KR20120135983A - Magnetization water treatment apparatus - Google Patents

Abstract

PURPOSE: A magnetized water processing unit for industrial use is provided to maximize generation efficiency of the magnetized water by smoothly concentrating magnetism to the inside of water circulation and to actualize excellent efficiency of the magnetic treatment as magnetism is supplied for hours with water that circulates magnetic force owing to the sequential arrangement of the permanent magnet in the a direction of water circulation. CONSTITUTION: An industrial magnetized water processing unit comprises a body(100); a magnetic force generation part; a magnetic force shield part(300); case(400); germanium activated charcoal(500). The magnetic force generation part includes the first magnetism portion(210), the second magnetism portion(220), the third magnetism portion and the fourth. The first magnetism portion is positioned above the central tube. The second magnetic force generation part is located below the central pipe in the opposite direction of the first magnetic force part. The third magnetic force generation part is located on one side of the central tube. The fourth magnetism portion is located in the other side of the central tube to face the third magnetism portion. The first, second, third and fourth magnetism portion consist of multiple permanent magnet respectively. The permanent magnets from the first and second magnetism portion with opposed direction are formed to face the same pole. The permanent magnets from the third and fourth magnetism portion with opposed direction are formed to face the different pole. The magnetic force shield part blocks the leakage loss of magnetic force to outside emitted from the magnetic force generation part to make the magnetic force emitted from the magnetic force generation part to be converged to the central tube. The germanium activated charcoal is embedded inside of case in order to fix the position of the magnetic force generation part and the magnetic shield part and to provide anion to the central pipe.

Description

Magnetic water treatment apparatus for industrial use

The present invention relates to an industrial magnetic water treatment apparatus, and more particularly, to prevent the magnetic force of the permanent magnet from leaking to the outside due to the magnetic shielding portion so that the magnetic force is smoothly concentrated inside the water circulation, thereby improving the efficiency of the magnetized water generation In addition to maximizing, due to the structure in which a plurality of permanent magnets are sequentially disposed in the direction in which the water flows, it is related to an industrial magnetized water treatment apparatus that can be expected to provide excellent magnetic water treatment efficiency by providing a magnetic force for a long time.

Typically, water is a combination of two hydrogen atoms and one oxygen atom, and as the temperature increases, a five-chain or pentagonal ring is formed, and as the temperature decreases, the hexagonal ring increases. It is known that water constituting the hexagonal ring-shaped molecular structure, that is, hexagonal water, has a large heat capacity and is well suited to improve life function of living organisms by being well matched with other biomolecules.

Such hexagonal water is obtained by cooling the water according to a decrease in temperature, but this is not used due to energy loss and insufficient effect, and mostly uses a magnetized water activator using permanent magnets.

The magnetization water activator is a magnetized water having a weak alkaline hexagonal structure rich in minerals by ion-activating the molecular structure of water when water is passed through the magnetic field of the magnet. The magnetization water treatment apparatus using such a magnet has a large amount of magnetization water in a short time. It is widely used in many fields such as food factories, baths, livestock and plant cultivation as well as living water in apartment complexes.

However, since the conventional industrial magnetic water treatment device does not have a separate means for shielding the magnetic force, since the magnetic force is lost to the outside, the magnetic force is not concentrated inside the water circulation, there is a problem that the efficiency of generating the magnetized water is low.

In order to solve the above problems, "Korea Patent Registration No. 10-0521075 (magnetized water treatment device)" has been developed and proposed, but this is a blocking plate for concentrating the magnetic force inside the water distribution to shield the magnetic force of the magnet Since it is formed only on both sides, there is a problem that the magnetic force is still lost in the upper direction, the front and the rear direction of the magnet, so that the efficiency of the magnetized water treatment is low.

In addition, the conventional magnetized water treatment device is a product that most of the expectation of the magnetized water treatment by relying only on the magnetic force of the permanent magnet, there is a problem that the efficiency of the treatment of the magnetized water is somewhat low to change the water to magnetized water only by the magnetic force emitted from the permanent magnet.

In addition, the conventional magnetized water treatment device has a problem in that the magnetized water treatment performance by magnetic force is remarkably different depending on the polarity arrangement and arrangement of the permanent magnets, but there is no mention of this, and it is not even implied.

In addition, as the interest in magnetized water is gradually increased due to the effect of the above-described magnetized water, the development of an industrial magnetized water treatment apparatus having higher magnetization water generation efficiency and excellent function of the industrial magnetized water treatment apparatus is urgently needed.

The present invention has been proposed to solve the above-mentioned problems, the purpose of which is to prevent the magnetic force of the permanent magnet from leaking to the outside due to the magnetic shielding so that the magnetic force is smoothly concentrated inside the water circulation, In addition to maximizing the efficiency of magnetized water generation, due to the structure in which a plurality of permanent magnets are sequentially disposed in the direction in which water is distributed, magnetic force is provided for a long time to provide an industrial magnetized water treatment device that can expect excellent magnetized water treatment efficiency. Is in.

In addition, it is to provide an industrial magnetized water treatment apparatus that can maximize the magnetization water treatment efficiency by the magnetic force by precisely setting the polarity arrangement and arrangement of the permanent magnets.

In addition to the treatment of magnetized water by the magnetic force of permanent magnets, the provision of far-infrared rays by carbon and anion by germanium activated carbon not only enhances the efficiency of the treatment of magnetized water, but also improves the physical properties of the magnetized water, thereby further aiding the life functions of living organisms. An object of the present invention is to provide an industrial magnetized water treatment apparatus.

Industrial magnetized water treatment apparatus according to the present invention for achieving the above object is connected to the water pipe through which the water is circulated on both sides is formed a connection tube is formed inside the vortex-shaped wing, the center has a rectangular pillar shape through A center tube is formed so that the connecting tube and the center tube are in internal communication with each other; and a first magnetic force portion located at an upper portion of the center tube and the lower portion of the center tube to face the first magnetic force portion. The second magnetic portion is located, the third magnetic portion is located on one side of the center tube, and the fourth magnetic portion is located on the other side of the center tube to face the third magnetic portion, the first , 2, 3 and 4 magnetic parts are each composed of a plurality of permanent magnets, the permanent magnets of the first and second magnetic parts facing each other are formed so that the same poles face each other, the permanent of the third and fourth magnetic parts facing each other Magnets The magnetic pole generating the opposite pole facing the center tube to provide a strong magnetic force to the central tube; and the magnetic force emitted from the magnetic force generating portion by blocking the magnetic force emitted from the magnetic force generation to the outside leakage loss; Magnetic shielding portion to be concentrated in the tube; And, the body and the magnetic force generating portion and the magnetic shielding portion to be embedded therein, both ends of the casing to expose the connection pipe of the body; and, built in the case magnetic It is characterized in that it comprises a; germanium activated carbon to provide a negative ion to the center tube while fixing the position of the generator and the magnetic shield.

Alternatively, the first magnetic force portion of the magnetic force generating portion is disposed at both ends of the rod-shaped permanent magnets having an N pole at the lower end, and between the rod-shaped permanent magnets four plate-shaped permanent magnets having the lower pole S is the body It is configured to be sequentially disposed in the direction in which water flows, the second magnetic portion facing the first magnetic portion is disposed at both ends of the rod-shaped permanent magnet having an upper pole N pole, rod-shaped permanent magnet Between the four plate-shaped permanent magnets having an S pole in the upper portion is configured to be sequentially arranged in the direction in which water flows into the body, the third magnetic portion of the magnetic force generating portion is the direction in which water flows into the body Thus, a plate-shaped permanent magnet having an N pole at the bottom adjacent to the outer circumferential surface of the center tube is a plate-shaped permanent magnet having a S pole at the bottom adjacent to the outer circumferential surface of the center tube. A plate-shaped permanent magnet having an N pole at the bottom adjacent to the outer circumferential surface of the tube is sequentially disposed, and a plate-shaped permanent magnet having an S pole at the bottom adjacent to the outer circumferential surface of the center tube is sequentially disposed, and the bottom has an N pole. On the left side of each of the plate-shaped permanent magnets, a rod-shaped permanent magnet having a bottom pole adjacent to the outer circumferential surface of the center tube is disposed, and on the right side of each of the plate-shaped permanent magnets having a bottom pole above the The bottom adjacent to the outer circumferential surface of the center tube is configured such that the rod-shaped permanent magnet having an N pole, the fourth magnetic force facing the third magnetic portion in the direction in which water flows into the body, the center The plate-shaped permanent magnet whose bottom is adjacent to the outer circumferential surface of the tube has an S pole, and the plate-shaped permanent magnet whose bottom is adjacent to the outer circumferential surface of the central tube is adjacent to the outer circumferential surface of the center tube. The plate-shaped permanent magnet having a S pole of the Doc, and the plate-shaped permanent magnet having the N pole at the bottom adjacent to the outer circumferential surface of the center tube are sequentially disposed, and the plate-shaped permanent magnet having the S pole at the bottom thereof. At each left side, a rod-shaped permanent magnet having an N pole at the bottom adjacent to the outer circumferential surface of the center tube is disposed, and at the right side of each of the plate-shaped permanent magnets having a N pole at the bottom adjacent to the outer peripheral surface of the center tube. It is characterized in that the bottom is configured to be arranged rod-shaped permanent magnet having an S pole.

In addition, the magnetic shield is disposed in the first magnetic portion and the second magnetic portion, respectively, having a "c" shape, the plate-shaped permanent magnets are built in, both ends of the rod-shaped permanent magnets are embedded A first shielding part including a first plate having a first insertion groove formed thereon, and a second plate positioned on both side surfaces of the first plate to prevent leakage of magnetic force emitted from the permanent magnet to the outside; The second magnetic part and the fourth magnetic part are respectively disposed, and have an "E" shape, and plate-shaped permanent magnets are embedded therein, and second inserts are inserted at both ends and a center of rod-shaped permanent magnets. And a second shielding part including a third plate having a groove formed thereon and a fourth plate positioned on both sides of the third plate to prevent leakage of magnetic force emitted from the permanent magnet to the outside. .

In addition, the magnetic force generating portion is located at both ends and the center of the first magnetic portion and the second magnetic portion, respectively, the first shielding plate of the nonmagnetic material for shielding the magnetic force, the third magnetic portion and the fourth magnetic force generation portion Located at both ends and the center of the magnetic force, respectively, characterized in that it further comprises a shielding plate including a second shield plate of the nonmagnetic material for shielding the magnetic force.

In addition, the four permanent magnets having a plate shape constituting the first magnetic force portion and the second magnetic force portion of the magnetic force generation portion is characterized in that the two permanent magnets are laminated is configured to induce a strong magnetic force is emitted.

In addition, a platinum plate made of platinum is formed between the magnetic shield and the shielding plate and the permanent magnets, respectively, and one or both sides of the platinum plate are formed with carbon plates emitting far infrared rays.

As described above, according to the industrial magnetized water treatment apparatus according to the present invention, the magnetic force of the permanent magnet is prevented from being leaked to the outside due to the magnetic shield so that the magnetic force is smoothly concentrated in the water circulation, thereby increasing the efficiency of the magnetized water generation. In addition to maximizing, due to the structure in which a plurality of permanent magnets are sequentially disposed in the direction in which water is distributed, magnetic force is provided as the water being distributed for a long time, and thus excellent magnetization water treatment efficiency can be expected.

In addition, it is possible to maximize the magnetization water treatment efficiency by the magnetic force by precisely setting the polar arrangement and arrangement of the permanent magnets.

In addition to the treatment of magnetized water by the magnetic force of permanent magnets, the provision of far-infrared rays by carbon and anion by germanium activated carbon not only enhances the efficiency of the treatment of magnetized water, but also improves the physical properties of the magnetized water, thereby further aiding the life functions of living organisms. This has the effect of making it possible.

1 is a perspective view of an industrial magnetic water treatment apparatus according to an embodiment of the present invention
Figure 2 is an exploded perspective view of the inner components of the case of the industrial magnetic water treatment apparatus shown in FIG.
3 is a cross-sectional view AA of the industrial magnetic water treatment apparatus shown in FIG.
4 is a sectional view BB of the industrial magnetic water treatment apparatus shown in FIG.
FIG. 5 is a view illustrating a flow of water and a state in which the magnetic lines of the magnetic force generating unit of the industrial magnetization water treatment apparatus shown in FIG. 1 and the magnetic field of the second magnetic unit and the far infrared rays of the germanium activated carbon and carbon plates are distributed.
FIG. 6 is a view illustrating a flow of water and a state in which the magnetic lines of the third and fourth magnetic fields of the magnetic field generating unit of the industrial magnetization water treatment apparatus shown in FIG. 1 are distributed, the anions of the germanium activated carbon, and the far infrared rays of the carbon plates.
7 is a state diagram used in the industrial magnetic water treatment apparatus shown in FIG.

An industrial magnetized water treatment apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 7 show an industrial magnetic water treatment apparatus according to an embodiment of the present invention, Figure 1 is a perspective view of the industrial magnetic water treatment apparatus according to an embodiment of the present invention, Figure 2 is an industrial magnetized water shown in Figure 1 FIG. 3 is an AA cross-sectional view of the industrial magnetized water treatment apparatus shown in FIG. 1, FIG. 4 is a BB cross-sectional view of the industrial magnetized water treatment apparatus shown in FIG. 1, and FIG. FIG. 6 is a view illustrating the distribution of the magnetic field lines of the magnetic field generating unit of the magnetic field generating unit of FIG. 1 and the magnetic field of the second magnetic unit, the anion of the germanium activated carbon, and the far infrared rays of the carbon plate, and the flow of water. Figure 3 shows the distribution of magnetic lines of the magnetic field of the magnetic field generating portion and the magnetic field of the fourth magnetic portion of the magnetic field generator of the industrial magnetized water treatment apparatus, anion of the germanium activated carbon and far infrared rays of the carbon plate and water flow , Fig. 7 shows a state diagram used in an industrial magnetic water treatment apparatus shown in Figure 1, respectively.

As shown in the drawings, the industrial magnetized water treatment apparatus 1000 according to an embodiment of the present invention includes a body 100, a magnetic force generating unit 200, a magnetic shield 300, a case 400 and , Germanium activated carbon 500 is included.

As shown in Figures 1 to 4, the body 100 is connected to the water pipe 1 through which the water is distributed on both sides therein is formed a connecting pipe 110, the vortex wing 111 is formed therein In the center, a center tube 120 having a rectangular pillar shape penetrated therein is formed such that the connection pipe 110 and the center pipe 120 are configured to communicate with each other.

Here, the center tube 120 has a rectangular pillar shape, so that the magnetic force generating unit 200 to be placed on the outer surface of the center tube 120 is in close contact with each other in the upper, lower, left, and right sides of the center tube. The water circulated inside 120 may be located in close proximity to the magnetic force generating unit 200 to efficiently receive the magnetic force provided by the magnetic force generating unit 200, thereby maximizing magnetization water treatment efficiency. .

Moreover, the vortex-shaped wing 111 is formed inside the connection pipe 110 of the body 100 to induce vortices of water circulating therein, thereby inducing physical activation of water.

As shown in FIGS. 2 to 4, the magnetic force generating unit 200 is opposed to the first magnetic force unit 210 and the first magnetic force unit 210 positioned above the center tube 120. On the second magnetic portion 220 is located below the center tube 120, the third magnetic portion 230 is located on one side of the center tube 120, and the third magnetic portion 230 Opposed to the fourth magnetic force portion 240 is located on the other side of the center tube 120, the first, second, third, fourth magnetic portion (210, 220, 230, 240) is composed of a plurality of permanent magnets 250 The permanent magnets 250 of the first and second magnetic parts 210 and 220 opposing each other are formed to face the same poles, and the permanent magnets 250 of the third and fourth magnetic parts 230 and 240 opposing each other. Is formed to face different poles to provide magnetic force to the center tube 120,

The first magnetic part 210 has a rod-shaped permanent magnet 251a having an N pole at its lower end at both ends thereof, and a plate-shaped permanent magnet having a S pole at its lower side between the rod-shaped permanent magnets 251a. Four magnets (251b) are configured to be sequentially arranged in the direction in which water flows into the body 100,

The second magnetic force portion 220 facing the first magnetic force portion 210 has a rod-shaped permanent magnet 252a having an N pole at both ends thereof is disposed between the rod-shaped permanent magnets 252a. Four plate-shaped permanent magnets (252b) having an upper pole S is configured to be sequentially arranged in the direction in which water flows into the body 100,

The third magnetic force unit 230 is a direction in which water flows into the body 100,

A plate-shaped permanent magnet 253ba having an N pole at the bottom adjacent to the outer circumferential surface of the center tube 120 is a plate-shaped permanent magnet having a S pole at the bottom adjacent to the outer circumferential surface of the center tube 120 ( 253bb) is a plate-shaped permanent magnet 253bc having an N pole at the bottom adjacent to the outer circumferential surface of the center tube 120, and a plate having a S pole at the bottom adjacent to the outer circumferential surface of the center tube 120. Permanent magnets (253bd) are arranged sequentially,

On the left side of each of the plate-shaped permanent magnets 253ba and 253bc having an N pole, a rod-shaped permanent magnet 253aa having a S pole is disposed adjacent to the outer circumferential surface of the center tube 120. On the right side of each of the plate-shaped permanent magnets 253bb and 253bd having the S pole, the bottom adjacent to the outer circumferential surface of the center tube 120 is configured to have a rod-shaped permanent magnet 253ab having the N pole. ,

The fourth magnetic force unit 240 facing the third magnetic force unit 230 is a direction in which water flows into the body 100,

A plate-shaped permanent magnet 254ba having a bottom pole adjacent to the outer circumferential surface of the center tube 120 has a plate-shaped permanent magnet having a pole having a north pole adjacent to the outer circumferential surface of the center tube 120 ( 254bb) is a plate-shaped permanent magnet 254bc whose bottom adjacent to the outer circumferential surface of the center tube 120 has an S pole, and a floor having an N pole whose bottom adjacent to the outer circumferential surface of the center tube 120 has an N pole. Permanent magnets of (254bd) are arranged sequentially,

On the left side of each of the plate-shaped permanent magnets 254ba and 254bc having the S pole at the bottom, a rod-shaped permanent magnet 254aa having the N pole at the bottom adjacent to the outer circumferential surface of the center tube 120 is disposed. At the right side of each of the plate-shaped permanent magnets 254bb and 254bd having the N pole, the bottom adjacent to the outer circumferential surface of the center tube 120 is configured such that a rod-shaped permanent magnet 254ab having the S pole is disposed. do.

Here, the polarity of the permanent magnets 250 has been mentioned only the polarity of one end of the permanent magnet 250 in order to easily explain the flow of the magnetic force lines emitted to the body 100, the other end is opposite to the one end of the pole It is self-evident that the play is formed.

That is, as shown in FIG. 5, the permanent magnets 250 of the first magnetic part 210 and the second magnetic part 220 of the magnetic force generating part 200 face the same poles. Efficiently induce magnetized water treatment of water by magnetic resonance, and the permanent of the third magnetic force unit 230 and the fourth magnetic unit 240 of the magnetic force generating unit 200 as shown in the magnetic force line distribution shown in FIG. The magnets 250 have different poles facing each other to induce a linear flow of magnetic lines, and the permanent magnets 250 of the third magnetic force part 230 and the fourth magnetic force part 240 sequentially form the S pole and the N pole. The repeated magnetic field flow direction is continuously changed and the efficient magnetic water treatment of the water is induced by the magnetic field that continuously pushes and pulls the water, and thus the magnetization water treatment efficiency of the water by the magnetic force is improved due to the precise arrangement of the permanent magnets 250. It has the effect of maximizing.

Therefore, the water passing through the body 100 is the whirlwind of the water due to the blurring of the magnetic force provided by the magnetic force generating unit 200 and the complex magnetic lines of the magnetic force lines provided by the magnetic force generating unit 200 intersect each other. Since the vortex vortex is induced, the water can be activated more efficiently by the physical action through the vortex phenomenon as well as the magnetic force.

In addition, the magnetic force generating unit 200 has an effect that can be expected to provide excellent magnetized water treatment efficiency by providing a magnetic force for a long time due to the structure in which a plurality of permanent magnets 250 are sequentially disposed in the direction in which water is distributed. .

In addition, as shown in FIG. 3, the four permanent magnets 251 b and 252 b each having a plate shape constituting the first magnetic part 210 and the second magnetic part 220 of the magnetic force generating part 200 are respectively. Of course, the two permanent magnets are stacked to induce more powerful magnetic force to increase the magnetization efficiency of water.

As shown in FIGS. 2 to 4, the magnetic shield 300 blocks the magnetic force emitted from the magnetic force generating unit 200 from leaking to the outside, thereby preventing the magnetic force emitted from the magnetic force generating unit 200. To be concentrated in the center tube 120,

It is disposed in the first magnetic portion 210 and the second magnetic portion 220, respectively, having a "c" shape, the plate-shaped permanent magnets 250 are embedded therein, both ends of the rod-shaped permanent The first plate 311 in which the first insertion groove 311a is formed so that the magnet 250 is embedded, and the magnetic force emitted from the permanent magnet 250 are located on both sides of the first plate 311, respectively. A first shielding part 310 including a second plate 312 for preventing leakage to

It is disposed in the third magnetic portion 230 and the fourth magnetic portion 240, respectively, has an "E" shape, the plate-shaped permanent magnets 250 are embedded therein, both ends and the center of the rod shape The third plate 321 and the second insertion groove 321a is formed so that the permanent magnet 250 of the built-in, respectively located on both sides of the third plate 321, the magnetic force emitted from the permanent magnet 250 And a second shielding part 320 including a fourth plate 322 to prevent leakage to the outside, and includes a first plate 311 and a second plate of the first shielding part 310. 312 and the third plate 321 and the fourth plate 322 of the second shielding portion 320 is preferably coupled to each other by the bolt (2) coupling.

That is, the magnetic shield 300 prevents the magnetic force emitted from the permanent magnet 250 accommodated therein from leaking to the outside and is lost, so that the magnetic force emitted from the permanent magnet 250 is reduced to the body 100. By concentrating in), the water circulated in the body 100 is induced to be efficiently activated by the magnetic force.

Here, of course, the magnetic shield 300 is formed of a pure iron material to realize easy shielding of the magnetic force.

Furthermore, as shown in FIGS. 2 to 4, the magnetic shields are positioned at both ends and the centers of the first magnetic part 210 and the second magnetic part 220 of the magnetic force generating part 200, respectively. It is located at both ends and the center of the first shielding plate 610 of the nonmagnetic material, and the third magnetic portion 230 and the fourth magnetic portion 240 of the magnetic force generating portion 200, the shielding of magnetic force By further comprising a shielding plate 600 including a second shielding plate 620 of the non-magnetic material, the density of the magnet by blocking the magnetic force passing between the permanent magnet 250 and the permanent magnet 250 By increasing or blocking the leakage of magnetic force to the outside, the magnetic force can be provided to the body 100 more powerfully.

As shown in FIGS. 1 to 4, the case 400 has the body 100, the magnetic force generating unit 200, and the magnetic shielding unit 300 embedded therein, and the body 100 at both ends thereof. Is formed to expose the connecting pipe 110.

3 and 4, the germanium activated carbon 500 is embedded in the case 400 to fix the positions of the magnetic force generating unit 200 and the magnetic shielding unit 300, and at the same time the center tube And to provide 120 anions.

In addition, as shown in FIGS. 2 to 4, a platinum plate 710 made of platinum is formed between the inside of the magnetic shield 300 and the shielding plate 600 and the permanent magnets 250, respectively. In addition, it is preferable to form a carbon plate 720 that emits far infrared rays on one or both sides of the platinum plate 710.

Here, the platinum plate 710 has the advantage of blocking the magnetic force passing between the permanent magnet 250 and the permanent magnet 250 to increase the density of the magnet and at the same time hygiene of the surroundings by the sterilization action of platinum material. .

The platinum plate 710 is usually plated with platinum on the surface of the copper, it is a matter of course that a silver plate may be used in place of the platinum plate 710.

That is, through the far-infrared ray provided from the carbon plate 720 and the anion provided from the germanium activated carbon 500 to improve the physical properties of the magnetized water to obtain a high-quality magnetized water to be more helpful to the life function of the organism It is effective.

Here, the effects due to far infrared rays and anions are commonly known facts, and detailed description thereof will be omitted.

Industrial magnetized water treatment apparatus 100 according to an embodiment of the present invention having the configuration as described above acts as follows.

First, as shown in FIG. 7, the connection pipe 110 formed at both ends of the body 100 firmly couples the water pipe 1 through which water is distributed.

Then, when the water flowing into the coupling pipe 110 of the coupling is completed as shown in Figure 7 flows into the connecting pipe 110 of the body 100, the vortex wing 111 of the connecting pipe 110 Vortex phenomena occur due to the water, whirlwind water is introduced into the central tube 120 of the body 100, the water introduced as shown in Figures 5 and 6 the outer surface of the body 100 Due to the strong magnetic force emitted from the magnetic force generating unit 200 is formed to be induced to be magnetized very efficiently.

At this time, the water circulated in the body 100, the negative and carbon plates 720 provided from the germanium activated carbon 500 in addition to the magnetic force provided in the magnetic force generating unit 200, as shown in FIG. The far-infrared rays provided by) yield high-quality magnetized water, which improves the physical properties of the magnetized water and thus helps the life function of the organism.

Although the present invention has been described with reference to the embodiments illustrated in the accompanying drawings, this is by way of example and not limited to the above-described embodiments, various modifications and equivalent embodiments are possible from those skilled in the art. You will understand the point. In addition, modifications by those skilled in the art can be made without departing from the scope of the present invention. Therefore, the scope of the claims in the present invention will not be defined within the scope of the detailed description, but will be defined by the following claims and their technical spirit.

1. Water pipe 2. Bolt
100.Body 110.Connector
111. Vortex Wings 120. Center Tube
200. Magnetic force generating unit 210. First magnetic force unit
220. Second magnetic force 230. Third magnetic force
240. The fourth magnetic force 250. Permanent magnet
251a, 252a, 253aa, 253ab, 254aa, 254ab. Rod-shaped permanent magnet
251b, 252b, 253ba, 253bb, 253bc, 253bd, 254ba, 254bb, 254bc, 254bd. Plate-shaped permanent magnet
300. Magnetic shield 310. First shield
311. First Edition 311a. First insertion groove
312.Second Edition 320. Second Shield
321. Third edition 321a. 2nd insertion groove
322.Fourth Edition 400.Cases
500. Germanium activated carbon 600. Shield plate part
610. First shield plate 620. Second shield plate
710.Platinum Plate 720.Carbon Plate
1000. Industrial Magnetized Water Treatment System

Claims (6)

In the industrial magnetized water treatment apparatus,
Both sides are connected to the water pipe 1 through which water flows, and a connecting pipe 110 is formed in the vortex wing 111, and a center tube 120 having a square pillar shape is formed therein. The connection pipe 110 and the center pipe 120 is the body 100 is in communication with each other inside;
A first magnetic force portion 210 positioned above the center tube 120, a second magnetic force portion 220 positioned below the center tube 120 so as to face the first magnetic force portion 210; The third magnetic force portion 230 is disposed on one side of the center tube 120, and the fourth magnetic force portion is disposed on the other side of the center tube 120 to face the third magnetic force portion 230. 240, wherein the first, second, third and fourth magnetic parts 210, 220, 230, and 240 are each composed of a plurality of permanent magnets 250, and the permanent magnets of the first, second magnetic parts 210 and 220 are opposed to each other. 250 is formed so that the same poles face each other, the permanent magnets 250 of the third and fourth magnetic portions 230, 240 facing each other are formed so that different poles face each other to provide magnetic force to the center tube 120 Magnetic force generating unit 200;
Magnetic shielding unit 300 to block the magnetic force emitted from the magnetic force generating unit 200 to the outside leakage loss so that the magnetic force emitted from the magnetic force generating unit 200 is concentrated in the center tube 120;
A case 400 for allowing the body 100, the magnetic force generating unit 200, and the magnetic shielding unit 300 to be embedded therein, and exposing the connection pipe 110 of the body 100 to both ends; And
A germanium activated carbon 500 embedded in the case 400 to fix the positions of the magnetic force generating unit 200 and the magnetic shielding unit 300 and to provide negative ions to the central tube 120. Industrial magnetized water treatment device, characterized in that.
The method of claim 1,
The first magnetic force unit 210 of the magnetic force generation unit 200,
Rod-shaped permanent magnets 251a having N poles at the lower ends thereof are disposed at both ends, and four plate-shaped permanent magnets 251b having S poles are disposed between the rod-shaped permanent magnets 251a. 100) is arranged to be sequentially arranged in the direction in which water is circulated,
The second magnetic force unit 220 facing the first magnetic force unit 210,
A rod-shaped permanent magnet 252a having an N pole at its upper end is disposed at both ends, and between the rod-shaped permanent magnets 252a, four plate-shaped permanent magnets 252b having an S pole at its upper side are the body ( 100) is arranged to be sequentially arranged in the direction in which water is circulated,
The third magnetic force unit 230 of the magnetic force generation unit 200,
In the direction in which water flows into the body 100,
A plate-shaped permanent magnet 253ba having an N pole at the bottom adjacent to the outer circumferential surface of the center tube 120 is
The bottom adjacent to the outer peripheral surface of the center tube 120 is a plate-shaped permanent magnet (253bb),
A plate-shaped permanent magnet 253bc having an N pole at the bottom adjacent to the outer circumferential surface of the center tube 120 is
The bottom adjacent to the outer circumferential surface of the center tube 120 has a plate-shaped permanent magnet (253bd) are sequentially arranged,
On the left side of each of the plate-shaped permanent magnets 253ba and 253bc having an N pole, a rod-shaped permanent magnet 253aa having a S pole is disposed adjacent to the outer circumferential surface of the center tube 120. On the right side of each of the plate-shaped permanent magnets 253bb and 253bd having the S pole, the bottom adjacent to the outer circumferential surface of the center tube 120 is configured to have a rod-shaped permanent magnet 253ab having the N pole. ,
The fourth magnetic force unit 240 facing the third magnetic force unit 230,
In the direction in which water flows into the body 100,
The bottom adjacent to the outer circumferential surface of the center tube 120 has a plate-shaped permanent magnet 254ba,
A plate-shaped permanent magnet (254bb) having an N pole at the bottom adjacent to the outer circumferential surface of the center tube 120 is
The bottom adjacent to the outer peripheral surface of the center tube 120 has a plate-shaped permanent magnet (254bc),
The bottom adjacent to the outer circumferential surface of the center tube 120 has a plate-shaped permanent magnet (254bd) is sequentially disposed,
On the left side of each of the plate-shaped permanent magnets 254ba and 254bc having the S pole at the bottom, a rod-shaped permanent magnet 254aa having the N pole at the bottom adjacent to the outer circumferential surface of the center tube 120 is disposed. At the right side of each of the plate-shaped permanent magnets 254bb and 254bd having the N pole, the bottom adjacent to the outer circumferential surface of the center tube 120 is configured such that a rod-shaped permanent magnet 254ab having the S pole is disposed. Industrial magnetized water treatment device, characterized in that.
The method of claim 2,
The magnetic shield 300,
To be disposed in the first magnetic portion 210 and the second magnetic portion 220, respectively,
A first plate 311 having a "c" shape and having plate-shaped permanent magnets 250 embedded therein, and having first insertion grooves 311a formed at both ends thereof so that rod-shaped permanent magnets 250 are embedded. And a second plate 312 disposed on both sides of the first plate 311 and including a second plate 312 which prevents leakage of magnetic force emitted from the permanent magnet 250 to the outside. Wow,
To be disposed in the third magnetic portion 230 and the fourth magnetic portion 240, respectively,
Third plate having an "E" shape, the plate-shaped permanent magnets 250 are embedded therein, and the second insertion groove 321a is formed at both ends and the center so that the rod-shaped permanent magnets 250 are embedded. A second shielding part including a second plate 321 and a fourth plate 322 positioned on both side surfaces of the third plate 321 to prevent leakage of magnetic force emitted from the permanent magnet 250 to the outside; Industrial magnetized water treatment apparatus, characterized in that consisting of 320).
The method of claim 2,
Located at both ends and the center of the first magnetic portion 210 and the second magnetic portion 220 of the magnetic force generating unit 200, respectively, the first shield plate 610 of the nonmagnetic material for shielding the magnetic force and ,
Located at both ends and the center of the third magnetic force unit 230 and the fourth magnetic force unit 240 of the magnetic force generating unit 200, respectively, the second shield plate 620 of the nonmagnetic material for shielding the magnetic force Industrial magnetized water treatment apparatus, characterized in that further comprises a shielding plate portion 600 comprising.
The method of claim 2,
Four permanent magnets 251 b and 252 b having a plate shape constituting the first magnetic part 210 and the second magnetic part 220 of the magnetic force generating part 200 are each composed of two permanent magnets stacked. Industrial magnetized water treatment apparatus, characterized in that to induce a strong magnetic force is released.
The method according to claim 4 or 5,
A platinum plate 710 made of platinum is formed between the magnetic shield 300 and the shield plate 600 and the permanent magnets 250, respectively, and one or both sides of the platinum plate 710. Industrial magnetized water treatment apparatus, characterized in that the carbon plate 720 that emits far infrared rays is formed.

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