KR20120136054A - A joining magnetization water treatment apparatus - Google Patents

Abstract

PURPOSE: A coupled type magnetism processing unit is provided to increase treatment efficiency and a physical property of magnetized water and prevent external loss of magnetism by a magnetism shield area. CONSTITUTION: A coupled type magnetism processing unit comprises an inner pipe; a carbon fiber; a magnetism generation part; a magnetism shielding part; germanium activated charcoal; a case; a first cover; and a second cover. The carbon fiber is coiled on the circumference of the inner pipe center to emit the far infrared fiber. The tube surrounds the circumference of the inner pipe to cover the magnetism shielding part which accommodates the magnetism generation part. The germanium activated carbon is accommodated in the tube in order to release the anion to water circulating the inner pipe. The fist and the second cover prevents the breakaway of the inner pipe that is built in the case The eddy inducing areas are located at the each end of the inner pipe to induce the eddy that atomizes water which flows in and out of the inner pipe.

Description

A joining magnetization water treatment apparatus that emits far infrared rays and anions

The present invention relates to a combined magnetic treatment device that emits far infrared rays and anions, and more particularly, to treatment of magnetized water by magnetic force of permanent magnets, as well as providing far infrared rays by carbon, providing anion by germanium activated carbon, and vortex induction part. The present invention relates to a combined magnetic treatment device that emits far-infrared rays and negative ions to enhance the physical properties of the magnetized water through the activation of the water (atomization) and to improve the physical properties of the magnetized water.

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 can be 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 treatment device using permanent magnets.

The magnetization water treatment device is a magnetized water having a weak alkaline hexagonal structure rich in minerals by ion-activating the molecular structure of the water when water is passed through the magnetic field of the magnet, the magnetization water treatment device using the magnet is 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, the conventional magnetization water treatment device is a product that most expects the magnetization water treatment depending only on the magnetic force of the magnet, there is a problem that the efficiency of the magnetization water treatment is somewhat low to change the water to the magnetized water only by the magnetic force emitted from the magnet.

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

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

The present invention has been proposed to solve the above-mentioned problems, the purpose of which is the treatment of magnetized water by the magnetic force of the permanent magnet, as well as the provision of far-infrared rays by carbon, anion by germanium activated carbon and vortex induction part The present invention provides a combined magnetic treatment device that emits far-infrared rays and anions, which not only increases the efficiency of treating magnetized water through water activation (atomization), but also improves the physical properties of the magnetized water to further aid the life functions of living organisms.

In addition, magnetic force of the permanent magnet is prevented from leaking out due to the magnetic shielding portion, so that the magnetic force is smoothly concentrated in the internal pipe through which water is distributed, thereby maximizing the efficiency of generating magnetized water, and arranging and arranging the polarities of the permanent magnets. It is to provide a coupled magnetic treatment device that emits far-infrared and negative ions that can be precisely set to further maximize the efficiency of water atomization and activation by magnetic force.

In order to achieve the above object, the combined magnetic treatment device for emitting far infrared rays and anions according to the present invention has an inner pipe that passes through the water so that water is easily distributed, and a center of which is pressed into the upper and lower portions of the inner pipe. And a carbon yarn wound around the outer circumferential surface of the inner pipe center to allow far-infrared rays to be diverted into the water circulating in the inner pipe, and a first permanently positioned upper portion of the inner pipe center and composed of a plurality of permanent magnets. A magnetic force generating portion including a magnetic force portion and a second magnetic force portion positioned below the center of the inner pipe so as to face the first magnetic force portion and formed of a plurality of permanent magnets; The first plate to accommodate the permanent magnets of each of the first magnetic portion and the second magnetic portion to prevent the magnetic force emitted from the permanent magnet is released to the outside And a magnetic shielding part disposed on both side surfaces of the first plate and configured to prevent the magnetic force emitted from the permanent magnet from being discharged to the outside. The magnetic shielding portion is wrapped around the outer circumference of the inner pipe. A tube surrounding the magnetic shield for accommodating the generator; and a germanium activated carbon received inside the tube and dissipating anion into water circulated into the inner pipe; and the inner pipe being accommodated through the inner pipe. A first screw thread is formed on an inner circumferential surface of the case, and a case where a second screw thread is formed on an inner circumferential surface of the other end; and an inner portion of the first screw thread are formed, and an outer circumferential surface of the other end is fastened to the first screw thread. The first cover for preventing the separation of the inner pipe is formed in the screw thread is formed in the case 3, and the inside is penetrated, the other end is formed with a second assembly, In the outer peripheral surface of the fourth threads being engaged with the second screw thread it is formed on the second cover to prevent separation of the inner pipe is installed in the case; characterized by including yirueojim.

In addition, the first magnetic force portion of the magnetic force generation portion is composed of five permanent magnets, the first permanent magnet, the second permanent magnet, the third permanent magnet, the fourth permanent magnet in the flow direction in which the five permanent magnets flow , If the numbers are sequentially assigned to the fifth permanent magnet,

The first permanent magnet is disposed to have an S pole at a lower portion close to the inner pipe, and the second permanent magnet is disposed to have an N pole at a lower portion which is close to the inner pipe, and the third permanent magnet is located inside the inner pipe. The lower part which is in close contact with the pipe has an N pole, and the fourth permanent magnet is arranged so that the lower part which is in close contact with the inner pipe has the S pole, and the fifth permanent magnet has a lower part which is in close contact with the inner pipe in the N pole. Is arranged to have

The second magnetic part of the magnetic force generating unit is composed of five permanent magnets, the six permanent magnets, seventh permanent magnets, eighth permanent magnets, ninth permanent magnets, If you assign a number to 10 permanent magnets,

The sixth permanent magnet is disposed to have an S pole at an upper portion that is close to the inner pipe, and the seventh permanent magnet is disposed to have an S pole at an upper portion that is close to the inner pipe, and an eighth permanent magnet is formed on the inner pipe. An upper part of the upper part that is close to the N pole is disposed to have an N pole, and an upper part of the upper part that is close to the inner pipe has an N pole. Arranged to have,

The first, second, third, fourth and fifth permanent magnets of the first magnetic part are disposed to face the sixth, seven, eight, nine, and ten permanent magnets of the second magnetic part, respectively, The third and eighth permanent magnets and the fifth and ten permanent magnets face each other with the same poles, and the second and seventh permanent magnets and the fourth and ninth permanent magnets face each other with different poles. The silver plate is positioned between the permanent magnet and the permanent magnet, respectively, of the first magnetic part and the second magnetic part.

In addition, the inner surface of the magnetic shield portion and one side or both sides of the silver plate is further characterized in that the carbon plate is further formed to induce more powerful far infrared rays.

In addition, respectively located at both ends of the inner pipe, and further comprises a vortex induction unit for inducing vortex phenomena so that the water flowing into and out of the inner pipe is atomized, the vortex induction unit,

A first body having a cylindrical shape penetrated therein, and the inside of the first body is composed of a plurality of plates formed so that the end toward the center of the first body, in order to efficiently induce the vortex of water The twisted vortex derivative and the vortex derivatives, which are located on both sides of the vortex derivative, respectively, have a second body having a cylindrical shape, and a plurality of distribution holes formed to allow water to flow inside the second body. It characterized in that it comprises a grinding derivative to induce a grinding phenomenon to be pulverized in two streams, and a connecting bolt for firmly bonding the grinding derivative by interconnecting the grinding derivatives respectively located on both sides of the vortex derivative.

In addition, at least one through hole is formed in the plate body of the vortex derivative.

As described above, according to the combined magnetic treatment device for emitting far infrared rays and anions according to the present invention, as well as the treatment of magnetized water by magnetic force of permanent magnets, the provision of far infrared rays by carbon, the provision of negative ions by germanium activated carbon, and the vortex induction part Through the activation of water (atomization) through not only to increase the efficiency of the magnetized water treatment, but also to improve the physical properties of the magnetized water is effective to help the life function of the organism more.

In addition, magnetic force of the permanent magnet is prevented from leaking out due to the magnetic shielding portion so that the magnetic force is smoothly concentrated in the internal pipe through which water is distributed, thereby maximizing the efficiency of generating magnetized water, and arranging and arranging the polarity of the permanent magnets. By precisely setting the has the effect of further maximizing the atomization and activation efficiency of water by magnetic force.

1 is a perspective view of a combined magnetic treatment device that emits far infrared rays and anions according to an embodiment of the present invention
FIG. 2 is an exploded perspective view of a combined magnetic treatment device in which far infrared rays and negative ions shown in FIG. 1 are emitted.
3 is an exploded perspective view of main parts of a combined magnetic treatment device in which far infrared rays and negative ions shown in FIG. 1 are emitted;
FIG. 4 is a cross-sectional view taken along line AA of the combined magnetic processing apparatus in which far infrared rays and anions are radiated.
FIG. 5 is an exploded perspective view of the vortex induction part of the combined magnetic treatment device in which the far infrared rays and the anions shown in FIG.
FIG. 6 is a diagram illustrating magnetic force lines, far infrared rays, and anion distributions of the combined magnetic treatment apparatus in which the far infrared rays and anions are emitted as shown in FIG. 1;
FIG. 7 is a view illustrating a state in which the vortex induction part of the combined magnetic treatment device in which the far infrared rays and the anions emanate from FIG.
8 is a state diagram used in the combined magnetic treatment device that the far infrared and negative ions shown in FIG.

Based on the accompanying drawings, a combined magnetic treatment device for emitting far infrared rays and anions according to a preferred embodiment of the present invention will be described in detail.

1 to 8 illustrate a combined magnetic treatment device that emits far infrared rays and anions according to an embodiment of the present invention, and FIG. 1 illustrates a coupled magnetic treatment device that emits far infrared rays and anions according to an embodiment of the present invention. 2 is an exploded perspective view of the combined magnetic treatment device in which the far infrared rays and anions are emitted in FIG. 1, and FIG. 3 is a main portion of the coupled magnetic treatment device in which the far infrared and anions are emitted in FIG. 1. 4 is a cross-sectional view of the combined magnetic treatment device that emits far infrared rays and negative ions shown in FIG. 1, and FIG. 5 is a vortex induction part of the combined magnetic treatment device that emits far infrared rays and negative ions shown in FIG. 6 is an exploded perspective view, FIG. 6 is a view illustrating magnetic force lines, far infrared rays, and anion distributions of the combined magnetic processing apparatus in which the far infrared rays and anions are emitted, and FIG. 7 is FIG. 1. 8 is a view illustrating a state in which the vortex induction part of the combined magnetic treatment device in which far infrared rays and negative ions are emitted passes through water and is pulverized and pulverized. FIG. 8 is a combined magnetic treatment in which far infrared rays and anions emanate from FIG. 1. It shows the state of use of each device.

As shown in the drawings, the coupled magnetic treatment device 100 that emits far infrared rays and anions according to an embodiment of the present invention includes an inner pipe 10, a carbon yarn 20, and a magnetic force generating unit 30. And a magnetic shield 40, a tube 50, a germanium activated carbon 60, a case 70, a first cover 80, and a second cover 90.

As shown in Figures 2 to 4, the inner pipe 10 is passed through the inside so that water is easily passed, the center is configured to have a square pillar shape is pressed to the upper and lower.

Here, the center of the inner pipe 10 is pressurized to have a rectangular pillar shape, the magnetic force generating portion 30 to be placed on the outer surface of the center of the inner pipe 10 are in close contact with each other up and down, the inner pipe (10) The water circulated inside is located close to the permanent magnets (31, 33) of the magnetic force generating portion 30 can be efficiently provided with the magnetic force provided by the magnetic force generating portion 30, the efficiency of treatment of magnetized water Has the effect of maximizing

The carbon yarn 20 is wound on the outer circumferential surface of the center of the inner pipe 10, so that far-infrared rays are emitted into the water flowing into the inner pipe 10.

As shown in Figure 6, through the far-infrared rays provided by the carbon yarn 20 to induce the water to be further subdivided and activated to improve the magnetization treatment capacity and physical properties of the magnetized water can be further helpful to the life function of the organism It is effective to obtain high quality magnetized water.

Here, the effects (efficiencies) due to the far infrared rays provided from the carbon yarn 20 and the anion provided from the germanium activated carbon 60 to be removed are generally known facts, and a detailed description thereof will be omitted.

As shown in FIG. 3 and FIG. 4, the magnetic force generating unit 30 is located above the center of the inner pipe 10 and includes a first magnetic force unit 32 composed of a plurality of permanent magnets 31. It is configured to include a second magnetic portion 34 which is located in the lower portion of the center of the inner pipe (10) facing the first magnetic portion 32 and made of a plurality of permanent magnets 33,

The first magnetic force portion 32 of the magnetic force generation portion 30 is composed of five permanent magnets 31, the five permanent magnets 31 in the flow direction in which water flows through the first permanent magnet (31a) When numbers are sequentially assigned to the second permanent magnet 31b, the third permanent magnet 31c, the fourth permanent magnet 31d, and the fifth permanent magnet 31e, the first permanent magnet 31a is the same. The lower part of the inner pipe 10 is disposed to have an S pole, and the second permanent magnet 31 b is disposed so that the lower part of the inner pipe 10 has an N pole, and the third permanent magnet ( 31c) is disposed such that a lower portion of the lower portion of the inner pipe 10 closes to the N pole, and the fourth permanent magnet 31d is disposed of the lower portion of the lower portion of the inner pipe 10 close to the inner pipe 10 so as to have an S pole. 5 permanent magnets (31e) is arranged so that the lower portion in close contact with the inner pipe (10) has an N pole,

The second magnetic force portion 34 of the magnetic force generation portion 30 is composed of five permanent magnets 33, the six permanent magnets 33a in the flow direction in which water flows through the five permanent magnets 33a When a number is assigned to the seventh permanent magnet 33b, the eighth permanent magnet 33c, the ninth permanent magnet 33d, and the tenth permanent magnet 33e, the sixth permanent magnet 33a is the internal pipe. An upper portion closely adjacent to the (10) is disposed to have an S pole, and the seventh permanent magnet 33b is disposed to have an S pole adjacent to the inner pipe 10, and an eighth permanent magnet 33c is disposed. The upper part which is in close contact with the inner pipe 10 has an N pole, and the ninth permanent magnet 33d is disposed so that the upper part which is in close contact with the inner pipe 10 has an N pole, and the tenth permanent magnet. (33e) is disposed so that the upper portion in close contact with the inner pipe 10 has an N pole,

The first, second, third, fourth, fifth permanent magnets 31a, 31b, 31c, 31d, and 31e of the first magnetic part 32 are respectively 6, 7, 8, and 8 of the second magnetic part 34. 9, 10 permanent magnets (33a, 33b, 33c, 33d, 33e) are disposed facing each other and the first, sixth permanent magnets (31a, 33a) and the third, eighth permanent magnets (31c, 33c) and the fifth The 10 permanent magnets 31e and 33e face each other with the same poles, and the second and seventh permanent magnets 31b and 33b and the 4th and 9th permanent magnets 31d and 33d respectively have different poles. And are disposed to face each other, and the silver plates 35 are positioned between the permanent magnets 31 and 33 and the permanent magnets 31 and 33, respectively. It is composed.

Here, the silver plate 35 blocks magnetic force from passing between the permanent magnets 31 and 33 and the permanent magnets 31 and 33 to increase the density of the magnet and maintain the sanitary environment by the sterilization action of the silver material. There is an advantage.

That is, as shown in FIG. 6, the first and sixth permanent magnets 31a and 33a and the third and third magnets of the first magnetic force part 32 and the second magnetic force part 34 of the magnetic force generation part 30 are arranged as shown in FIG. 6. , 8 permanent magnets (31c, 33c) The 5, 10 permanent magnets (31e, 33e) are the same poles facing each other to effectively induce the treatment of magnetized water of the water by magnetic resonance (magnetic resonance), the magnetic force generating unit The first and second permanent magnets 31b and 33b and the fourth and ninth permanent magnets 31d and 33d of the first magnetic part 32 and the second magnetic part 34 of (30) face different poles. Water flowing through the inner pipe 10 is induced by a linear magnetic force line flow, and the magnetic force provided by the first magnetic force portion 32 of the magnetic force generation portion 30 and the provision of the second magnetic force portion 34. Water vortex vortex is induced by the blurring of complex magnetic force where magnetic forces cross and collide with each other. Therefore, water is more efficiently activated by physical action through vortex as well as magnetic force. The.

Therefore, due to the precise arrangement of the permanent magnets 31 and 33 as described above, there is an effect of maximizing the efficiency of the magnetized water treatment of water by magnetic force.

Furthermore, as shown in FIG. 4, the magnetic force generator 30 has a structure in which a plurality of permanent magnets 31 and 33 are sequentially disposed in a direction in which water flows, thereby providing magnetic force for a long time to provide excellent magnetic water. The treatment efficiency can be expected.

Here, the polarity of the permanent magnets (31, 33) is mentioned only the polarity of one end of the permanent magnets (31, 33) in order to easily explain the flow of the magnetic force lines emitted to the inner pipe (10), Figure 6 As shown in FIG. 2, it is obvious that a pole opposite to a pole is formed at the other end.

In addition, as shown in FIG. 3 and FIG. 4 by further forming a carbon plate 120 on the inner surface of the magnetic shield 40 and the one side or both sides of the silver plate 35 to be sewn, as shown in FIG. As shown, there is an advantage that can further maximize the effect due to far infrared by inducing more powerful far infrared.

As shown in FIG. 3 and FIG. 4, the magnetic shield 40 has a shape of "c", and the permanent magnet 31 of each of the first magnetic force part 32 and the second magnetic force part 34 is formed therein. , 33 are accommodated in the first plate 41 and the both sides of the first plate 41 to prevent the magnetic force emitted from the permanent magnets (31, 33) to be discharged to the outside, respectively, the permanent magnet It consists of the 2nd board 42 which prevents the magnetic force radiated | emitted from (31,33) discharged to the exterior.

That is, the magnetic force of the permanent magnets 31 and 33 accommodated in the magnetic shield 40 through the first plate 41 and the second plate 42 of the magnetic shield 40 is left and right. In addition, by preventing the leakage of the upper and the front and rear, the magnetic force provided from the magnetic force generating portion 30 is provided to the inner pipe 10 is concentrated in the inner pipe 10 by the magnetic force of the water The magnetization water treatment efficiency can be maximized.

Here, the first plate 41 and the second plate 42 of the magnetic shield 40 is coupled to the bolt (2), but is not limited to this coupling structure to use.

As shown in Figures 2 to 4, the tube 50 is wrapped around the outer circumference of the inner pipe 10, so as to surround the magnetic shield 40 to accommodate the magnetic force generating portion 30 together do.

Here, the tube 50 is usually formed of a resin material, the ends of both ends is preferably to be finished through heat fusion.

As shown in FIG. 4, the germanium activated carbon 60 is contained in the tube 50, and emits negative ions with water circulated through the inner pipe 10, as shown in FIG. 6. Through the anion provided by the germanium activated carbon 60, there is an effect to obtain a high-quality magnetized water to improve the physical properties of the magnetized water to help the life function of the organism more.

As shown in Figure 1 and 2 and 4, the case 70 is penetrated inside to accommodate the inner pipe 10, one end of the inner thread surface is formed with a first screw thread 71, A second screw thread 72 is formed on the inner circumferential surface.

As shown in FIGS. 1, 2, and 4, the first cover 80 is penetrated inside thereof, and a first coupling body 81 is formed at one end thereof, and the first screw thread 71 is formed at an outer circumferential surface of the other end thereof. A third screw thread 82 is formed to be fastened to prevent separation of the inner pipe 10 embedded in the case 70.

As shown in FIGS. 1, 2, and 4, the second cover 90 is penetrated inside thereof, and a second coupling member 91 is formed at the other end thereof, and the second screw thread 72 is formed at an outer circumferential surface of one end thereof. A fourth screw thread 92 is formed to be fastened to prevent separation of the inner pipe 10 embedded in the case 70.

Here, the first assembly 81 and the second assembly 91 formed on the cover (80,90) is formed of a female screw, but is not limited to use of this, far infrared and according to an embodiment of the present invention Of course, it can be suitably formed corresponding to the coupling structure coupled to both ends of the coupling type magnetic processing device 100 that the negative ions are emitted.

The combined magnetic treatment device 100 in which far infrared rays and anions are emitted according to an embodiment of the present invention displays an arrow 4 to easily identify the water flow direction in which water is introduced into and discharged from the outer surfaces of both ends. It is desirable to be able to clearly recognize the inlet and outlet.

That is, the combined magnetic treatment apparatus 100 of the present invention composed of such components as far infrared rays and anions is emitted, as well as the treatment of magnetized water by the magnetic force emitted from the magnetic force generating unit 30, and of far infrared rays by carbon. Providing anion by the germanium activated carbon 60 and activating (atomization) of water through the vortex induction part 110 to be segregated not only increases the efficiency of the magnetized water treatment but also improves the physical properties of the magnetized water to further help the life function of the organism. This has the effect of making it possible.

In addition, as shown in Figures 2, 4 and 5 are respectively located at both ends of the inner pipe 10, induces the vortex phenomenon so that the water flowing into and out of the inner pipe 10 is atomized It is configured to further include a vortex induction unit 110, the vortex induction unit 110,

The first body 111a having a cylindrical shape through which the inside penetrates, and a plurality of plate bodies 111b formed at the end thereof toward the center of the first body 111a in the first body 111a, The plate body 111b is a twisted vortex derivative 111, which is positioned on both sides of the vortex derivative 111 in order to efficiently induce vortex phenomena of water, and has a cylindrical second body 112a, A pulverizing derivative 112 which is composed of a plurality of distribution holes 112b formed to distribute water in the second body 112a and induces a pulverization phenomenon to crush the flow of water into a plurality of flows, and the vortex It is configured to include a connecting bolt 113 to connect the crushed derivative 112, which is located on both sides of the derivative 111, so that the crushed derivative 112 is firmly bonded.

Here, the water flowing into the vortex induction part 110 is first broken down into a plurality of distribution holes 112b while colliding with and colliding with the pulverizing derivative 112 as shown in FIG. While swirling by the plate body 111b formed on the vortex derivative 111 while passing through the vortex derivative 111, and further subdividing the inner pipe (3) while passing the crushed derivative 112 again. 10) or is discharged to the outside through the inner pipe (10).

That is, the vortex induction unit 110 is located at both ends of the inner pipe 10, respectively, and has an effect of inducing or efficiently inducing the activated or discharged water through the physical action of miniaturization → turning → fineness.

In addition, as shown in FIG. 5, at least one through hole 114 is formed in the plate body 111b of the vortex derivative 111 so that the water flowing into the vortex derivative 111 is transferred to the plate body 111b. At the same time, it is introduced into the through hole 114 formed in the plate body 111b to be subdivided (bubble), thereby maximizing the activation of water.

2 and 4, between the inner pipe 10 and the vortex induction part 110 embedded in the case 70, the vortex induction part 110 and the cover 80 and 90 may be formed. In the meantime, the O-ring 3 may be positioned and used on the outer circumferential surfaces of the third screw thread 82 and the fourth screw thread 92 of the covers 80 and 90 to prevent leakage of water.

The combined magnetic treatment device 100 in which far-infrared rays and negative ions are emitted according to an embodiment of the present invention having the above configuration is installed as follows to induce the generation of magnetized water.

First, as shown in FIG. 8, the hose 1 or the pipes having male threaded joints 1a are respectively connected to and installed in both ends of the coupled magnetic treatment apparatus 100 in which far infrared rays and anions are emitted. do.

Then, when water flows into the hose 1 or the pipe and the water flows into the combined magnetic treatment device 100 in which far infrared rays and anions are diverted, the initial vortex induction part 110 is shown in FIG. 7. As the water passes through), the water is effectively activated as it undergoes the physical action of micronizing → turning → micronizing.

Thereafter, the water passing through the vortex induction part 110 is circulated into the inner pipe 10, so that the magnetization is very efficiently due to the strong magnetic force emitted from the magnetic force generating part 30 as shown in FIG. 6. Induced.

At this time, the water circulated in the inner pipe 10, as shown in Figure 6, in addition to the magnetic force provided by the magnetic force generating portion 30, the carbon yarn 20, the carbon plate 120 and the germanium activated carbon (60) Far infrared rays and negative ions provided in) provide high-quality magnetized water, which improves the physical properties of the magnetized water and thus helps the life function of the organism.

Thereafter, the water passing through the inner pipe 10 is guided to be further activated and atomized while passing through the vortex induction part 110 again.

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. Hose 1a. concrete
2. Bolt 3. O-ring
10. Inner pipe 20. Carbon yarn
30. Magnetic generator 31, 33. Permanent magnet
31a. First permanent magnet 31b. 2nd permanent magnet
31c. Third permanent magnet 31d. 4th permanent magnet
31e. Fifth Permanent Magnet
33a. Sixth permanent magnet 33b. 7th permanent magnet
33c. Eighth Permanent Magnet 33d. 9th permanent magnet
33e. 10th Permanent Magnet 34. Second Magnetic Ministry
35. Silver plate 40. Magnetic shield
41. First Edition 42. Second Edition
50. Tube 60. Germanium activated carbon
70. Case 71. First thread
72. 2nd thread 80. First cover
81. First binder 82. Third thread
90. Second cover 91. Second assembly
92. 4th thread
100. Magnetized water treatment device for attaching a shower that radiates far infrared rays and anions
110. Vortex induction part 111. Vortex derivative
111a. First body 111b. Plate
112. Crushed derivative 112a. Second body
112b. Distribution hole 113. Connecting bolt
114.Through Hole 120.Carbon Plate

Claims (5)

In the magnetization water treatment apparatus,
An inner pipe 10 penetrating the water so that water is easily distributed, and a center of which is pressurized to the upper and lower parts thereof and has a square pillar shape;
A carbon yarn 20 wound around the outer circumferential surface of the center of the inner pipe 10 to allow far-infrared rays to diverge into the water circulating in the inner pipe 10;
The first magnetic force portion 32 is formed in the upper portion of the center of the inner pipe 10 and composed of a plurality of permanent magnets 31, the center of the inner pipe 10 to face the first magnetic force portion (32) A magnetic force generating portion 30 positioned below and including a second magnetic portion 34 formed of a plurality of permanent magnets 33;
It has a "c" shape, the permanent magnets 31 and 33 of each of the first magnetic portion 32 and the second magnetic portion 34 is accommodated therein and the magnetic force emitted from the permanent magnets 31 and 33 is First plates 41 for preventing the discharge to the outside, and second to each side of the first plate 41 to prevent the magnetic force emitted from the permanent magnets (31, 33) to be discharged to the outside A magnetic shield 40 composed of a plate 42;
A tube 50 surrounding the outer circumference of the inner pipe 10 and surrounding the magnetic shielding portion 40 accommodating the magnetic force generating portion 30 together;
Germanium activated carbon 60 contained in the tube 50 and dissipating anions with water circulated through the inner pipe 10;
A case 70 through which an inner pipe 10 is accommodated, the first screw thread 71 being formed at one end of the inner circumferential surface, and a second screw thread 72 being formed at the inner circumferential surface of the other end;
The inside is penetrated, but the first coupling member 81 is formed at one end, and the third screw thread 82 is formed on the outer circumferential surface of the other end is fastened to the first screw thread 71 to be embedded in the case 70. First cover 80 to prevent the separation of the pipe (10); And
The inside is penetrated, the other end is formed with a second coupling member 91, the outer peripheral surface of one end is formed with a fourth screw thread 92 is fastened to the second screw thread 72 is formed in the case 70 Combined magnetic treatment device is a far infrared rays and anions are emitted, characterized in that it comprises a; a second cover (90) to prevent the separation of the pipe (10).
The method of claim 1,
The first magnetic force portion 32 of the magnetic force generation portion 30 is composed of five permanent magnets 31, the five permanent magnets 31 in the flow direction in which water flows through the first permanent magnet (31a) When numbers are sequentially assigned to the second permanent magnet 31b, the third permanent magnet 31c, the fourth permanent magnet 31d, and the fifth permanent magnet 31e,
The first permanent magnet 31a is disposed such that a lower portion of the first permanent magnet 31a has an S pole, and the second permanent magnet 31b has an N pole of a lower portion thereof which is close to the inner pipe 10. The third permanent magnet (31c) is arranged to have a lower portion in close contact with the inner pipe 10 has an N pole, the fourth permanent magnet 31d is a lower portion in close contact with the inner pipe (10). Is disposed to have an S pole, and the fifth permanent magnet 31e is disposed to have an N pole at a lower portion which is in close contact with the inner pipe 10.
The second magnetic force portion 34 of the magnetic force generation portion 30 is composed of five permanent magnets 33, the six permanent magnets 33a in the flow direction in which water flows through the five permanent magnets 33a If a number is assigned to the seventh permanent magnet (33b), the eighth permanent magnet (33c), the ninth permanent magnet (33d), the tenth permanent magnet (33e),
The sixth permanent magnet 33a is disposed such that an upper portion of the sixth permanent magnet 33a has an S pole, and the seventh permanent magnet 33b of the sixth permanent magnet 33b has an S pole thereof. The upper end of the eighth permanent magnet 33c, which is in close contact with the inner pipe 10, is disposed to have an N pole, and the upper end of the eighth permanent magnet 33d, which is in close contact with the inner pipe 10, of the eighth permanent magnet 33c. It is disposed to have an N pole, the tenth permanent magnet (33e) is disposed so as to have an upper pole in close contact with the inner pipe (10),
The first, second, third, fourth, fifth permanent magnets 31a, 31b, 31c, 31d, and 31e of the first magnetic part 32 are respectively 6, 7, 8, and 8 of the second magnetic part 34. 9, 10 permanent magnets (33a, 33b, 33c, 33d, 33e) are disposed facing each other and the first, sixth permanent magnets (31a, 33a) and the third, eighth permanent magnets (31c, 33c) and the fifth The 10 permanent magnets 31e and 33e face each other with the same poles, and the second and seventh permanent magnets 31b and 33b and the 4th and 9th permanent magnets 31d and 33d respectively have different poles. Is disposed so as to face each other, the first magnetic force portion 32 and the second magnetic portion 34, respectively, between the permanent magnets (31, 33) and the permanent magnets (31, 33) are respectively located a silver plate 35 Combined magnetic treatment device is characterized in that far-infrared and negative ions are emitted.
The method of claim 2,
The inner surface of the magnetic shield portion 40 and one side or both sides of the silver plate 35 is further formed with a carbon plate 120 to combine the far infrared and negative ions coupled to induce more powerful far-infrared radiation Mold magnetic processing device.
The method of claim 1,
Positioned at both ends of the inner pipe 10, and further comprises a vortex induction unit 110 to induce vortex phenomena so that the water flowing into and out of the inner pipe 10 is atomized,
The vortex induction unit 110,
The first body 111a having a cylindrical shape through which the inside penetrates, and a plurality of plate bodies 111b formed at the end thereof toward the center of the first body 111a in the first body 111a, The plate body 111b includes a vortex derivative 111 that is twisted in order to efficiently induce vortex phenomena of water;
Located on both sides of the vortex derivative 111, the second body (112a) having a cylindrical shape and a plurality of distribution holes (112b) are formed so that water flows inside the second body (112a) And a pulverizing derivative 112 configured to induce a pulverization phenomenon to crush the flow of water into a plurality of streams,
Far-infrared and anion are characterized in that it comprises a connecting bolt 113 to connect the grinding derivative 112 to each other located on both sides of the vortex derivative 111 so that the grinding derivative 112 is firmly bonded Combined magnetic processing device that emits.
The method of claim 4, wherein
At least one through hole (114) is formed in the plate body (111b) of the vortex derivative (111).

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