KR20080013277A - Device for producing magnetization hexagonal water - Google Patents

Abstract

An apparatus for generating magnetized hexagonal water is provided to improve the quality of the hexagonal water, by improving the arrangement of permanent magnets so as to form a magnetic field throughout a fluid material. An apparatus for generating magnetized hexagonal water comprises an inlet through which fluid is inputted, an outlet through which the hexagonal water is outputted, and a body connecting the inlet and the outlet. The body includes a first housing(20), a second housing(30), and a third housing(40), which are sequentially distanced from an inside center of the body at a predetermined interval. The first housing has first permanent magnets(22) of which poles having the same polarity face each other. The second housing has a passage through which the fluid passes. The third housing has second permanent magnets(46) disposed vertically to the first permanent magnets.

Description

Magnetized hexagonal water generator {DEVICE FOR PRODUCING MAGNETIZATION HEXAGONAL WATER}

1 is a schematic diagram showing the principle of generating a magnetized hexagonal number according to the prior art.

Figure 2 is a perspective view of a magnetized hexagonal water generating apparatus of a preferred embodiment of the present invention.

3 is an exploded perspective view of the magnetized hexagonal water generator of FIG. 2.

4 is a cross-sectional view of the magnetized hexagonal water generator of FIG.

5A and 5B are diagrams showing the principle of generation of magnetized hexagonal water according to the present invention.

The present invention relates to a magnetized hexagonal water generator, and more particularly, to a magnetized hexagonal water generator capable of maximizing magnetic force to produce high-quality magnetized meat singers.

Hexagonal water is water in which water molecules are bonded in a hexagon. Since the hexagonal water has a large heat capacity, it is known to play well with DNA and RNA biomolecules to improve life functions, to help prevent various adult diseases such as stroke diabetes, and to increase the body's immunity.

Hexagonal water is prepared by adding germanium ions to serve as structure forming ions; Preparing by lowering water below a predetermined temperature; And a method of making magnetized water by applying a strong magnetic field to water.

1 is a schematic diagram showing a principle of generating a magnetized hexagonal water according to the prior art.

Referring to FIG. 1, a bar magnet is disposed in the center of a tube through which fluid flows, and fluid flows around the bar magnet. At this time, the water molecules are rearranged by the magnetic field formed by the bar magnets to form hexagonal water.

However, such a device can easily magnetize the fluid close to the center portion where the bar magnet is located, but the fluid located at the relatively outer portion is far from the bar magnet, so that the magnetic force is remarkably lowered, and the magnetization is weak.

That is, the distance between the magnet and the fluid is extremely inversely related to the magnetic force. For example, a magnetic field 1 mm away from a bar magnet having 10,000 gauss on its surface represents 5,000 gauss, and a magnetic field of 2,000 gauss 2 mm away. In mm, it shows a magnetic field of 1,000 gauss.

Therefore, the magnetization of the fluid relatively far from the magnet is insufficient.

Korean Utility Model Registration No. 20-0412414 proposed a device that can manufacture hexagonal water by installing magnets on both sides of the central part of the water pipe.

The apparatus has a problem in that it is difficult to produce a sufficient number of hexagonal water due to insufficient magnetic field formation by placing the magnet only at the center portion.

In addition, Korean Utility Model Registration No. 20-0276377 proposed a device that is coupled and installed by enclosing a semicircular frame made of non-magnetic aluminum, a pair of male and female insert-type couplings to surround the outer circumferential surface of a circular water pipe.

However, even if the 'c' shaped magnetic shielding frame is wrapped around the permanent magnet, this device does not help to increase the strength of the magnetic field and wastes the raw materials. have.

Korean Patent Registration No. 10-468926 and Utility Model Registration No. 20-0299829 proposed a passage through which a fluid passes, and a device in which a magnet is disposed at the center of the passage, and a magnet is disposed to face the same pole.

The device has a high conversion of the hexagonal number of the fluid in close contact with the magnet, but a fluid that is relatively far from the magnet, i.e., a fluid present in the middle, has a low magnetic field and thus has not been sufficiently converted to the hexagonal number.

It is an object of the present invention to provide a magnetized hexagonal water generating apparatus capable of producing high-quality hexagonal water by forming a magnetic field throughout a fluid.

In order to achieve the above object, the present invention

An inlet through which fluid is introduced;

Hexagonal water exit portion;

It is provided with a main body connected to the inlet and the outlet at both ends,

The main body has a first housing, a second housing and a third housing formed spaced apart from a predetermined distance from the inside,

The first housing has first permanent magnets arranged to face the same pole,

The second housing has a passage through which the fluid passes,

The third housing provides a magnetized hexagonal water generating device having a second permanent magnet disposed to be perpendicular to the first permanent magnets.

In this case, the second permanent magnet has the same pole or the opposite pole as the first permanent magnets.

Hereinafter, the present invention will be described in more detail.

The degree of magnetization of the flowing fluid is proportional to the flow velocity of the fluid and is proportional to the strength of the magnetic force received at the point at which the fluid flows. Therefore, when the flow speed of the fluid is fast, the strength of the applied magnetic force is high, and the magnetization fluid having the greatest degree of magnetization can be obtained when the distance between the magnet and the fluid is as close as possible.

Magnetizing hexagonal water generating device according to the present invention is characterized by maximizing the strength of the magnetic force and sufficient magnetization can be made even if the fluid flows at a high speed in a narrow passage.

The magnetization hexagonal water generating device of the present invention is provided with at least two first permanent magnets in contact with the same polarity, S or N poles in the center of the fluid flow pipe. In this case, a repulsive force occurs between the first permanent magnets of the same pole, and the range of the magnetic force in which the magnetic force lines are distributed is widened by the repulsive force.

In this case, in order to maximize the magnetic force of the first permanent magnets, the second permanent magnets of the same or opposite poles are disposed apart from the first permanent magnets. The newly placed second permanent magnets may be maximized by placing the second permanent magnets as close as possible to the first permanent magnets, which are already disposed in the center of the fluid passage, so as not to close each other.

Specifically, the magnetized hexagonal water generator of this embodiment

An inlet through which fluid is introduced; Hexagonal water exit portion; A main body connected to the inlet and the outlet part at both ends, the main body having a first housing, a second housing, and a third housing formed spaced apart from the inside by a predetermined interval, and the first housing facing the same pole And a first permanent magnet disposed so that the second housing has a passage through which the fluid passes, and the third housing has a second permanent magnet to be perpendicular to the first permanent magnets.

In this case, the second permanent magnet is disposed to have the same pole or the opposite pole as the first permanent magnets.

2 to 5 are a perspective view, an exploded perspective view and a sectional view of a magnetized hexagonal water generating apparatus of a preferred embodiment of the present invention.

2 and 3, the inlet portion is a cap (2) that can be screwed to be connected to one side with the pipe or hose is supplied with the tap water is supplied with the fluid (water) that is the raw material of the hexagonal water, and each cap (2) ) Includes a tube connector 4 which is a passage for introducing fluid.

This inlet is connected to the other side of the main body is provided with a magnet that can be switched to the hexagonal water, the main body is connected to one side and the water outlet so that the converted hexagonal water is withdrawn. At this time, the O-ring 8 is disposed to maintain the watertightness between the inlet or the outlet part connected to the main body.

Like the inlet, the outlet portion is provided with a tube connector 10 and a cap 12 for the outlet of the hexagonal water passage.

The main body is composed of three housings, the first housing 20 is located at the innermost, spaced apart a predetermined interval, the second housing 30 is located so as to include the first housing 20, and a predetermined interval therefrom The third housing 40 is positioned to include the second housing 30 and spaced apart from each other. At this time, the plate 6 having an opening of a predetermined size is positioned on both sides of the main body so that the fluid flows toward the second housing 30.

The first housing 20 includes first permanent magnets 22 disposed to face the same pole of the N pole or the S pole, and a cover 24 covering the same, and has a closed structure at both ends.

The first permanent magnets 22 act on the whole of the space in which the fluid flows, and act perpendicular to the flow direction of the fluid so as to be magnetized with the greatest magnetic force. The first permanent magnets 22 are formed in the shape of a metal rod, rod, or plate, and the shape of the first permanent magnets 22 is not particularly limited in the present invention.

The cover 24 to prevent rust or corrosion by using a plastic material and to extend the life.

The second housing 30 has a structure in which both sides are open to form a passage through which the fluid passes. The fluid injected from the inlet through this passage is a magnetic field formed by the first permanent magnets 22 and the second permanent magnets 46. The molecular structure of water, which is a fluid, is a process such as separation and recombination of hydrogen bonds. While repetitively passing through, the particles are converted into hexagonal water (or magnetized water), which is healthy water. The hexagonal water thus converted is withdrawn through the water outlet.

The third housing 40 includes second permanent magnets 46 disposed to have the same or opposite polarity as the first permanent magnets 22. Like the first permanent magnets 22, the second permanent magnets 22 may be formed of a metal rod, rod, or plate magnet.

5A and 5B are diagrams showing the principle of generation of magnetized hexagonal water according to the present invention. FIG. 5A shows the generation of a magnetic field when the first permanent magnets 22 and the second permanent magnets 46 are the same pole, and FIG. 5B shows the first permanent magnets 22 and the second permanent magnets. When (46) is reversed, it shows the occurrence of magnetic field.

At this time, the fluid flows into the space in which the magnetic field is formed by the first permanent magnets 22 and the second permanent magnets 46, and the fluid is converted into a hexagonal number.

Referring to FIG. 5A, A plurality of first permanent magnets 22 are disposed so that the N poles face each other at a central portion of the fluid flow path, and the second permanent poles face the N poles that are the same pole at a position perpendicular to the first permanent magnets 22. Place the magnets 46.

In this case, the first permanent magnets 22 and the second permanent magnets 46 have the same pole, and thus a very dense magnetic force line is formed by the repulsive force therebetween.

Referring to FIG. 5B, Two first permanent magnets 22 are disposed to face the N poles in a central portion of the fluid flow path, and a second pole opposite to the S pole which is opposite to the position perpendicular to the first permanent magnets 22 is disposed. Permanent magnets 46 are disposed.

At this time, the first permanent magnets 22 and the second permanent magnets 46 have opposite poles, and a very dense magnetic force line is formed by the attraction between them.

In this way, the first permanent magnets 22 and the second permanent magnets 46 are arranged with magnets of the same pole or opposite poles to induce fluid flow at high speed in a narrow space to maximize magnetization and magnetic force. In particular, magnetization and magnetic force are maximized in the star area (*) to enable the magnetization of the fluid.

In other words, the fluid close to the vicinity of the first permanent magnets 22 can be easily magnetized, but the fluid located in the outer portion of the first permanent magnets is significantly separated from the distance from the first permanent magnets 46, so the magnetization degree is significantly reduced. Is weak. Accordingly, as the second permanent magnets 46 are further arranged, the maximum magnetic force value may be displayed in the star mark area (*), and the magnetic force may be applied to a fluid located relatively far from the first permanent magnets 22. The magnetic field is distributed throughout the fluid to produce high quality magnetized hexagonal water.

The apparatus of the present invention overcomes the limitations of the long installation in the direction of the fluid flowing in the center of the conventional tube, and can exert a magnetic force throughout the fluid to enable the production of high-quality magnetized hexagonal water.

Claims (2)

An inlet through which fluid is introduced; Hexagonal water exit portion; It is provided with a main body connected to the inlet and the outlet at both ends, The main body has a first housing, a second housing and a third housing formed spaced apart from a predetermined distance from the inside, The first housing has first permanent magnets arranged to face the same pole, The second housing has a passage through which the fluid passes, The third housing is a magnetized hexagonal water generating device having a second permanent magnets disposed so as to be perpendicular to the first permanent magnets. The method of claim 1, The second permanent magnet is a magnetized hexagonal water generating device having the same pole or the opposite pole with the first permanent magnet.

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