KR100821721B1 - Large magnetized water generating apparatus - Google Patents

Abstract

A large magnetized water generating equipment is provided to maximize magnetization efficiency by blocking and minimizing leakage of magnetism to the outside and shielding and collecting a magnetism field, and transmit magnetic field line to water flowing through a pipe more efficiently by installing a plurality of magnetized water generators in parallel. A large magnetized water generating equipment comprises a magnetized water generator including: a body(40) having outer connecting parts(41) formed on front and rear sides thereof such that a water supply pipe(1) is connected to the outer connecting parts; a pair of blocking plates(60) which are installed in the body and spaced from each other, and which have a plurality of connecting holes(61) formed therein; a plurality of pipes(10) which are installed in parallel between the blocking plates, and through which water circulates; a plurality of magnets(21,31) closely adhered onto outer faces of the pipes to emit specified lines of magnetic force; and a plurality of shielding members(20,30) which cover outer faces of the magnets to shield the lines of magnetic force leaked to the outside, wherein each of the pipes includes a pressed part formed by pressing a central part of the pipe, and inner connecting parts formed on both ends of the pressed part, an upper magnet and a lower magnet are solidly connected to upper and lower sides of the pressed part by reciprocal magnetic attraction of the upper and lower magnets, and an upper shielding member and a lower shielding member are solidly connected to outer faces of the upper and lower magnets by magnetic force of the upper and lower magnets. Further, a filter net(50) is installed between the outer connecting parts and the blocking plates.

Description

Large magnetized water generating apparatus

The present invention relates to a magnetized water generator using a permanent magnet, and more particularly, by installing a plurality of magnetized water generator coupled to the outer surface of the magnet in a parallel structure to minimize the magnetic force leaking from the magnet The present invention relates to a large-capacity magnetized water generator that maximizes efficiency by shielding and concentrating a magnetic field.

Recently, interest in water has increased due to environmental pollution, and water purifiers and water softeners have become common in order to use safer and cleaner water.

However, the water purifier is a method of filtering foreign matters using a filter, there is a problem to remove all the beneficial minerals contained in the water, the water softener is a method of converting the water in the hard water state to soft water through ion substitution, Not only is there an additional cost for ion exchangers (salt, etc.), but it is known that the ionized components may adversely affect the nervous system.

On the other hand, it is magnetized water that is newly attracting attention by replacing it.

The magnetized water uses the principle that the water molecules become smaller while the hydrogen bonds of the water go through a process of separation and recombination when water moves through a strong magnetic field. Such magnetized water refines the water molecules to suppress bacteria and remove and inhibit scale. It is excellent, and excellent effects, such as increasing the growth force of plants and animals and promoting cement curing, are recognized.

Researchers have analyzed the structure of drinking water in the human body and how it changes, and concluded that drinking magnetized water (magnetized water with hexagonal ring molecules) is very efficient. It was found that using the can easily obtain the magnetized water.

Therefore, when the magnetized water generating device in which the magnet is installed at a certain position of the pipe is attached, the water passing through the pipe reacts with the magnet of the magnetizing water generating device and can be changed into the magnetized water beneficial to the human body. This is a state in which the same magnetic poles of the magnets installed opposite to each other in the pipe face each other, and the magnetic flux density is doubled due to the magnetic force of the counterpart generated from each magnetic pole. Therefore, the magnetic force lines flow in the direction perpendicular to the direction of the water flowing into the pipe. The magnetization can be penetrated by magnetic force lines into the water to become magnetized.

However, the conventional magnetization water generator is not only efficient in the generation of magnetization water due to the leakage of magnetic force of the magnet, but also has a limit to magnetize a large amount of water in a short time, agricultural and industrial water, farms, apartments, etc. Likewise, there is a problem in that it cannot cope when a large amount of magnetized water is needed.

The present invention is to solve the above problems, the present invention is built by the magnetization water generator coupled to the shield on the outer surface of the magnet to block the magnetic force leaking to the outside to minimize, shielding and focusing the magnetic field The purpose is to provide a large-capacity magnetized water generator that maximizes efficiency.

Another object of the present invention is to provide a large-capacity magnetization water generator for installing a plurality of magnetization water generators in a parallel structure so that magnetic force lines generated in the vertical direction from magnets can be more efficiently transmitted to the water communicating inside the pipe. have.

The main body is provided with an outer coupling portion connected to the water supply pipe on the front and back, a pair of spaced apart in the interior of the main body is provided with a plurality of coupling holes, a plurality of the parallel installation between the blocking plate, The technical feature is that it comprises a magnetized water generator that is sequentially coupled to the magnet and the shield on the outer surface of the pipe.

As described in detail above, the large-capacity magnetized water generator according to the present invention, the magnets 21, 31 and shielding holes 20, 30 on the outer surface of the pipe 10 in which water communicates with the magnetic force By installing a plurality of combined magnetization water generators 100 in a parallel structure inside the main body 40, the magnetic field leakage to the outside is minimized to maximize the generation efficiency of magnetization water and supply a large amount of magnetization water by shielding and concentrating the magnetic field. It can be effective.

In addition, the pipe 10 is provided with a crimping portion 11 of a predetermined length in which the center portion is compressed in the vertical direction, so that the upper and lower magnets 21 and 31 and the upper and lower shielding openings 20 and 30 are stable. There is another effect of increasing the contact area to be seated at the same time, and at the same time to increase the flow rate of the tap water to be transported to make the magnetization more efficient.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a large-capacity magnetized water generator of the present invention, Figure 2 is an exploded perspective view showing a magnetized water generator installed inside the large-capacity magnetized water generator according to the present invention, Figure 3 is a line III-III of Figure 1 4 is a cross-sectional view taken along the line IV-IV of FIG. 3, and FIG. 5 is a cross-sectional view showing another embodiment of the present invention.

As shown in FIG. 1, the large-capacity magnetized water generator of the present invention includes a main body 40 made of metal, and an outer coupling part 41 provided on the front and rear surfaces of the main body 40.

Inside the main body 40, a plurality of magnetization water generator 100 as shown in Figure 2 is installed in a parallel structure, the magnetization water generator 100 includes a pipe 10 for communicating water therein; A plurality of magnets (21) (31) installed in close contact with the outer surface of the pipe (10) and emitting a predetermined magnetic force line; Comprising a structure surrounding the outer surface of the magnets (21) (31) comprises a plurality of shields (20, 30) for blocking the magnetic force lines flowing out, the upper and lower shields (20) ( Water magnetized by the plurality of magnets 21 and 31 installed inside the 30 is discharged through the inner coupling portion 12 of the pipe 10.

In addition, as an embodiment of the present invention, the pipe 10 is composed of a crimping portion 11 formed by crimping a central portion and internal coupling portions 12 formed at both ends of the crimping portion 11, wherein the crimping portion ( 11, the upper magnet 21 and the lower magnet 31 are firmly coupled to each other by mutual attraction, and the outer and outer surfaces of the upper magnet 21 and the lower magnet 31 are again attached to each other. The upper shield 20 and the lower shield 30 is firmly coupled by a magnetic force.

That is, the pipe 10 is composed of a crimping portion 11 of a predetermined length in which the center portion is compressed in the vertical direction, and the inner coupling portion 12 having a circular pipe shape formed at both ends of the crimping portion 11, The pressing part 11 increases the contact area so that the magnets 21 and 31 can be stably seated, and at the same time, increases the flow rate of the tap water to be transported to make magnetization more efficient.

The upper and lower shielding holes 20, 30 formed symmetrically bent on the upper and lower sides of the crimping portion 11 are closely coupled, and the upper and lower shielding holes 20 and 30 are made of stainless steel (SUS), or iron. It is preferable to comprise with the metal which consists of alloy (GI) of and chromium.

In addition, a plurality of upper magnets 21 and lower magnets 31 are arranged side by side in the longitudinal direction inside the upper and lower shielding openings 20 and 30, and the upper and lower magnets 21 and 31 are The upper and lower sides of the crimping portion 11 are installed to be spaced apart by a predetermined distance, and the N and S poles are alternately installed in the longitudinal direction, and the upper and lower facing magnets are also installed to have opposite polarities.

The thickness of the upper and lower shields 20 and 30 is preferably formed to be the same as the thickness of the upper and lower magnets 21 and 31, but when the thickness of the shields 20 and 30 is thin, Due to the large amount of magnetic force lines leaking to the magnetization efficiency is reduced, on the contrary, if too thick, there is a problem that the manufacturing cost rises.

The applicant of the present application performed a comparison experiment with a conventional magnetization generator to verify the concentration of the magnetic force by the upper and lower shields (20, 30).

[Test Subject: Conventional Magnetizer-Circular Magnet

             Filed Application-Nd-Fe-B Magnet

  Experimental apparatus: Gaussian (magnetic strength) measuring instrument]

First, when the magnetic force detected in the "inside" of the magnetization generator through a Gaussian measuring instrument, the following results are obtained.

Conventional Magnetization Generator Application for application (magnet) Application for main office (magnet + shield) 1 time 88 2020 5380 Episode 2 91 2105 5940 3rd time 89 2030 5675 4 times 93 2240 6350 5 times 92 2210 6510

                         [Experiment Result 1]

That is, the present application has been greatly enhanced the strength of the magnetic force by changing the material of the magnet, the result of using the shield 20, 30 to improve the concentration of the magnetic force by about 300%.

In addition, measuring the magnetic force detected at the "outside" of the magnetization generator through a Gaussian measuring instrument results in the following results.

Conventional Magnetization Device Application for main office (magnet + shield) 1 time 558 41 Episode 2 610 48 3rd time 570 46 4 times 980 55 5 times 1107 60

                         [Experiment 2]

That is, the conventional magnetizer is much stronger than the outside of the magnetic force, but the present application was able to confirm that the magnetic force is concentrated inward by using the shield (20, 30), which is due to the inside of the magnetization generator The communicating water is magnetized more efficiently.

On the other hand, the magnetized water generator 100 of the present invention as shown in Figures 3 and 4 are coupled to the inside of the body 40 in a parallel structure is transported through the water supply pipe 1 connected to the outer coupling portion 41 The tap water is magnetized by strong magnetic force.

At this time, the magnetization water generator 100 is coupled between a pair of blocking plates 60 which are spaced apart from the inside of the main body 40 so as to face each other, and a plurality of coupling holes 61 are formed in the blocking plate 60. The inner coupling portion 12 of the magnetized water generator 100 is inserted into the coupling hole 61 and is coupled by a method such as welding.

In addition, a predetermined space is formed between the blocking plate 60 and the water supply pipe 1, in which a strainer 50 is installed to filter foreign matter from the tap water.

The strainer 50 is formed to be convexly curved toward the blocking plate 60 side, which is formed in a straight line to cope with the flow rate because it may be deformed or damaged due to flow in the case of a straight line. to be.

The large-capacity magnetized water generator of the present invention configured as described above minimizes the leakage of magnetic force to the outside by the upper and lower shielding openings 20 and 30 which seal the crimping portion 11 to shield and focus the magnetic field, thereby reducing the magnetic force. By collecting inside, the efficiency of magnetization water generation is maximized.

In addition, when the present invention is to be configured with a larger capacity, there is an advantage that it can be conveniently modified by increasing the quantity of the magnetized water generator 100 as shown in FIG.

The present invention as described above is not limited to the above-described specific embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various changes without departing from the gist of the present invention as claimed in the claims. will be.

1 is a perspective view showing a large-capacity magnetized water generator of the present invention.

Figure 2 is an exploded perspective view showing a magnetized water generator installed inside the large-capacity magnetized water generator according to the present invention.

3 is a cross-sectional view taken along the line III-III of FIG. 1.

4 is a cross-sectional view taken along the line IV-IV of FIG. 3.

5 is a cross-sectional view showing another embodiment of the present invention.

<Description of Symbols for Major Parts of Drawings>

10: piping 11: crimping portion

12: internal coupling part 20: upper shield

21: upper magnet 30: lower shield

31: lower magnet 40: the body

41: outer coupling portion 50: sieve

60: blocking plate 61: coupling hole

100: magnetization water generator

Claims (3)

In the magnetization water generator, A main body 40 having an outer coupling portion 41 to which a water supply pipe 1 is connected to a front surface and a rear surface thereof; A pair of separation plates installed inside the main body 40 and formed with a plurality of coupling holes 61; A plurality of magnets are installed in parallel between the blocking plates 60, and a plurality of magnets are installed in close contact with an outer surface of the pipe 10 to communicate water with the inside, and emit a predetermined magnetic force line. (21) (31) and the magnetization water generator (100) comprising a plurality of shields (20, 30) for blocking the magnetic force lines flowing out to form a structure surrounding the outer surface of the magnets (21) (31) Consists of including The pipe 10 is composed of a crimping portion 11 formed by pressing the center portion and the inner coupling portion 12 formed on both ends of the crimping portion 11, the upper side and the lower side of the crimping portion 11, respectively The magnet 21 and the lower magnet 31 are firmly coupled by mutual attraction. High-capacity magnetized water generator, characterized in that the upper shield (20) and the lower shield (30) is firmly coupled to the outer surface of the upper magnet (21) and the lower magnet (31) by magnetic force. The method of claim 1, The main body 40 is provided with a sieve 50 between the outer coupling portion 41 and the blocking plate 60, the sieve 50 is formed in a gentle curve toward the blocking plate 60 is formed convexly curved. Large-capacity magnetized water generator, characterized in that. delete

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