KR20090011093U - Apparatus for Magnetizing Water - Google Patents

Abstract

Disclosed are a magnet rod for magnetizing hexagon and a magnetization processor using the same.

Magnetization hexagonal magnet bar of the present invention is a magnet case; A plurality of permanent magnets stacked on the inside of the magnet case so as to face each other with the same polarity, and wherein the polarities of the S poles face each other; A support shaft penetrating and supporting the permanent magnet; And a fixing piece coupled to each end of the support shaft to fix the permanent magnet in the magnet case.

In addition, the magnetization processor of the present invention is the upper side is open, the lower body is provided with a connection portion connected to the pipe; A cover coupled to an upper side of the main body and having a connection part connected to a pipe at an upper side thereof, and having a space formed therein; And a magnet case accommodated in the main body, and a plurality of stacked magnets facing the same polarities in the magnet case, and the permanent magnets formed therebetween on the surfaces of which the polarities of the S poles face each other, penetrating the permanent magnets. A magnet rod having a support shaft for supporting and a fixing piece coupled to an end of the support shaft to fix the permanent magnet in the magnet case; And fixed caps respectively coupled to ends of the magnet bars to fix the magnet bars in the main body.

Magnetizer, magnet pole, N pole, S pole

Description

Magnet bar for magnetizing hexagon and magnetization processor using the same {Apparatus for Magnetizing Water}

The present invention relates to a magnetization processor for purifying impurities contained in water supplied through a pipeline by using a magnetic rod. In particular, water flowing through the magnetization processor is processed by using a magnetic field generated in the N pole, which is beneficial to the human body. It relates to a magnetization hexagon bar magnet and a magnetization processor using the same.

In modern times, many households, factories, farms, and other wastes are emitted, and as time passes, water with self-cleaning capacity is severely polluted and cannot be directly used as drinking water. It is a well known fact that many ecosystems are damaged.

In addition, many devices and methods have been used as a water purification process to clean contaminated water, and research for more efficient water purification is still being conducted.

Looking at some of the known methods of purified water to date, the biological method using the active sludge or microorganism, the chemical method using the chemical reaction, and the physical method using the electron or ultrasonic waves or the situation is being studied.

However, according to the conventional water purification method, not only stable water purification is achieved but also operating costs required for water purification are high, and water purification efficiency cannot be increased.

In other words, conventional biological methods using activated sludge or microorganisms are used in many countries internationally to decompose contaminants by microorganisms, but since they have a limit of effective concentration in digestive substances of microorganisms, they contain high concentrations of waste. In the state, the treatment is insufficient, and in the case of waste water having alkali or acidity, pretreatment is required, and it is affected by the environment such as time and temperature, and the installation area must be large. there was.

In addition, the chemical treatment method has the advantage of fast reaction speed and simple process, while even in the case of decomposing organic materials which are difficult to treat biologically, the installation and maintenance costs are too expensive to treat wastewater by itself. B was used only as a post-treatment.

In addition, the physical method using electrons or ultrasonic waves is applied to the process of decomposing hardly decomposable substances such as benzene compounds and halogen compounds, which are difficult to process by biological methods or chemical methods, but they are widely used because their effects are insignificant compared to the huge facility and maintenance costs. There was a disadvantage that can not be.

In order to improve this point, a magnetization processor using a permanent magnet has been conventionally disclosed. The magnetizer is to magnetize water directly supplied to the human body using a clinically proven magnet.

For example, water is a combination of two hydrogen atoms and one oxygen atom, and as the temperature increases, they form a five-chain or pentagonal ring shape, and as the temperature decreases, the hexagonal ring shape 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.

Therefore, when water passes through the magnetic field of the magnet, the molecular structure of the water is ion-activated to become magnetized water having a mineral-rich weak alkaline hexagonal structure. The magnetization processor using such a magnet can obtain a large amount of magnetized water in a short time. It is widely used for domestic water as well as in general households as well as in food factories, baths, livestock and plant farming.

Prior arts related to such a magnetizer are disclosed in Korean Utility Model Publication No. 0437393, "A magnetization hexagonal water production apparatus using a magnetizer." According to this, the surface tension of water is changed by magnetic action of water, so that various minerals contained in the water can be useful for the human body. The permanent magnet (12000 gauss) with high magnetic strength is used to N, S and S poles are spaced apart from each other via spacers to increase magnetic field strength and magnetic flux density, and the hot water circulating water is passed through the magnetizer to change the magnetization hexagonal number with low surface tension of the circulating water. It was made to be possible.

However, according to recent research, Magnetism and its effects on the living system, Albert Roy Davis, 1974, the magnetized water generated at the N pole of a magnet While there is a beneficial effect, the magnetized water produced in the S pole has been found to have a generally detrimental effect. Specifically, the magnetized water generated at the N pole of the magnet is beneficial to the human body, such as increasing work efficiency, suppressing cancer cell proliferation, improving metabolism, reducing pain, calming allergy and promoting sleep.

In view of these findings, the above prior art has the disadvantage that the beneficial effect on the human body is reduced because magnetization water is generated in the same way as the north pole, which is harmful to the human body.

Therefore, the present invention enables to treat the water passing through the magnetization processor using the magnetic field generated in the N pole to increase the beneficial effect on the human body.

In order to solve the above problems, a magnet case; A plurality of permanent magnets stacked on the inside of the magnet case so as to face each other with the same polarity, and wherein the polarities of the S poles face each other; A support shaft penetrating and supporting the permanent magnet; And it is coupled to the end of the support shaft is provided with a magnetism hexagonal magnet rod including a fixing piece for fixing the permanent magnet in the magnet case.

In addition, the upper side is open, the lower body is provided with a connection portion connected to the pipe; A cover coupled to an upper side of the main body and having a connection part connected to a pipe at an upper side thereof, and having a space formed therein; And a magnet case accommodated in the main body, and a plurality of stacked magnets facing the same polarities in the magnet case, and permanent magnets having a spaced portion therebetween on surfaces facing the polarities of the S poles, penetrating the permanent magnets. A magnet rod having a support shaft supporting the support shaft and an end portion of the support shaft, the magnet having a fixing piece for fixing the permanent magnet in the magnet case; And a fixed cap coupled to each end of the magnet rod to fix the magnet rod in the main body.

According to the magnet bar and the magnetization processor configured as described above, the magnetic control structure formed in the permanent magnet maximizes the generation of the magnetized water generated at the N pole which is beneficial to the human body, and the generation of the magnetized water generated at the S pole which is not beneficial to the human body. It can be minimized.

Hereinafter, with reference to the accompanying drawings, a magnetization hexagonal magnet bar and magnetization processor according to an embodiment of the present invention is as follows.

1 to 4 illustrate a magnetization processor according to an embodiment of the present invention.

According to this, the magnetization processor 1 of the present embodiment has a main body 10 for allowing water to pass through therein, a cover 20 coupled to the upper side of the main body 10, and a magnetic rod provided in the main body 10. And 50.

1 and 2, the main body 10 is made of a cylindrical steel material, is interposed between the pipes for supplying water.

The magnetic rod 50 is accommodated in the main body 10 to remove scale, rust, and other impurities contained in the supplied water. At this time, the upper surface of the main body 10 is opened for maintenance and the like for the component parts such as the magnetic rod 50 mounted therein.

And the lower portion of the main body 10 is formed with a connecting portion 11 for connecting to the pipe. In addition, the upper edge of the main body 10 is provided with a flange so that the O-ring 12 to be described later when the cover 20 is coupled to. Therefore, the airtightness is improved by the coupling of the main body 10 and the cover 20 by the airtight is maintained by the O-ring 12 provided on the upper flange of the main body 10.

On the other hand, in the present embodiment, the connecting portion 11 is configured as a "b" shape as shown in FIG. 1 is generally used for home use, which can secure more installation space and accommodate more permanent magnets inside the main body 10. There is an advantage.

1 and 2, the cover 20 is coupled to the open upper surface of the main body 10, the connection portion 21 is formed in the upper center protruding. At this time, the O-ring 12 of a rubber material is interposed between the main body 10 and the cover 20 to maintain airtightness between each other.

On the other hand, in order to secure the fastening state of the main body 10 and the cover 20, the fastener 30 of the screw coupling method may be provided on the outer side of the connection portion of both. Typically, the fastener 30 of the present embodiment is applied when the magnetization processor is used for industrial purposes.

The fastener 30 is composed of a pair of fastening pieces 31 in the form of a semi-circular ring, one end of each fastening piece 31 is coupled to the hinge 32 and the other end is fastened to the screw 33 by the main body 10 ) And the cover 20 is possible, and since such a configuration is well known, a detailed description thereof will be omitted.

As shown in FIGS. 2 and 5, the magnetic rod 50 forms a magnetic field inside the main body 10 to induce magnetization in water passing through the main body 10 to form a molecular structure of impurities such as scale or rust. It is intended to eliminate the hazard by changing.

The magnet rod 50 is composed of a magnet case 51 having a predetermined space formed therein, and a plurality of permanent magnets 52 of S-pole and N-pole arranged vertically stacked inside the magnet case 51. do. And it is coupled to both ends of the support shaft 53 and the support shaft 53 for supporting a plurality of permanent magnet bundles through the center of each permanent magnet 52 to fix the permanent magnet bundle in the magnet case 51 It further includes a fixing piece (54).

At this time, the magnet case 51 is made of a metal as in the usual, there is a fear that rust may occur on the outer surface by the repetitive flow of water, a separate Teflon coating layer 55 is formed on the surface.

The teflon coating layer 55 is made of at least 99.9% by weight of perfluoro alkoxy resin (PFA) or fluorinated ethylene propylene resin (PEF). Alternatively, the Teflon coating layer 55 is 30 to 45% by weight of tetrafluoroethylene resin (PTFE), 4.5 to 6.5% by weight of Alkyl Polyoxyethene Glycol Ether (APGE), 1 to 5% by weight of carbon black, 35 to 45% by weight of water, ammonia Perfluorooctanoic acid (APFO; Ammonium Perfluorooctanoate) may be composed of 0.01% by weight or less.

Teflon is a fluorocarbon resin developed by Dupont, USA, which forms a very stable compound due to the strong chemical bonding of fluorine and carbon, which results in almost perfect chemical inertness and heat resistance, non-tackiness, excellent insulation stability, and low coefficient of friction. Has characteristics. Carbon black is black fine carbon powder, which corresponds to so-called soot, and the size of carbon particles is 1 to 500 ml and is similar to graphite. Industrially, soot produced by incomplete combustion of natural gas, tar and the like is collected or pyrolyzed to produce them.

Therefore, when the Teflon coating layer 55 is formed on the surface of the magnet case 51, rust is prevented from occurring in the magnet rod 50 by water flowing around the magnet rod 50 during continuous use of the magnetization processor.

On the other hand, the coating layer 55 is preferably formed of a Teflon material, but in terms of production, the coating layer 55 may be made of polyamide or acetal material as a main component. Acetal materials are easily soluble in alcohol and ether but insoluble in water, unstable in acid but relatively stable in alkali.

The permanent magnets 52 stacked in the magnet case 51 are preferably made of approximately 10 or more cobalt / nickel-based or neodymium (5,000 to 10,000G).

That is, while increasing the high magnetic field area emitted from the contact gap portion of each permanent magnet 52 per length of the magnetic rod, while in the magnetic rod 50 to minimize the length of the permanent magnet 52 is formed low magnetic field Permanent magnets 52 are arranged in a stacked arrangement using a magnet as short as possible, it is made to mount several (10 to 20).

At this time, the permanent magnets 52 of the present embodiment are stacked in the magnet case, a plurality of permanent magnets are stacked so as to face the same polarity with each other, the pair of adjacent permanent magnets spaced apart on the surface facing the polarity of the pair of permanent magnets A portion 52a is formed.

The spacing 52a is an oblique incision in which the opposite S-pole ends of a pair of permanent magnets stacked are opposite to each other, and is generated at the S pole by causing a gap between the water flowing in the main body and the S pole. This is to minimize the generation of harmful magnetized water by reducing the magnetization.

On the other hand, the upper and lower sides of the magnet bar 50, respectively, the fixed cap 70 is detachably fitted to the detachable, by the fixing cap 70 is a magnetic rod 50 is fixedly coupled in the main body 10. . The fixing cap 70 is composed of a plurality of support legs provided perpendicular to the ring body, so that the magnetic rod 50 is fixed to one side of the main body 10 without being attached.

In addition, the magnetization processor 1 of the present embodiment is further provided with a magnetization reinforcing member 60 on the outer peripheral surface of the main body 10. A plurality of auxiliary permanent magnets 61 are installed inside the magnetization reinforcing member 60, wherein the N poles of the auxiliary permanent magnets 61 are permanent magnets 52 installed to face the N poles of the magnetic rod 50 and It is arranged to correspond to the outside at a predetermined interval. Therefore, it is possible to contribute to increase the beneficial effect on the human body by increasing the magnetism generated in the N pole of the permanent magnet.

Reference numeral 56 denotes a spacer for separating the permanent magnets adjacent to each other up and down, and is usually made of a metal material.

5 and 6 show another embodiment of the magnetization processor according to the present invention, the vortex conductor 40 may be further provided inside the main body 10.

The vortex inductor 40 has a pair of semi-circles 41 formed symmetrically with each other so as to surround the magnet rod 50. At this time, the vortex inductor 40 may be made of a single cylindrical body, not made of a pair of semi-circles 41, it is easy to assemble with the magnet rod 50 accommodated therein to form a semi-circle There is an advantage.

Each semicircle 41 is manufactured by injection molding, and is preferably formed of a synthetic resin material for ease of production and mass production. At this time, it is preferable that the uneven parts are alternately formed at both ends of each semi-circle so that the fastening force is firm when the semi-circles 41 are coupled to each other while wrapping the magnet rods 50.

On the inner wall surface of each semi-circular body 41, the vortex guide piece 42 is formed to protrude a predetermined amount inwardly so that the water passing through the magnet rod 50 flows in a spiral form. That is, spirals are formed in the inner circumferential surface of the vortex inductor 40 so as to maximize the influence of the magnetic field generated in the magnetic rod 50 on the water passing through the main body 10. At this time, the vortex guide piece 42 can adjust the vortex speed by manufacturing by adjusting the inclination angle.

Therefore, the water passes through the main body 10 and at the same time passes through the vortex inductor 40, so that the vortex state is maintained, thereby maximizing the magnetization phenomenon by the magnet rod 50, thereby becoming a more perfect water treatment.

On the other hand, in order to maximize the magnetization by the vortex of the water, when the semicircular bodies 41 of the vortex inductor 40 are combined with each other, the vortex guide pieces 42 formed on the semicircular bodies 41 cross each other (approximately). "X" shape).

Hereinafter, an operation process by the magnetization processor according to the present invention will be described in detail.

In general, minerals and bases (dissolved solids or soil components) present in cold or hot water supply, etc. are extracted due to the difference in solubility according to the temperature change due to cooling or heating, and scales are attached to the inner wall of the pipe (pipe). It is composed of various compounds such as calcium, magnesium, calcareous, etc. contained in the fluid, and these components are produced by the diamagnetic material contained in the fluid.

In the case of scale, it has the property of diamagnetic material, and in the case of such a diamagnetic material, it has induction polarity when passing through the magnetic field, and the water passing through the pipe also has induction polarity when passing through the magnetic rod 50 by having the property of the diamagnetic material. Induced ionization polarity in other diamagnetic molecules and polarized molecules induce polarization of another molecule. As a result, the scale contained in the pipe is removed as a result of induced polar activity of the chained molecules.

In addition, as the pipes are corroded, rust is generated. These pipes are caused by internal environmental factors of metals, or may be caused by pH effects, water temperature effects, water flow rates, and chlorine ion equilibrium.

Therefore, when connecting the magnetization processor 1, the coupling of the magnetic rod 50 is completed, such as a water pipe, water is introduced through the connecting portion 21 formed in the cover 20, the water introduced into the body 10 Magnetized while passing through the accommodated magnet rod 50 is discharged through the flow path formed in the main body 10.

At this time, the magnetic field generated by the magnetic rod 50 acts on the water passing through the body, and thus the water is activated in a state where the magnetization phenomenon is maximized. At this time, when the vortex conductor is installed in the main body, Lorentz's force is applied to the water passing through the magnetic rod 50 so that the water proceeds in a spiral direction. It is activated.

The principle of magnetized water generation is explained in detail. The water molecules are clustered in the form of 15 to 20 molecules. When a magnetic field is applied to the water, the hydrogen constituting the water molecules is toward the -pole (N pole) and the oxygen molecule is the + pole (S pole). The attraction force acts toward) and the magnetic force causes the water molecules to rotate rapidly, and when the water molecules rotate at a high speed, they collide with a myriad of negative charges (anions) formed in the magnetic field, thereby miniaturizing the water molecules.

Thereafter, the micronized water molecules are recombined again to be activated and ionized to form a cluster. At this time, the recombination structure forms a hexagonal structure to form hexagonal water and contributes to an increase in the amount of dissolved oxygen.

On the other hand, the water passing through the magnet bar 50 is magnetized while being in contact with the magnetic force emitted from the junction of the plurality of permanent magnet bundles stacked in the magnet bar 50 in the vertical direction.

That is, the water introduced into the main body 10 is magnetized by the strong magnetic force generated by the repulsive force generated at the junction of the plurality of permanent magnets 52 which are stacked and arranged, and the water is perpendicular to the direction of magnetic force divergence of the magnet rod 50. By making it flow, the magnetic force is uniformly radiated to the flowing water and the water is activated.

The water changed into the magnetized hexagonal water through the magnet rod 50 is discharged to the outside through the connecting portion 11 of the main body 10.

Here, the spaced portion 52a is formed in the portions of the permanent magnets 52 that are in contact with each other among the permanent magnets 52 that are stacked on each other, so that a gap is generated between the S pole and the water, thereby reducing the magnetism generated in the S pole and generating the N pole. By maximizing the magnetism it is possible to optimize the production of magnetized water beneficial to the human body.

1 is a perspective view showing a magnetization processor according to an embodiment of the present invention.

FIG. 2 is an exploded perspective view of the magnetization processor of FIG. 1. FIG.

3 is a longitudinal cross-sectional view of the magnetic rod applied to FIG.

4 is a cross-sectional view of a magnetic rod applied to FIG. 1.

5 is an exploded perspective view showing a magnetization processor according to another embodiment of the present invention.

6 is a longitudinal sectional view of the magnetization processor according to FIG. 5;

<Description of Symbols for Main Parts of Drawings>

One ; Magnetization processor 10; main body

20; Cover 30; Fastener

40; Vortex derivative 41; Semicircle

42; Eddy Current Guide 43; Unevenness

50; Magnetic rods 51; Magnet case

52; Permanent magnet 52a; Spacing

53; Support shaft 54; Fixed piece

55; Teflon coating layer 60; Magnetization reinforcing member

61; Auxiliary permanent magnet

Claims (6)

In the magnetic rod that forms a magnetic field to magnetize water, Magnet case; A plurality of permanent magnets stacked on the inside of the magnet case so as to face each other with the same polarity, and wherein the polarities of the S poles face each other; A support shaft penetrating and supporting the permanent magnet; And Magnetized hexagonal magnet bar, characterized in that it comprises a fixing piece which is respectively coupled to the end of the support shaft to fix the permanent magnet in the magnet case. The method according to claim 1, The spacer is magnetized hexagonal magnet bar, characterized in that the opposing S-pole end of the pair of permanent magnets are stacked obliquely in a direction facing each other. The method according to claim 1, Magnetized hexagonal magnet rod, characterized in that the surface of the magnetic rod is formed with a Teflon coating layer. A main body having an upper side open and a connection part connected to a pipe at a lower side thereof; A cover coupled to an upper side of the main body and having a connection part connected to a pipe at an upper side thereof, and having a space formed therein; And The magnet case accommodated in the main body, a plurality of stacked in the magnet case to face the same polarity to each other, the polarity of the S pole of the permanent magnets formed with a spaced apart from each other, the permanent magnet penetrates the support A magnet rod coupled to the support shaft and an end of the support shaft, the magnet rod having a fixing piece for fixing the permanent magnet in the magnet case; And Magnetization processor characterized in that it comprises a fixed cap coupled to the end of each of the magnet rod to fix the magnet rod in the body. The method according to claim 4, The outer peripheral surface of the main body is further provided with a magnetization reinforcing member in which the auxiliary permanent magnet is embedded, wherein the N pole of the auxiliary permanent magnet is disposed to correspond to the permanent magnets installed to face the N poles of the magnetic rod. The method according to claim 4, And a vortex inductor installed to surround the magnet rod in the main body to guide the vortices to the water passing through the main body.

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