TWM474019U - Magnetization resonance device of drinking water - Google Patents

Description

Magnetization resonance device for drinking water

The present invention is a magnetization resonance device for drinking water, especially a magnetization resonance device that resonates a large water molecule group into a small water molecule group.

Among them, the molecular formula of water molecules is H ₂ O. The water on the earth is composed of numerous water molecules, such as the same bunch of grapes, to form large and small water clusters, among which, micro clusters. About 4 to 8 water molecules are collected and detected by a Nuclear Magnetic Resonance (NMR) of about 78 Hz; the macromolecular group can be as large as 280 water molecules, and the general water molecular group also contains 10 to 15 water molecules (NMR detection of about 120-130 Hz).

After the water passes through a strong magnetic field, the water of the macromolecular group is divided into two molecules or single molecules by the magnetic field; the hydrogen-oxygen bond angle of the water molecules after magnetization is reduced from 104.5° to about 103°, and the direction of the magnetic distance between the atoms changes and the value increases. The nature of the fluid is thus changed, and the magnetic molecules are used to activate the water molecules, and the macromolecular groups of water are converted into small molecular groups of water, which is magnetized water.

In the above, the magnetized water is produced by the magnetizer, wherein the magnetizer is a structure in which the fluid magnetization device magnet is fixedly assembled, the outer part is a metal shell, and the ends are high-density mechanically machined nuts. The inside is mainly a set of magnetically conductive layers that are symmetrically docked and combined with a magnet block in a computer simulation. They are placed in a mold and are made of soft plastic. The coating further comprises forming a magnetized monomer between the magnet block and the magnetically permeable layer, and forming a passage for the drinking water to pass between the magnet block and the magnet block.

However, the stability of the magnetized water formed by magnetization only by the magnet is not good, and it is easy to change and the center of gravity is combined into a large molecular group of water.

The main purpose of the present invention is to provide a magnetization resonance device for drinking water, thereby improving the problem of poor stability of magnetized water caused only by magnet magnetization.

In order to achieve the foregoing, the magnetizing resonance device of the present invention includes: a casing having an accommodation space therein and forming a water inlet and a water outlet; and a magnetizing device attached to the casing The accommodating space includes a hollow tube body, wherein the tube body is provided with a plurality of permanent magnets arranged at intervals, and a cover is respectively disposed at two ends of the tube body, and the two ends of the tube body are respectively adjacent to the water inlet And the water outlet, and the magnetic properties of the opposite ends of the two adjacent permanent magnets; and an inducing layer that is disposed in the accommodating space of the outer casing and filled between the outer casing and the magnetizing device, the inducing layer includes There are many far infrared ceramic units and multiple π wave ceramic units.

The drinking water flows into the outer casing from the water inlet, further passes through the induction layer, the magnetizing device, and then the water outlet flows out of the outer casing, wherein the permanent magnet of the magnetizing device is induced and resonated by the induction of the infrared ceramic unit and the π wave ceramic unit. And with the magnetic field, the macromolecular group of water flowing through the outside of the tube is cut into a permanent small molecule group having a hydrogen-oxygen bond angle of 103°, and the small fraction is improved. The stability of the sub-set, and the magnetization device with the tube body and the cover, so that the water does not come into contact with the permanent magnet, can improve the service life of the permanent magnet.

10‧‧‧ Shell

11‧‧‧ water inlet

12‧‧‧Water outlet

13‧‧‧Ontology

14‧‧‧End cover

15‧‧‧ pipe joint

20‧‧‧Magnetization unit

21‧‧‧ tube body

22‧‧‧ permanent magnet

23‧‧‧ Cover

30‧‧‧Induction layer

31‧‧‧ far infrared ceramic unit

32‧‧‧ π wave ceramic unit

Fig. 1 is a schematic plan view showing a preferred embodiment of a magnetization resonance device for drinking water.

Fig. 2 is a partial cross-sectional view showing a preferred embodiment of a magnetization resonance device for drinking water.

Figure 3 is a schematic view of the end face of the 3-3 cut line of Figure 2.

Fig. 4 is a schematic view showing the flow of water through a preferred embodiment of the magnetization resonance device for drinking water.

Referring to FIG. 1 to FIG. 3, a preferred embodiment of the magnetization resonance device for drinking water according to the present invention comprises a casing 10, a magnetizing device 20 and an inducing layer 30.

The housing 10 is provided with an accommodating space and a water inlet 11 and a water outlet 12. In the preferred embodiment of the present invention, the housing 10 includes a hollow body 13 The end cap 14 and the end cap 14 are provided with a pipe joint 15 that communicates with the accommodating space. The water inlet 11 and the water outlet 12 are respectively located at the end of the pipe joint 15 of the two end cap 14.

The magnetizing device 20 is disposed in the accommodating space of the outer casing 10. The magnetizing device 20 includes a hollow tubular body 21, and the tubular body 21 is provided with a plurality of permanent magnets 22 arranged at intervals, and at both ends of the tubular body 21 A cover 23 is respectively disposed, and the two ends of the tubular body 21 are adjacent to the water inlet 11 and the outlet The nozzles 12 and the opposite ends of the two adjacent permanent magnets 22 are magnetically different, that is, the two adjacent permanent magnets 22 are opposed to each other by an N pole and an S pole, wherein the magnetizing device 20 includes eight spaced apart permanent magnets. 22. The permanent magnet 22 is a neodymium iron boron magnet, and the tube body 21 is a member made of plastic.

The inducing layer 30 is disposed in the accommodating space of the outer casing 10 and is filled between the outer casing 10 and the magnetizing device 20. The inducing layer 30 includes a plurality of far-infrared ceramic units 31 and a plurality of π-wave ceramic units 32. The far-infrared ceramic unit 31 is a hollow cylindrical member, and the π-wave ceramic unit 32 is a spherical member.

Referring to FIG. 4, drinking water flows into the outer casing 10 from the water inlet 11 and passes through the magnetizing device 20 and the inducing layer 30, and then flows out of the water outlet 12 of the outer casing 10, wherein water passes through the far infrared ceramic units 31. The π wave ceramic unit 32 and the outer circumference of the tube body 21 flowing through the magnetizing device 20.

Wherein, the infrared ceramic unit emits a π-wave ceramic unit 32 emitting a wavelength of 5.6 μm to 15 μm and a divalent ferric ion in a high-energy state, so that protons, electrons, and neutrons in the iron nucleus vibrate 299,000 times per second. The electromagnetic energy is released at the frequency, and the resonance and resonance of the permanent magnet 22 of the magnetizing device 20 are combined, and the large magnetic group of the water flowing outside the tube 21 is cut by the matching magnetic field, and the hydrogen-oxygen bond angle is cut. a permanent small molecule group of 103°, thereby improving the stability of the water of the small molecule group after cutting, and in addition, the permanent magnet 22 of the magnetizing device 20 covers the tube body 21 and the cover 23 so that the water does not permanently The contact of the magnets 22 increases the service life of the permanent magnets 22. Further, the magnetizing means 20 is provided by a plurality of permanent magnets 22 arranged at intervals, which can expand the magnetic field and increase the effective magnetization area.

10‧‧‧ Shell

11‧‧‧ water inlet

12‧‧‧Water outlet

13‧‧‧Ontology

14‧‧‧End cover

15‧‧‧ pipe joint

20‧‧‧Magnetization unit

21‧‧‧ tube body

22‧‧‧ permanent magnet

23‧‧‧ Cover

30‧‧‧Induction layer

31‧‧‧ far infrared ceramic unit

32‧‧‧ π wave ceramic unit

Claims (7)

A magnetizing resonance device for drinking water, comprising: an outer casing having an accommodating space therein and forming a water inlet and a water outlet; a magnetizing device is disposed in the accommodating space of the outer casing, and the magnetizing device comprises The utility model has a hollow pipe body, wherein the pipe body is provided with a plurality of permanent magnets arranged at intervals, and a cover is respectively arranged at two ends of the pipe body, and the two ends of the pipe body are respectively adjacent to the water inlet and the water outlet, and two adjacent a magnetic phase of the opposite end of the permanent magnet is different; and an inducing layer is disposed in the accommodating space of the outer casing and is filled between the outer casing and the magnetizing device, the inducing layer comprises a plurality of far-infrared ceramic units and Multiple π wave ceramic units. A magnetization resonance device for drinking water according to claim 1, wherein the far-infrared ceramic unit is a hollow cylindrical member. A magnetization resonance device for drinking water according to claim 1, wherein the π-wave ceramic unit is a spherical member. A magnetization resonance device for drinking water according to claim 2, wherein the π-wave ceramic unit is a spherical member. The magnetizing resonance device for drinking water according to any one of claims 1 to 4, wherein the outer casing comprises a hollow body, the two ends of the body are respectively provided with one end cover, and the end cover is provided with a communication receiving The pipe joint of the space, the water inlet and the water outlet are respectively located at the end of the pipe joint of the two end cover. A magnetization resonance device for drinking water according to any one of claims 1 to 4, wherein the magnetization device comprises eight spaced apart permanent magnets. A magnetization resonance device for drinking water according to claim 5, wherein the magnetization device comprises eight spaced apart permanent magnets.