KR100743881B1 - Apparatus for manufacturing magnetized water - Google Patents

Abstract

An apparatus for manufacturing magnetized water is provided to increase the contact time between water and magnetic flux, thereby improving the quality of magnetized water, by forming a pipe with magnets in a U-shape so as to sufficiently secure the length of the pipe in a limited space. A pipe(30), through which water flows, is curved in a U-shape. Magnets(31) are attached onto the pipe at a uniform interval in a longitudinal direction. The pipe is placed within a housing(10). A magnetism emission preventing member(11) is packed in the housing, wherein the magnetism emission preventing member is composed of at least one of germanium, elvan, and ceramic. A water inlet(21) and an outlet(22) are respectively positioned outside the housing.

Description

Magnetized Water Production Equipment {APPARATUS FOR MANUFACTURING MAGNETIZED WATER}

1 is a cross-sectional view of the magnetized water production apparatus according to an embodiment of the present invention

2 is a perspective view and a cross-sectional view of the magnetized pipe according to an embodiment of the present invention

<Short description of the major reference symbols>

10 housing

     11 Magnetic radiation shielding material

21 water inlet

22 outlet

30 pipe

     31 magnet

     32 pressing surface

           32a cutout

The present invention relates to an apparatus for producing magnetized water, and more particularly, a pipe with a magnet is formed to be bent in a U-shape, accommodating the pipe in a housing, and compactly filled with a magnetic radiation shielding material in the housing. The present invention relates to an apparatus for producing magnetized water for increasing magnetization treatment efficiency.

In general, when water passes perpendicularly to the magnetic lines of force at a certain flow rate (2m / sec) or more, the molecular structure of the water is ion-activated and changed into hexagonal structure water (hexagonal water). The magnetized water is called magnetized water. This magnetized water has a smaller cluster size of the water molecule, so it is faster to absorb, improves washing power, helps to increase the natural healing power of the disease, inhibits the growth of various bacteria, and softens the skin during washing and showering. It is known to improve the natural healing power of the disease by efficiently releasing various toxins in the body.

However, in the conventional magnetized water production apparatus, the use of a straight pipe is mainly used to shorten the length of the pipe with magnets due to the limitation of space, and thus short the time for water to contact magnetic lines, thus limiting the production of high-quality magnetized water. There was.

In addition, the conventional magnetized water production apparatus is a member of the means for blocking the magnetic force lines radiated to the outside of the pipe around the magnet attached to the interference between the magnets and the waste of the magnetic force lines, the strength of the magnetic field due to the diameter and thickness of the pipe itself It was weakened and it was difficult to manufacture efficient magnetized water.

On the other hand, the water passing through the pipe with a magnet is a magnetized water to maintain a certain flow rate (2m / sec) or more, there is a problem that the efficiency of the magnetization treatment is lowered if the flow rate is not satisfied because the flow rate is small.

The present invention is to solve the above problems, an object of the present invention is to form a curved pipe with a magnet U-shaped to ensure a sufficient length of the pipe in a limited space, thereby making it compact and water By prolonging the time of contact with the magnetic force line to produce high quality magnetized water,

Means to block the magnetic force lines radiated outside the periphery of the pipe attached to the magnet to prevent interference between the magnets and the waste of magnetic lines,

By compressing and cutting the part where the magnet is attached to the pipe, the strength of the magnetic field transmitted to the water is increased to effectively produce magnetized water.

The diameter of the water supply port is larger than the diameter of the pipe, so that the flow rate of the water passing through the pipe attached with the magnet can be maintained to maintain a certain flow rate (2 m / sec) or more, thereby providing an apparatus for producing magnetized water which increases the efficiency of magnetization treatment. It is.

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In order to achieve the above object, the apparatus for producing magnetized water according to the present invention includes a magnet attached to a pipe through which water flows, and a water inlet and an outlet are respectively connected to the end of the pipe to enter the water outlet and exit the water outlet. In the magnetized water production apparatus for magnetizing the bent, the pipe is bent in a U-shape bent to the magnet at a predetermined interval in the longitudinal direction, the housing is provided with the pipe, germanium, elvan, The magnetic radiation shielding material made of at least one of ceramics is filled, and the water supply port and the discharge port are located outside the housing.

By the above configuration, the length of the magnetization pipe can be sufficiently secured in the space of the limited housing, thereby allowing sufficient time for water to come into contact with the magnetic force line, thereby making it possible to manufacture compact yet high-quality magnetized water. By blocking the magnetic force line radiated outside the pipe to which the magnet is attached, it is possible to prevent interference between the magnets and waste of magnetic force lines.

In addition, the pipe is crimped on both sides at regular intervals in the longitudinal direction, the cross section is formed with a flat surface having a flat gap, the pressing surface is formed with a cutout cut to a predetermined depth from the outer surface of the pressing surface, The magnet is attached to the cutout of the pressing surface.

By the configuration as described above, the strength of the magnetic field due to the diameter and thickness of the pipe itself can be prevented from being weakened, and the water flowing into the pipe can be changed into turbulent flow to effectively produce magnetized water.

In addition, the diameter of the water inlet is characterized in that formed larger than the diameter of the magnetized pipe.

By the above configuration, the flow rate of the water flowing into the magnetization pipe can be maintained at a certain level (2 m / sec), thereby increasing the magnetization efficiency.

Hereinafter, with reference to the embodiment shown in the drawings will be described in more detail the apparatus for producing magnetized water according to the present invention.

1 is a cross-sectional view of an apparatus for producing magnetized water according to an embodiment of the present invention, and FIG. 2 is a perspective view and a cross-sectional view of a magnetized pipe according to an embodiment of the present invention.

As shown in FIG. 1, the magnetization pipe 30 is bent in a U-shape to which the magnet 31 is attached at regular intervals.

This can ensure the length of the magnetization pipe 30 sufficient for the magnetization of water even in a limited space, it is possible to manufacture a compact, high-quality magnetized water. On the other hand, preferably, the magnet 31 uses a neodymium-iron-boron (Nd-Fe-B) magnet having a coercive force of 4,000 to 6,000 Gauss or more, and the magnets 31 have the same polarity. It is attached to the magnetized pipe 30 so as to face each other.

In addition, as shown in FIG. 1, the magnetized pipe 30 is housed in the housing 10, and the magnetic radiation blocking material 11 made of at least one of germanium, elvan, and ceramic in the housing 10. ) Is filled.

The magnetic radiation shielding material 11 has an effect of blocking the magnetic force lines radiated to the outside of the magnetization pipe 30 to reduce the interference between the magnets 31 and to concentrate the magnetic lines to magnetize the water to improve the magnetization treatment efficiency. It can be increased, and by filling the inside of the housing 10 to secure the magnetized pipe 30 and also serves to protect from external impact.

On the other hand, as shown in FIG. 2, the magnetized pipe 30 is compressed at both sides at a predetermined interval in the longitudinal direction (P direction) to form a crimp surface 32 having a flat gap formed therein, and the crimp surface The cutting part 32a cut out (P direction) from the outer surface of the said pressing surface 32 to the predetermined depth is formed, and the magnet 31 is cut in the cutting part 32a of the said pressing surface 32. As shown in FIG. Is attached.

This minimizes waste of magnetic force lines due to the diameter and thickness of the magnetized pipe 30 itself. In addition, the above-described configuration changes the flow of water flowing in the magnetization pipe 30 to turbulence because the shape of the cross section in the magnetization pipe 30 is changed at regular intervals. In a turbulent state, water has spin kinetic energy. When magnetic force is applied in this state, the spin kinetic energy is converted into electrical energy, causing an unbalanced dispersion force between clusters and water molecules, clusters and clusters. Since it is dispersed and positively ionized, the magnetization efficiency increases.

In addition, as shown in FIG. 1, the water supply port 21 and the discharge port 22 are provided at the outside of the housing 10 to be connected to ends of the magnetization pipe 30, respectively. ) Is larger than the diameter of the magnetized pipe (30).

The water flow rate is increased when the water passes through the narrow diameter pipe in the wide diameter pipe, the flow rate of the water flowing into the magnetization pipe 30 is maintained at a certain level (2 m / sec) to improve the magnetization efficiency For sake.

When water is passed vertically between the lines of magnetic force, the generated voltage (E) is related to the water velocity (V) and the magnetic flux density (B; the strength of the lines of magnetic force). .

E = V × B

That is, in order to improve the magnetization efficiency of the water by the magnet, as shown in the law of electromagnetic induction of Equation 1, the magnetic flux density should be increased while making the flow velocity of the water passing through the magnetic field lines as fast as possible. The increase leads to an improvement in the magnetization efficiency.

The magnetized water production apparatus according to the present invention by the configuration as described above, the length of the pipe in a limited space can be made sufficiently by forming a pipe with a magnet curved in a U-shape, thereby causing the water to contact the magnetic lines This is enough to have the effect of producing a compact but high quality magnetized water.

In addition, a magnetic radiation shielding material made of at least one of germanium, elvan, and ceramic is provided inside the housing to block magnetic lines radiated to the outside of the magnetization pipe, thereby reducing interference between magnets and concentrating magnetic lines on magnetizing water. There is an effect to increase the magnetization efficiency.

In addition, by squeezing and cutting the magnet attaching portion to the magnetization pipe, the waste of magnetic force lines due to the diameter and thickness of the magnetization pipe itself is minimized, and the flow of water flowing through the magnetization pipe is changed to turbulent flow to improve magnetization efficiency. It is effective to increase.

In addition, since the diameter of the water inlet is larger than the diameter of the magnetization pipe to increase the flow rate of water passing through the magnetization pipe, it is possible to maintain a certain flow rate (2 m / sec) or more, thereby increasing the magnetization efficiency.

The apparatus for producing magnetized water described above and shown in the drawings is only one embodiment for carrying out the present invention, and should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is defined only by the matters set forth in the claims below, and the embodiments improved and changed without departing from the gist of the present invention will be apparent to those skilled in the art. It will be said to belong to the protection scope of the present invention.

Claims (4)

delete In the magnetized water production apparatus for attaching a magnet at a predetermined interval to the water flowing pipe and the water supply port and the discharge port is connected to the end of the pipe to enter the water supply port to magnetize the water coming out of the discharge port, The pipe is bent in a U-shape, the magnet is attached at regular intervals in the longitudinal direction, the housing is provided with the pipe, the magnetic force made of at least one of germanium, ganban stone, ceramic in the housing The radiation shielding material is filled, the water supply port and the discharge port is magnetized water production apparatus, characterized in that located on the outside of the housing. The method of claim 2, The pipe is crimped at both sides at regular intervals in the longitudinal direction to form a crimping surface having a flat gap formed therein, and the crimping surface is formed with a cutout cut to a predetermined depth from an outer surface of the crimping surface. Magnetized water production apparatus characterized in that the magnet is attached to the portion. The method of claim 2, The diameter of the water inlet is magnetized water production apparatus, characterized in that formed larger than the diameter of the pipe.

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