipe 62 and salt and water are added to the mixing tube 400 at a ratio of 1: 2 to 5 by weight, and then stirred, rotated, or agitated. In the state in which the salt is completely dissolved in water, the brine is continuously supplied to the septic tank 10 through the water supply pipe 62.

At this time, the drain port 11 of the purification tank 10 is opened so that the salt water in the purification tank 10 is discharged to the reservoir 50.

Salt water flowing into the water purifier 10 through the water supply pipe 62 is mixed with contaminants contained in the water and contaminants contained in the salt, and such pure salt water and salt water including contaminants are supplied through the water supply pipe 62. Contaminants that have a low specific gravity due to aeration due to aeration are introduced into the upper part of the brine in the purification tank 10, and pure salt water having a heavy specific gravity is shrouded in the lower layer of the brine located in the purification container. Only this heavy pure brine moves downward through the outlet 21 of each partition 20, and this same process proceeds sequentially each time it passes through each partition 20. The cutting phenomenon, material release action, and material flotation action occur naturally, and the brine is sequentially purified and Finally, the brine finally discharged through the drain 11 maintains a clean state free of contaminants, and contaminants in the upper portion of the brine located in the clarification tank 10 are aerated and propeller (not shown) due to the drop of the brine. Alternatively, by artificial aeration by an aeration device (not shown) or the like, the material may be gradually broken down into small particles by the material friction action between the material molecules and the material molecules, and purified by clean brine.

Pure brine drained through the drain 11 is put in the reservoir 50 located below, using the brine as it is, or through a separate evaporation process to completely evaporate the water back to pure salt state Of course, you can use.

In other words, in the past, when the salt was purified, the salt was purified through a microfilm in a seawater state, so the equipment required for salt purification was excessively expensive, the salt refining process was very complicated, and the mineral components contained in the salt were While there is a disadvantage in that most of the removal, according to the sixteenth embodiment of the present invention is to apply the coarse salt in the market to a simple device for purifying water as it is so that the salt can be purified simply without incurring a large cost Pure salt or brine can be obtained, and the destruction of minerals is more beneficial to the human body.

In addition, in FIG. 27, the filter net 70 is provided in the space between the partitions 20, but the filter net 70 may or may not be provided, and between the partitions 20. A device capable of generating forced aeration, such as a propeller or aeration device, may be configured in the space of the space, or may be configured to adjust the space between the partitions 20, in addition to the first embodiment of the present invention. It is apparent that all the devices described in the eighth to eighth embodiments can be applied to the sixteenth embodiment of the present invention.

[Example 17]

28 is a perspective view of a purifier according to a seventeenth embodiment of the present invention, Figure 29 is a side cross-sectional view of the salt water purifier and salt field according to a seventeenth embodiment of the present invention.

The seventeenth embodiment of the present invention is to produce pure salt without purifying salt water by purifying seawater used in salt fields, and as shown in the bottom of the septic tank 10 in which the bottom portion is inclined downward, Multi-stage partition 20 having the outlet 21 formed on each lower side at equal intervals, and on the lower side of the clarification tank 10 to form a drain 11, while raising and lowering the opening degree of the drain 11 The adjusting plate 30 to be adjusted is positioned in front of the drain port 11, the upper end of the control plate 11 is connected to the front end of the piston rod 42 of the operation cylinder 41 fixed to the purification tank 10, water supply pipe 62 ) Enters inward from the upper side opposite the drain opening 11 position of the clarification vessel 10 so that its end is located in the lower portion of the inner side opposite the position of the drain opening of the clarification vessel 10, thereby supplying seawater, and the clarification vessel 10 and the partition 20 Between or each In the space formed between the membranes 20, each of the strainer 70 is removably positioned, and the propellers 80 for forced aeration are respectively positioned, and the upper side water of the clarifier 10 is discharged. Forming the discharge pipe 15 for each, and to the salt lower portion 500 to produce salt in the outer lower portion of the drain 11.

At this time, the outer and lower parts of the purification vessel 10, the receiving plate 16 for receiving the upper water containing contaminants discharged to the side of the purification vessel 10 through each discharge pipe 15, and the contamination received by the support plate 16 Collecting the upper water containing the material to form a channel 17 for moving to another place.

In the state configured in this way, while the water is continuously supplied through the water supply pipe 62 and continuously discharged through the drain 11, in the space formed between the purification tank 10 and the partition 20 or between each partition 20. When each of the propellers 80 positioned is driven, a forced aeration by the propellers 80 in the state where the sea water is located between the purification vessel 10 and the partition 20 or between the partitions 20 is formed. Due to the material explosion, molecules other than the seawater component combined with the material molecules forming the seawater move the material molecules having a light specific gravity to the upper part of each space of the purification vessel 10 by the action of gravity and gravity. These heavy seawater molecules are continuously made to move to the lower part of each space of the purification vessel 10.

In addition, the pure water molecules and the seawater components, which are combined with the material molecules forming the sea water, are moved to the upper part of each space of the purification vessel 10 due to the action of specific gravity and gravity. Seawater is to be moved to the lower floor of each space of the clarification tank (10).

That is, the sea water is separated by the explosive action of the propeller 80, respectively, so that any space of the purification vessel 10 is shrouded in the order of suspended solids consisting of pollutant molecules from the top, pure water, sea water.

In this state, the clean water is discharged from the upper space of the purification vessel 10 through the discharge port 21 of each partition 20, and the above operations are repeated while being sequentially filled in the lower space. The sea water purified in a state may be discharged to the outside through the drain hole (11).

Opening the respective discharge pipe 15 located on the upper side of the clarifier 10 is discharged through the discharge pipe 15 to the water located in the upper layer of each space, as described above is forced by the driving of each propeller 80 Pure water containing contaminants is separated from the saltwater containing salt by the aeration, so that the water is deposited in the upper layer of each space, and the water is received by the support plate 16 and moved to the waste place through the water channel 17.

In addition, the clean sea water discharged from the clarification tank 10 may be introduced into the sea as it is, in the fifteenth embodiment of the present invention to take this into the salt farm 500 as an example, clean sea water flows into the salt farm 500 When the water contained in the seawater is evaporated by sunlight, pure salt crystals can be obtained. Since the seawater itself flowing into the saltfield has already been purified through the clarification tank (10), the salt obtained therefrom is very clean. Can be used as it is in the food without going through a separate purification process, there is an advantage that can maintain the health of people who eat these added salt foods well.

On the other hand, while the sea water is passed through the outlet 21 of the lower portion of each partition 20 installed in the clarification tank 10, the foreign particles large particles mixed in the sea water are filtered by the strainer 70 is located in the lower portion of each space, The strainer 70 can be lifted and cleaned periodically and then placed back in its original position.

Although not shown in the drawings, the purification vessel 10 is configured horizontally, and the discharge pipe 15 having a pump is connected to each space formed by the partition 20, and the wall of the purification vessel 10 communicates with the last space. Instead of forming a drain 11 at the bottom, instead of supplying seawater through a water supply pipe 62 in a state of connecting a drain pipe having a pump, driving each pump while driving each propeller 80, the sea water is driven by the suction force of the pump. By naturally moving to the discharge side may be configured to be forced to circulate, purify and discharge of contaminants, it is natural that such seawater purification apparatus or method also falls within the scope of the present invention.

In addition, since the number of propellers 80 located in each space of the purification tank 10 may vary depending on the size of the space, the number of propellers 80 is not particularly limited, and the propeller 80 is driven. The time or driving pattern is also not particularly limited since it may vary depending on the pollution of seawater.

[Example 18]

30 is a perspective view of a purifier can be applied to an eighteenth embodiment of the present invention, Figure 31 is an illustration of an installation state of the device for separating pure water from the seawater according to an eighteenth embodiment of the present invention.

The eighteenth embodiment of the present invention is to separate the pure water without salt by supplying sea water, the partition 20 is formed in each of the outlet 21 in the lower side of the purification vessel 10 inclined bottom portion (20) ) Is installed in multiple stages at equal intervals, the bottom of the clarification container (10) is formed in the drain hole 11, the control plate 30 for adjusting the opening degree of the drain hole 11 while moving up and down is located in front of the drain hole (11) The upper end of the control plate 30 is connected to the front end of the piston rod 42 of the operation cylinder 41 fixed to the purification vessel 10, the water supply pipe 62 enters inward from the upper side opposite the drain hole position of the purification vessel 10. The end portion is positioned in the lower portion opposite to the drain hole position of the clarifier 10 to supply seawater, and is provided in the space formed between the clarifier 10 and the partition 20 or between each partition 20. Removably each position 70) The propellers 80 for forced aeration are placed together, and a plurality of discharge pipes 15a, 15b, and 15c for discharging suspended matter or upper water are disposed in the upper portion of the purification tank 10. Each space is formed for each space, and the propeller 80 for forced aeration is positioned in the space formed between the purification tank 10 and the partition 20 or between the partitions 20, respectively. In this case, the discharge pipes 15a, 15b, and 15c are formed in three stages in the up and down direction, and the discharge, 15, 15b, and 15c are respectively configured to discharge pure water mixed with suspended solids, pure water, and salts according to their specific gravity.

In addition, the support plate 16 for receiving the water discharged through each of the discharge pipe (15a) (15b) (15c) is inclined at the lower portion of the purification vessel (10).

Of course, instead of the propeller 80, other aeration device may be configured, the strainer 70 may be located in each space, it is obvious that can also be configured without the strainer 70.

In addition, the purification tank 10 configured as described above is composed of at least 2 to 10 consecutive, between each of the purification tank 10 to feed the water received by the support plate 16 to another purification tank 10 again to the water supply pipe ( 62 is connected, and the lower support plate 16 of the last purification vessel 10 is connected to a water pipe line 18 for transferring pure water to a place requiring pure water.

In this configuration, while rotating the propellers 80 located in the respective spaces while continuously supplying the seawater to the inside of the purification vessel 10 through the water supply pipe 62, the specific gravity equal to the pollutants combined with the seawater molecules. These light substance molecules and pure water molecules generate a material explosion that acts to depart from the seawater molecules, and through this process, the specific gravity component separated from the light pollutant molecules, the pure water molecules and the seawater components Due to the action of overgravity, pollutant molecules having a low specific gravity are moved to the uppermost layer of the clarification vessel 10, and pure water molecules are moved to the middle tier, and at the same time, the heavy waters can be naturally moved to the lower portion of the clarification vessel 10.

The heavy water collected in the lower portion of the septic tank 10 may be supplied as saltwater through the outlet 21 and the drain 11 formed in the lower portion of the septic tank 10, or may be continuously discharged to the sea. The material molecules forming the contaminant that is accumulated in the uppermost floor of each space should be discharged through the uppermost discharge pipe 15a among the discharge pipes 15a, 15b and 15c, and then moved to the disposal site for disposal. Alternatively, water containing a little salt is discharged through the second or third discharge pipes 15b and 15c of the discharge pipes 15a, 15b and 15c of the purification container 10, respectively, or at the same time to the outside of the container 10. The process of supplying the pure water collected by the support plate (16), which is configured in, to the inside of another purification tank (10) having the same structure as that of the purification tank (10) through the water supply pipe (62). Will proceed.

In this case, in the eighteenth embodiment of the present invention, since at least two to ten purifying tanks 10 are continuously installed, the salt water is contained in the water even if the seawater and the pure water are separated by the material explosion by initially receiving pure seawater. However, the salt-containing water is continuously separated into the salty water and the pure water through the septic tank, and only the pure water is moved to the next stage septic tank. Each step is significantly reduced, so that finally, pure water without salt can be obtained, and this pure water can be supplied to a consumer group requiring pure water through the water pipe 18.

At this time, the size and installation location of the purification container 10 is different depending on the width of the place of use and the number of users and the size of the equipment used, so the configuration can be changed as much as possible, and the shape and installation location of the purification container 10 and It does not limit the size.

In addition, although the water supply pipe 62 is located in the uppermost space of the upper side of the purification vessel 10 as an example, the water supply pipe 62 may vary depending on the position and number depending on the supply amount of sea water, the concentration of sea water, the size of the purification vessel. The discharge pipes 15a, 15b, and 15c installed in the septic tank 10 may be configured in three stages up and down, but the number and the intervals of installation of the discharge pipes are the size of the septic tank 10 and the degree of pollution of seawater. Since it may vary depending on the concentration of seawater, the installation position of the water supply pipe 62 and the discharge pipe, the number of installation, the installation interval is not particularly limited.

[Example 19]

32 is a side cross-sectional view of a fresh water or sea water purification device according to a nineteenth embodiment of the present invention.

A nineteenth embodiment of the present invention is to obtain fresh water or fresh water by inputting fresh water or sea water, and as shown in the interior of the purification 800 container having a shape, a plurality of partitions 801 are disposed at regular intervals. And spaced apart from each other so that the space between each partition 801 forms a separate separation chamber 802, and each separation chamber 802 has a striking device 803 composed of a plurality of propellers on a rotating shaft. The water supply pipe 804 which is installed in each direction and configured to allow fresh water or seawater to pass at a rate of 100wt% enters inward from the top of the outermost separation chamber 802 of the separation chamber 802 and the end thereof is the outermost separation chamber ( 802) the discharge valve 805a so as to be located in the lower portion, and discharge 10 ~ 95wt% of fresh water or seawater 100wt% introduced through the water supply pipe 804 in the lower portion of the separation chamber 802 opposite the water supply pipe position in the separation chamber 802 Exhaust combined with It constitutes the 805.

In addition, each partition side wall of the purification vessel 800 is configured to be lower than the height of each partition 801 to form the discharge portion 806 so that fresh water containing pollutants or seawater containing pollutants and salts overflows Will be configured to

In this state, the fresh water or sea water is always supplied to the septic tank 800 composed of the multiple partitions 801 through the water supply pipe 804 at a rate of 100 wt%, and the fresh water or the salt water is always supplied to the multiple septic tank 800. To hit through the striking device 803 located in each separation chamber 802.

Through this blow process, liquid molecules combined with contaminants combined with pure water molecules or liquid molecules forming seawater, liquid molecules combined with contaminants, and liquid molecules made with salts are naturally formed by the material separation action. Liquid molecules and salt molecules, which are separated from each other and combined with pollutants with light specific gravity by the action of gravity and buoyancy, move to the upper part of the septic tank 800 and at the same time, liquids forming heavy water specific gravity molecules The partition 801 of the purification vessel 800 configured in the next step through the lower end of the purification vessel 800 in a state where the light weighted contaminant molecules or salt-forming liquid molecules are pushed up to the upper side of the purification vessel 800. Fresh water or sea water to force the indentation of material that causes movement between Water is continuously supplied to the sump.

Through the above process, only clean and pure water molecules having a heavy gravity are automatically moved to the partition 801 space formed in each next step by the material cutting action, the material rolling action, the gravity action and the buoyancy action. The liquid molecules that make up the pollutant molecules having a relatively low specific gravity or the liquid molecules that make up the salts are separated from each other in the upper layer of each separation chamber 802. The process of being discharged to the outside through the discharge portion 806 configured on the upper sidewall of the clarification container 800 while being pushed up by the liquid molecules forming the contaminant or the salt forming liquid molecules overflowing by the action of each partition It occurs repeatedly in the separation chamber 802 consisting of (801), through the process of the purification vessel 800 Fresh water, including liquid molecules that make up pollutants, are released to sewage treatment plants or streams, and seawater, including salty liquid molecules, flows back into the sea.

Liquids forming pure water molecules flowing through the partition 801 formed in the final part of the clarification container 800 are discharged and collected through the discharge pipe 805 configured in the final partition 801 of the clarification container 800. In addition, pure water molecules collected through the continuous process may be collected and used as drinking water, industrial water, domestic water, or agricultural water.

In addition, the purifying container 800 according to the nineteenth embodiment of the present invention can be inclined as necessary so that the effect of the present invention can be seen, it is natural that the inclination is also included in the scope of the present invention.

In addition, since the structure of the striking device 803 can be changed in various ways, it is natural that all the configurations of the shape of the striking device 803 fall within the scope of the present invention.

In addition, the shape of the water supply pipe 804 introduced into the purification vessel 800 and the passing rate of the sea water flowing through the water supply pipe 804 can be changed as many configurations and discharged through the partition 801 of the purification vessel 800. Since the size and passage ratio of the discharge pipe 805 can be changed as much as possible, it is natural that such a design change also falls within the scope of the present invention.

[Example 20]

33 is a side cross-sectional view of a fresh water or sea water purification device according to a twentieth embodiment of the present invention.

The twentieth embodiment of the present invention is to extract the organic material contained in the fresh water or the seawater flowing into the clarification container 900 to utilize as an energy source. In the interior, a plurality of partitions 901 are spaced apart from the bottom at regular intervals so that the space between the partitions 901 forms a separation chamber 902, respectively, a plurality of partitions 902 on each of the rotating shafts Each of the propellers 903 provided with propellers are installed in the vertical direction, and both side walls of the separation chamber of the purification vessel 900 are formed lower than the height of each partition 901, so that the material explosive action, the material cutting action, the specific gravity and the gravity The discharge portion 906 is formed so that the organic substances generated by the action of the overflow flows to the outside of the purification vessel 900, the organic material discharged through the discharge portion 906 in the lower portion of the purification vessel 900 or The water supply pipe 904 for supplying fresh water or sea water is configured to support the collection container 907 for receiving the upper layer water including the same, and enters from the top of the outermost separation chamber 902 in the separation chamber 902 and ends thereof. Is located in the lower part of the outermost separation chamber 902, and the discharge valve 905a to discharge the purified water through the purification tank 900 in the lower portion of the separation chamber 902 opposite the position of the water supply pipe 904 It is configured to connect the discharge pipe (905).

In this state, the discharge water flowing through the stream water, the lake water, the sewage treatment plant containing contaminants and organic substances through the water supply pipe 904 coupled with the purification tank 900, or the purified water or the waste water or the life of the plant On land, in liquid, consisting of fresh water consisting of leachate from sewage or waste disposal from residential facilities, or water consisting of leachate from mines or other pollutant molecules, and 100wt% of seawater, including organic matter or salt from the sea. Continuously supply liquids consisting of fresh water, liquids consisting of sea water, or liquids made by mixing fresh water and sea water to react with substances contained in liquids of fresh water and sea water. Supply to the inside of the purification tank 900 of the Is there.Aye continuous strike through the striking device 903, the position of each liquid separation chamber 902.

Through the process of continuously striking the liquid, pollutant molecules or seawater molecules, pollutant molecules, and salt molecules that are combined with the pure water molecules that make up the liquid are separated by naturally occurring material separation. Liquids that make up pollutant molecules with low specific gravity or liquid molecules that make up salts move to the upper part of the purification vessel 900, and liquid molecules that make up clean water with high specific gravity are liquids that form light pollutant molecules with low specific gravity. Alternatively, the separation chamber of the purification vessel 900 configured in the next step through the lower end of the separation chamber 902 configured in the purification vessel 900 in a state in which the liquid molecules forming the salt are pushed up to the upper layer side of the purification vessel 900 ( 902 the liquid to force a material indentation to move between The feed is continuous.

In addition, the liquid constituting the heavy, clean, pure water molecules produced through the above process is sequentially moved to the partition 901 of the next step and the next step through the bottom of the partition 901 of each separation chamber 902. The liquid is supplied continuously so that the process of making it occur continuously.

Then, only the liquids that make up the pure and heavy specific water molecules are automatically moved to the separation chamber 902 space which is configured in each next step by the material cutting action, the material pushing action, the action of gravity and the action of buoyancy. Through the process of supplying them continuously, the liquid molecules that make up the relatively light pollutants or the liquid molecules that make up the salt are separated into the separate chambers by the action of gravity, the action of specific gravity, the material cutting action and the material pushing action. 902, which is continuously pushed up by liquid molecules forming salts or liquid molecules forming another contaminant, which are continuously pushed to clean heavy water molecules with herpes on the upper layer. The outside of the purification vessel 900 through the discharge portion 906 formed in the upper layer of the purification vessel While this process is discharged continuously to blow to occur repeatedly in the separating chamber (902) consisting of each of the partition 901 it is continuously supplied the liquid.

In addition, 0.001wt in the liquid consisting of the remaining water other than the discharged water through the method of discharging only 95wt% ~ 99.999wt% of the total supply water from the ratio of 100wt% of the liquid forming the feed water through the discharge pipe 905 The discharge valve 905a is adjusted so that% to 5wt% flows to the outside of the purification vessel 900 through both side discharge portions 906 of the separation chamber 902 configured in the purification vessel 900, and a discharge control process is performed. Through the collection container 907, the organic matter, contaminants, or supernatant containing the same contained in the liquid molecules forming the contaminated fresh water flowing out to the outside of the clarification container 900 or the liquid molecules forming the sea water are collected.

Among the organic substances contained in the collection container 907, the contaminants or the upper water containing the same, only the organic substances collected in the upper portion of the container by the action of gravity and buoyancy are extracted and used as energy, or the extracted organic substances are petroleum. Alternatively, it can be mixed with other energy sources and used as energy.

1 is a perspective view of a water purification device according to a first embodiment of the present invention.

2 is a side cross-sectional view of a water purification device according to a first embodiment of the present invention.

3 is a perspective view of a catching net applied to the first embodiment of the present invention.

Figure 4 is a side cross-sectional view of a water purification device according to a second embodiment of the present invention.

5 is a side cross-sectional view of a water purification device according to a third embodiment of the present invention.

6 is a side cross-sectional view of a state in which the volume of each space of the water purifying apparatus according to the fourth embodiment of the present invention is maximized.

Figure 7 is a side cross-sectional view of a state in which the volume of each space of the water purification apparatus according to the fourth embodiment of the present invention is minimized.

8 is a side cross-sectional view of a state in which the volume of each space of the water purifying apparatus according to the fifth embodiment of the present invention is maximized.

9 is a side cross-sectional view of a state in which the volume of each space of the water purification apparatus according to the fifth embodiment of the present invention is minimized.

10 is a side cross-sectional view of a water purification device according to a sixth embodiment of the present invention.

11 is a top sectional front view of the water purification apparatus according to the seventh embodiment of the present invention.

12 is a side cross-sectional view of a water purification apparatus according to an eighth embodiment of the present invention.

13 is a plan sectional view of a water purification apparatus according to an eighth embodiment of the present invention.

14 is a perspective view of a fish tank according to a ninth embodiment of the present invention;

15 is a sectional view of a fish tank according to a ninth embodiment of the present invention;

16 is a perspective view of the water storage structure according to the tenth embodiment of the present invention.

17 is a cross-sectional view of the reservoir structure according to the tenth embodiment of the present invention.

18 is a perspective view of the water storage structure according to the eleventh embodiment of the present invention.

19 is a cross-sectional view of the reservoir structure according to the eleventh embodiment of the present invention.

20 is a perspective view of a storage tank according to a twelfth embodiment of the present invention.

21 is a cross-sectional view of the storage tank according to the twelfth embodiment of the present invention.

22 is a plan view of a lake according to a thirteenth embodiment of the present invention;

FIG. 23 is a cross-sectional view taken along the line A-A of FIG. 22;

24 is a plan view of a lake according to a fourteenth embodiment of the present invention.

25 is a cross-sectional view taken along the line B-B in FIG. 24;

26 is a plan view of a lake according to a fifteenth embodiment of the present invention;

27 is a side cross-sectional view of a brine purification device according to a sixteenth embodiment of the present invention.

28 is a perspective view of a purifier according to a seventeenth embodiment of the present invention.

29 is a side sectional view of a salt water purifying apparatus and a salt field according to a seventeenth embodiment of the present invention;

30 is a perspective view of a purification container applied to an eighteenth embodiment of the present invention.

31 is an exemplary view illustrating an installation state of an apparatus for separating pure water from seawater according to an eighteenth embodiment of the present invention.

32 is a side cross-sectional view of a seawater purification apparatus according to a nineteenth embodiment of the present invention.

33 is a side sectional view of a fresh water or seawater purification device according to a twentieth embodiment of the present invention;

*** Explanation of symbols for the main parts of the drawing ***

10,800,900: Purification container 11: Drain hole 12: Slope plate

13,31 guide 14: support jaw

15,15a, 15b, 15c, 61,105,210,605,605 ', 705,805,905: discharge pipe

16: base plate 17: water channel 18: water pipe

20,101,601,601 ', 701,801,901: Partition 21,201,301: Outlet

22: heating wire or heating tube 23, 23 ': operating rod 24, 24': forward and backward means

25,25 ': hinge 26: lift means 27: support

30: control panel 41: operation cylinder 42: piston rod

50: reservoir 62,107,606,606 ', 706,804,904: water supply pipe

70: strainer 80: propeller 81: air compressor

82: air injector 83: pollutant container 84: sewage pipe

91,108,607,607 ': Drainage pipe 92: Bypass waterway 100: Fish tank

102: wide space 103: narrow space 104,211,604,604 ': pump

106: packing member 200,300: partition wall 310: water gate

320: sewage collection basket 400: mixing container 500: salt pan

600,600 ': Storage structure 602,602,702: Storage space

603,603 ', 703: Separation space 608', 708,806,906: Outlet

700: Storage tank 705a, 805a, 905a: Outlet valve 802,902: Separation chamber

803,903: Strike device 907: Collection container

Claims (19)

In the method of purifying water or purifying sea water, The bottom part of the downspout constitutes a septic tank, and inside the septic tank, multiple partitions each having outlets are formed at equal intervals at equal intervals, and at the bottom of the septic tank, form a drainage hole, and ascend and descend the opening degree. Positioning the control plate for adjusting the front of the drain, the upper portion of the control plate is connected to the piston rod front end of the working cylinder fixed to the purification vessel, the bottom of the drain is located in the reservoir having a discharge pipe, the Locating a water supply pipe at an upper portion opposite to a drain opening position, and locating the filter net in a space formed between the clarification vessel and the partition or between the partitions so as to be able to insert and remove the strainer; Continuously supplying water to the inside of the purifying container through the water supply pipe and continuously discharging water through the drain hole; The contaminated water having a low specific gravity by the gravity of the watered water is positioned as it is in the upper layer of the space formed between the purification vessel and the partition or between each partition, and only relatively clean water is discharged through each of the outlet and the drain. A method for purifying contaminated water naturally or purifying seawater using partitions, characterized in that the contaminated water is purified through a process of passing through. In the method of purifying water or purifying sea water, Comprising a purification tank to have a long length in the vertical direction, and fixed to each of the inclined plate in a zigzag shape to be inclined downward to the purification container, each of the inclined plate is provided with multiple stages with equally spaced partitions each having a discharge port formed on the lower side, Positioning a water supply pipe at an upper end of the septic tank, forming a lower reservoir of the septic tank, and connecting the drainage pipe to a lower sidewall of the septic tank to form the septic tank; Continuously supplying water through the water supply pipe and simultaneously discharging water through the drain pipe; The contaminated water having a low specific gravity due to gravity among the water supplied is placed in the upper layer of the space formed between the clarifier and the partition or between the partitions, and only relatively clean water is discharged through the outlet and the drain pipe. A method for purifying contaminated water naturally or purifying seawater using partitions, characterized in that the contaminated water is purified through a process of passing through. The method according to claim 1 or 2, In the space formed between the purification vessel and the partition or between the partitions, a propeller is installed and rotated to generate a material friction action, and the pollutants contained in the water are operated using the process of operating the propeller. Forcibly floated by the action of; The drain pipe is connected to the side of the space formed between the purification vessel and the partition or between the partitions, and a bypass sewer pipe is connected to the lower portion of the discharge portion of the drain pipe, which is generated while aeration occurs by the frictional action of the generated material. A method of purifying contaminated water or purification of seawater using partitions, characterized in that it further comprises the step of discharging floating material bubbles to the sewage treatment plant through the drain pipe and the bypass sewer pipe. The method of claim 3, wherein The drain pipe is connected to the side of the space formed between the purification vessel and the partition or between the partitions, and a bypass channel is connected to a lower portion of the discharge portion of the drain pipe, and the water supply portion of the water supply pipe is at least the purification tank and the partition. Pollution using partitions, further comprising the step of immersing up to 1/3 of the space to make up the discharge of suspended solids or pollutants in the upper layer of each space when the water is higher than the drain pipe To cleanse purified water naturally or to purify sea water. The method according to claim 1 or 2, Propellers are installed downwards in the middle of the space formed between the purification vessel and the partitions or between the partitions and rotated to generate aeration due to a frictional action and at the same time connect the air compressor with the air compressor. A pipe is inserted in a watertight manner from the lower part of the space formed between the purification vessel and the partition or between the partitions, and the discharge part is disposed at the lower part of each propeller to contaminate the contaminants bound to the water molecules. Transforming contaminants and water molecules bound into the water molecules into ultra-fine particles by the rotational force of and the frictional forces of the air generated by the air compressor; Water molecules having a high specific gravity through the above process are naturally moved to the lower part of the septic tank consisting of multiple stages by the action of gravity and buoyancy; Lightly contaminants released from the water molecules by the friction action of the material naturally float toward the upper part of the septic tank by the action of gravity and buoyancy, and the lightly contaminants that are continuously pushed up are removed from the material. Overflowing to the outside of each of the purification vessels by pushing the material pushing action; Collecting water containing the overflowed pollutant and sending it to a sewer pipe; Naturally purifying contaminated water or purifying seawater using a partition, characterized in that further comprising the step of treating the water containing pollutants collected through the above process in the sewage treatment plant. The method according to claim 1 or 2, The lower end of each partition is rotatably connected to the purifying container, the upper end of each partition is connected to one operating rod, and one end of the operating rod is connected to the forward and backward means for advancing the operating rod forward and backward. The space volume between the partitions is changed according to the forward and backward motion of the forward and backward means, and the water level is changed in the space between the partitions according to the change of the space volume between the partitions, so that the vortex is generated. Separating the contaminant from the water by the method of using a partition, characterized in that to naturally purify the contaminated water or to purified sea water. The method according to claim 1 or 2, At each partition lower portion of the purification container, each support jaw is formed to have the same thickness as that of the partition, and each partition is positioned at an upper portion with a predetermined distance from the support jaw, so that the space therebetween forms an outlet. The upper one side of each partition is rotatably connected to each hinge, the upper end of each partition is connected to one operating rod, respectively, one end of the operating rod is connected to the forward and backward means for advancing the operating rod By changing the volume of the space between the partitions according to the forward and backward movement of the forward and backward means, and changing the water level in the space between the partitions in accordance with the change of the volume of the space between the partitions, such that The partition further comprises the step of separating the contaminants from the water by the vortex. The method of purification or purified seawater contaminated water naturally. The method according to claim 1 or 2, Guides are formed at each partition contact portion of the container, and each of the guides is inserted into the partitions so that the partitions can be lifted and lowered so that a space between the lower end of the partition and the bottom of the container forms an outlet. By connecting the elevating means to the upper portion to cause the vortex generated by the difference in the discharge rate of the water according to the size change of the outlet, using the partition, characterized in that further comprising the step of separating the pollutants from the water by the vortex To naturally clean up contaminated water or to purify seawater. The method according to claim 1 or 2, A mixing tank is connected to the water supply pipe, and the salt water is continuously supplied to the mixing tank through the water supply pipe in a state in which the salt and water are added at a ratio of 1: 2 to 5 based on the weight and completely dissolved. At the same time, the contaminants with a low specific gravity contained in the brine are discharged through the drains at the same time so as to be shrouded in the upper layer of the brine and gradually decomposed and decomposed into fine particles, and only the clean salt water with a heavy gravity passes through the respective outlets and drains. Method for purifying the contaminated water naturally or purified sea water using partitions, characterized in that to clean the salt as possible. In the method of purifying water or purifying sea water, A fish tank containing water therein to raise fish is asymmetrically divided through a partition, and the lower part of the partition is formed to be spaced apart from the bottom so that the divided side spaces communicate with each other, and a relatively wide space among the spaces of the fish tank. A pump is installed at the lower end of the pump, one end penetrates the fishbowl and is connected to the pump, and the other end is installed inward from a relatively narrow space upper portion of the fishbowl to be located in the lower portion of the narrow space. Arranging a water supply pipe in an upper portion of the relatively wide space of the fish tank, and connecting the drain pipe to an upper side of the relatively narrow space of the fish tank to form the fish tank; Discharging water on a relatively wide space side of the fish tank into a relatively narrow space side through the discharge pipe; Pure water molecules and contaminant molecules are separated from each other by the material friction and material explosive action generated in the above process, so that the pure water molecules move to a relatively wide space through the lower end of the partition to be horizontal. Purifying the water quality by moving the pollutant molecules to the upper part of the relatively narrow space; Naturally removing the contaminated water by using a partition, characterized in that it comprises the step of discharging the contaminant while draining the upper water of the relatively narrow space of the fish tank through the drain pipe while supplying water through the water supply pipe How to cleanse or purify sea water. In the method of purifying water or purifying sea water, A separation space is formed on one side of the storage space of the selected storage structure among the swimming pool, fish farm, pond, and aquarium through a partition, and the lower part of the partition is spaced apart from the bottom to communicate with the storage space and the separation space, and has a pump. A discharge pipe is provided so that one end is immersed in the storage space and the other end enters inward from the upper portion of the separation space so as to be located in the lower portion of the separation space. Connecting the drain pipe to an upper side to configure the water storage structure; Discharging water in the storage space through the discharge pipe to an upper portion of the separation space; Pure water molecules and pollutant molecules are separated from each other by the material friction action and the material explosion action generated in the above process, so that the pure water molecules move to the reservoir through the bottom of the partition to be horizontal and at the same time contaminated. Purifying water quality by allowing material molecules to be moved to an upper portion of the separation space; Naturally purifying the contaminated water by using a partition, characterized in that it comprises the step of discharging the contaminant while discharging the upper layer water of the separation space through the water supply pipe while supplying water through the water supply pipe. How to refine. The method of claim 11, A plurality of partitions are provided to be spaced apart from the bottom of the water storage structure at regular intervals so that water flows stepwise into separate separation spaces naturally formed between the partitions, and both side walls between the partitions Naturally contaminated water by using a partition, characterized in that it further comprises the step of forming a discharge portion formed lower than that of the other parts so that the upper water is overflowed to remove foreign substances while the upper water is discharged through the discharge portion. To cleanse or purify seawater. In the method of purifying water or purifying sea water, A plurality of partitions are installed at one side of the storage space of the rectangular water storage tank at regular intervals to form a separation space between the partitions, and an end of the water supply pipe enters inward from the upper part of the outermost separation space of the separation space. It is located in the inner lower portion of the outer separation space, each partition is formed from the bottom of the water storage tank so that the storage space and the separation space communicate with each other, the lower portion opposite the water supply position so as to communicate with the lower end of the storage space Connecting a discharge pipe having a discharge valve, and forming a water storage tank by forming a discharge part having a height lower than that of other parts so as to overflow the upper water on both side walls between the partitions; Supplying water into the water storage tank through the water supply pipe; In the above process, pure water molecules and pollutant molecules are separated from each other by the material friction action and the material explosion action caused by the drop, and the pure water moves to the separation space of the next step sequentially through the lower part of each partition. And contaminants contained in the water at the same time as herpes to the upper layer of each separation space; The upper water of each separation space is to be removed by overflowing to the outside through the discharge portion, the partition comprising a step of allowing the pure water to be stored by moving to the storage space through the lower end of each partition. To purify contaminated water naturally or to purify seawater. In the method of purifying water or purifying sea water, The partition wall is divided into two sections in the longitudinal direction by constructing a partition wall along the water inflow direction flowing into the reservoir of a predetermined size, and the partition wall is formed at a predetermined interval in a state in which a discharge port is formed over the entire width of the shear surface on the lower side. Constructing a plurality of discharge pipes each having a pump so that a double construction, a lower end is located between each partition wall, and an upper end is located at the storage space side beyond the partition wall; Pumping water near the bottom of the water located between the partition walls through the respective discharge pipes according to the driving of the pumps to generate aeration while discharging to the storage space side beyond the partition walls, respectively; Due to the aeration of the process, the pointed ends of the fine particles of the material molecules contained in the discharged water and the pointed ends of the fine particles of the water molecules, which always maintain the molecular structure of the water, collide with each other, causing material friction action. The process of decomposing the contaminant's molecular structures, which are combined with the contaminant components and the water molecule's molecular structure, into smaller particles, gradually disappearing and purifying contaminants associated with the water components. A method for purifying contaminated water or purifying seawater by using partitions. In the method of purifying water or purifying sea water, At least one partition wall having an outlet at a lower portion perpendicular to the water inflow direction is formed at an upper water inflow portion of a reservoir of a predetermined size, and a water gate is provided at the water inflow direction side of the partition wall located at the top of each partition wall. Installing the over the full width of the shear surface of the reservoir; Allowing stream water to which contaminants are bound to flow from upstream by a material binding action; Purifying the contaminated water quality by a material separation action in which contaminants are naturally separated from clean water molecules by the action of gravity and specific gravity while the introduced river water hits the partition wall at the uppermost side; Lightly contaminants released from the clean water molecules are moved to the upper part of the partition wall by the action of gravity, and clean water with heavier specific gravity is moved downstream through the outlet formed at the lower part of the partition wall. Natural purification of the water contaminated by natural action into clean water; The natural segregation of contaminant molecules in the water is broken down by ultra-fine particles by the segregation action that occurs naturally when the river water passes through the outlet formed in the partition wall and the material friction action that occurs when the material molecules and the material molecules collide with each other. Naturally purifying the water contaminated by the action; A process of dredging and removing foreign substances or sedimentation sludge contained in the river water by stacking them below the outlet of the partition wall; The lower portion between each partition wall is provided with a sewage sludge collection basket to periodically lift the sewage sludge collection basket to remove the sewage sludge contained therein. To cleanse or purify seawater. In the method of purifying water or purifying sea water, The bottom of the downspout constitutes a septic tank, and inside the septic tank, partitions each having outlets formed on one lower side thereof are provided in multiple stages at equal intervals, and a drainage outlet is formed at the lowermost side of the septic tank, A control plate for adjusting the opening degree is located in front of the drain port, and the upper part of the control plate is connected to the piston rod tip of the operation cylinder fixed to the purification vessel, the water supply pipe for supplying seawater is inward from the upper side opposite the drain hole position of the purification vessel And the end thereof is positioned in the lower part opposite the drainage position of the septic tank, and the propeller for forced aeration is placed in a space formed between the septic tank and the partition or between the partitions. Each of them and the top of the The process of forming each of the discharge pipe for discharging the upper layer water; In the outer lower portion of the drain hole is located in the space formed between the clarifier and the partition or between each partition while the salt-producing salt field is located to continuously supply the sea water through the water supply pipe and continuously discharged through the drain port. Rotating each of the propellers; Through the above process, molecules other than the seawater component combined with the material molecules forming the seawater move material molecules having a light specific gravity to the upper part of each space of the septic tank by the action of specific gravity and gravity. Separating the heavy waters from the pollutants by moving them to the lower floors of each space of the purification vessels; The method for purifying the contaminated water naturally or purifying the sea water using the partition, characterized in that it comprises the step of supplying only the clean sea water of the separated specific gravity to the salt water salt to produce a cleaner state of the salt water. In the method of purifying water or purifying sea water, The bottom part of the septic tank is configured to be inclined, and inside the septic tank, partitions each having outlets formed on one lower side thereof are provided in multiple stages at equal intervals. A control plate for adjusting the degree is located in front of the drain hole, and the upper part of the control plate is connected to the piston rod front end of the operation cylinder fixed to the purification vessel, the water supply pipe for supplying sea water from the upper side opposite the drain hole position of the purification vessel inward And the end thereof is positioned in the lower portion opposite to the drain hole position of the septic tank, and the propeller for forced aeration is placed in a space formed between the septic tank and the partition or between the partitions. Each one on top of the sump A multi-stage discharge pipe for discharging the suspended matter or the upper water is formed for each space of the septic tank, and a propeller is placed in a space formed between the septic tank and the partition or between the partitions, respectively. Installing an inclined support plate for receiving water discharged through each discharge pipe; Arranging at least 2 to 10 continuous purification vessels; A step of continuously injecting seawater through the water supply pipes, each having a water supply pipe for introducing the water received through the support plate back to the upper part of the other water supply tanks between the purification pipes; Rotating each of the propellers to generate a material explosion that acts to release other material molecules bound to the seawater molecules from the seawater molecules; Through this process, light pollutants combined with the material molecules that make up seawater, pure water molecules, and light water molecules and pure water molecules are generated by the action of specific gravity and gravity. Moving seawater to the upper portion of the vessel and at the same time allowing heavy water to move naturally to the lower portion of the vessel; The heavy water collected in the lower part of the septic tank is supplied to the saltwater through the outlet and drain holes formed in the lower tier of the septic tank, or continuously discharged to the sea, and the water containing contaminants is discharged to the outside through the upper discharge pipe. Discarding; Pure water having a low specific gravity is discharged through discharge pipes disposed below the discharge pipe at the uppermost side of the discharge pipe and collected through a support plate configured at the outside of the purification tank; Supplying the pure water collected by the support plate into another purification container having the same structure as the purification container through a water supply pipe, and continuously repeating the operation 2 to 10 times according to the installation step of the purification container; Through the above process, the process includes collecting the pure water beneficial to industry, agriculture, or human from the water molecules contained in the sea water and supplying it to the consumer group through the water pipe. How to purify water naturally or purify sea water. In the method of purifying water or purifying sea water, Comprising a container in the shape of the enclosure, the interior of the container, a plurality of partitions are installed at regular intervals spaced apart from the bottom to configure the space between each partition to form a separate chamber, each of the separation chamber is a rotating shaft Each of the hitting device is composed of a plurality of propellers installed in the vertical direction, and the water supply pipe configured to allow fresh water or sea water to pass at a rate of 100wt% enters inward from the top of the outermost separation chamber among the separation chambers, and an end thereof is It is located in the inner bottom of the outermost separation chamber, and in the lower part of the separation chamber opposite the position of the water supply pipe constitutes a discharge pipe coupled with the discharge valve to discharge 10 to 95wt% of fresh water or seawater introduced through the water supply pipe. Each side wall of each of the partitions is configured to be lower than the height of each partition to form a discharge part. The process of sung; Supplying fresh water or seawater at a rate of 100wt% to a clarification tank consisting of the plurality of partitions through the water supply pipe; Striking fresh water or sea water, which is constantly supplied to the plurality of purification vessels, through the striking devices located in the respective separation chambers; Liquid molecules combined with contaminants combined with pure water molecules or liquid molecules forming seawater, liquid molecules combined with contaminants, and salts with salt by the material separation action naturally occurring through the above blow process. As they are separated from each other, the liquid and salt molecules combined with the lighter pollutants by the action of gravity and buoyancy move to the upper part of the container and at the same time, the liquids that make up the heavy water molecules are A material cutting action is forcibly generated to move light pollutant molecules or salt-forming liquid molecules to the upper side of the container, and to move between the partitions of the container configured in the next step through the lower part of the container. Fresh water or bar to The process of continuously supplying water to the cleaning column, and; Through the above process, only the clean and pure water molecules with heavy gravity are moved relatively to the partition space formed in each next step by the material cutting action, the material rolling action, the gravity action and the buoyancy action. As such, liquid molecules that form pollutant molecules with low specific gravity or liquid molecules that form salt are overflowed by the action of mass rolling, crushing, gravity and the action of gravity in the state of herpes at the upper part of each separation chamber. The process of being discharged to the outside through the discharge portion formed in the upper side wall of the septic tank while being pushed up by the liquid molecules forming the contaminant or the salt forming liquid occurs repeatedly in the separation chamber composed of the respective partitions. , Discharged to the outside of the container through the above process The process are held to flow back into the ocean waters are fresh water, including liquid molecules constituting the flow and or salt enters the sewage treatment plant or a liquid stream containing molecules forming the contaminants and; Collecting and discharging liquids forming pure water molecules flowing through the partitions formed in the final part of the container through the discharge pipe formed in the final partition of the container; Collecting the pure water molecules collected through the continuous process and using the partitions, characterized in that the process of using as drinking water, industrial water or domestic water or agricultural water, a method for naturally purifying contaminated water or purification of seawater using a partition . In the method of purifying water or purifying sea water, Comprising a container in the shape of the enclosure, the interior of the container, a plurality of partitions are provided at regular intervals spaced apart from the bottom so that the space between the partitions to form a separate chamber, each of the plurality of partitions on the axis of rotation Installing the striking device in which the propeller is installed in the vertical direction; Both side walls of the separation chamber of the container can be formed lower than the height of each partition to form a discharge portion so that the organic materials generated by the material explosion action, material scraping action and the action of specific gravity and gravity flows to the outside of the container, A process of supporting the collection container for receiving the organic material discharged through the discharge part or the upper water including the same, in the lower part of the purifying container; The water supply pipe for supplying fresh water or sea water enters from the top of the outermost separation chamber among the separation chambers so that its end portion is positioned inside the lower part of the outermost separation chamber, and through the purifying tank at the bottom of the separation chamber opposite to the water supply pipe position. Connecting a discharge pipe having a discharge valve to discharge purified pure water; Water discharged from the stream, lake water, sewage treatment plant containing contaminants and organic substances through the water supply pipe combined with the clarification tank, or the sewage or waste treatment plant from the waste water of the purified water plant or the wastewater of the factory or living house Liquid consisting of fresh water from land, or liquid consisting of water consisting of leachate or other pollutant molecules from mines and 100 wt% of seawater, including organic matter or salt from sea. Continuously supplying the liquids or supplying liquids consisting of sea water, or continuously supplying a liquid made by mixing fresh water and sea water to react materials contained in the fresh water and the liquids of the sea water; Continuously striking the liquids which are constantly supplied into the plurality of purification vessels through the striking devices located in the respective separation chambers; The contaminant molecules or seawater molecules, pollutant molecules, and salt molecules, which are combined with the pure water molecules forming the liquid, are separated by a natural separation process through the process of continuously striking the liquid. By virtue of its action, liquids or salts that form lightly contaminant molecules are transferred to the upper part of the vessel, while liquid molecules that make up clean water with high specific gravity produce liquids or salts that form lightly contaminant molecules. In order to forcibly generate a material cutting action that causes the liquid molecules to be moved between the separation chambers of the purification vessel configured in the next step through the lower ends of the separation chambers respectively configured in the purification vessel while pushing the liquid molecules to the upper layer side of the purification vessel. Liquids Continuous feeding process; The liquids that make up the clean and pure water molecules with heavy specific gravity produced through the above processes continue to move continuously through the lower part of each partition partition to sequentially move to the next step and the partition of the next step. Supplying them; Only liquids consisting of clean and pure water molecules with a high specific gravity continuously supply liquids to be automatically moved to the separation chamber spaces which are configured in the next stage by the action of mass cutting, material rolling, gravity and buoyancy. Through the process, liquid molecules that form relatively light pollutants or liquid molecules that form salts are deposited on the upper part of each separation chamber by the action of gravity, the action of specific gravity, the material cutting action and the material rolling action. Emissions formed in the upper part of the septic tank by material thrusts, which are continuously pushed by liquid molecules that form another contaminant or salts that are pushed continuously by clean water molecules that are heavy in gravity. The process of being discharged to the outside of the Continuously striking and repeatedly supplying liquids so as to repeatedly occur in a separation chamber composed of the respective partitions; From 0.001wt% to 5wt% of the liquid forming the remaining water other than the discharged water through the method of discharging only 95wt% ~ 99.999wt% of the total supply water from the ratio of 100wt% of the liquid forming the feed water through the discharge pipe. Adjusting a discharge valve to overflow to the outside of the container through both discharge parts of the separation chamber configured in the container; Collecting and collecting the organic matter, contaminants, or supernatant water containing the same, contained in the liquid molecules forming the contaminated fresh water or the liquid molecules forming the sea water flowing out of the septic tank through the discharge control process; ; Among the organic substances contained in the collection container, pollutants or upper water containing the same, only the organic substances collected in the upper portion of the container by the action of gravity and buoyancy are extracted and used as energy, or the extracted organic substances are used as petroleum or A method for naturally purifying contaminated water or purifying seawater using partitions, comprising mixing with other energy sources to utilize energy.

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