KR102176949B1 - Strong magnetic magnetized water configuration method for generation - Google Patents

Abstract

The present invention relates to a ferromagnetic magnetizer for generating magnetized water generating a strong magnetic force.
In the present invention, the rare-earth magnet has a characteristic that magnetism is reinforced as the end cross section of the anode is narrower, and the magnetic force is dispersed when the area is wide, so that the area becomes smaller toward the left and right of the central fine through hole 301 of the power receiving socket body 320. By doing so, the magnetic force of the neodium magnet 200 was doubled. In order to generate such a strong magnetic force, as shown in FIG. 3, one group was configured as a unit.

Description

Strong magnetic magnetized water configuration method for generation

The present invention relates to a ferromagnetic water generator for generating magnetized water that converts into magnetized water by applying a strong magnetic field to the incoming tap water by combining it with a faucet or an accessory of a shower head of a water supply facility for water supply.

In general, permanent magnets have passed through Alico magnets compared to the past when ferrite magnets were dominated, and now neodium magnets made of rare earth materials are used in large quantities.

A neodium magnet with a small and strong magnetic force in place of a ferrite, which has a weak magnetic force, has a different magnetic force depending on the thickness and surface area, but the side of the magnet is generally weak and both ends exhibit strong magnetic force. That is, the positive point is the strongest.

The pole of the magnet as described above refers to the outermost point, not the center of the surface. Accordingly, in order to create a strong magnetic force, several configurations are required, and the neodium magnet of the present invention was manufactured to narrow toward one pole.

In addition, a soft iron is inserted between the magnet and the magnet to strengthen the magnetic field at the extreme by minimizing leakage magnetism, and the soft iron pipe is connected to the outside of the entire magnet.

An object of the present invention is to provide a ferromagnetic water generator for generating magnetic water that is connected to a kitchen sink, a shower, and a faucet of a washing machine and converts it into magnetic water by applying a strong magnetic field to the incoming tap water.

However, conventional products have been developed focusing on the time to receive the magnetic force or the distance through the magnetic force rather than strengthening the magnetic force of the permanent magnet.

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The present invention increases the magnetic force of the N pole or S pole of the permanent magnet by making the shape of the neodium magnet in the shape of a square truncated cone in which the sharp area of the upper part of the square pyramid is cut so that the shape of the neodium magnet becomes narrower toward one pole in order to strengthen the magnetic force. It has a stacked structure so that the polarities of the neodium magnets cross up and down, and a connection is placed between the stacked magnets in the longitudinal direction to effectively collect the leakage magnets, and the magnetic force at the end of the magnet is configured to progress.

In the present invention, the rare-earth magnet has a characteristic that magnetism is strengthened as the end cross section of the anode is narrower, and the magnetic force is dispersed when the area is wide. Therefore, the area of the rare-earth magnet is reduced to the left and right centering on the central fine through hole of the power receiving socket body. The magnetic force of the magnet was doubled.

In the present invention, when increasing the quantity of neodium magnets, soft iron is inserted between the neodium magnets and the neodium magnets to form one group as a unit to form a strong magnetic force by symmetrical around the fine through holes. .

1 is a longitudinal sectional view showing the configuration of the present invention.
Figure 2 is a cross-sectional view showing the configuration of the present invention.
Figure 3 is a partial perspective view showing a combination of the neodium magnet of the present invention.

The present invention will be described in detail with reference to the accompanying drawings. As shown in FIG. 1, a neodium magnet 200 is installed in the power receiving socket body 320 so as to be symmetrical to the left and the right around the micro-through hole 301 penetrating the center. At this time, the neodium magnet is provided in the shape of a square truncated cone in which the sharp area of the upper part of the square pyramid is cut as shown in FIG. 3, and as shown in FIG. 2, between the neodium magnet 200 and the neodium magnet 200, soft iron ( 100b) was inserted into each of them in a symmetrical manner, and the leakage magnets were formed in a fan shape to gather at a certain point through the soft iron 100c adjacent to the fine through-holes 301.
Meanwhile, when increasing the quantity of the neodium magnet 200 for stronger magnetic force, a soft iron 100b is inserted between the magnet and the magnet, and a soft iron pipe 100a is installed outside the magnet configured as a whole.
The soft iron 100c at each end of the neodium magnet 200 crossed up and down is configured to be fixedly supported by the nonmagnetic base 101 so that the magnetic force between the upper and lower soft irons 100c is not weakened.

The present invention proposes a method of generating a strong magnetic force in order to generate a more useful magnetized number with a power receiving socket configured as a part of an apparatus for generating magnetized water.

The soft iron pipe has an effect of blocking the magnetic lines of force radiated to the outside, so that the magnetic lines of force can be concentrated to reduce the interference between the magnets 31 and to magnetize water, thereby increasing the efficiency of magnetization treatment, and filling the inside of the housing 10 As a result, the magnetization treatment pipe 30 is fixed and protected from external impact.

100a: soft iron pipe
100b,100c: soft iron
101: non-magnetic base
200: neodium magnet
301: fine through hole
320: faucet socket body
330: faucet connection nut
331: faucet connection bolt

Claims (3)

A square frustum shape in which the pointed area of the upper part of the square pyramid is cut so that the left and right sides are symmetrical around the fine through hole 301 provided with the fan-shaped soft iron 100c so as to penetrate the center of the power receiving socket body 320 A neodium magnet 200 is provided, and each end of the neodium magnet 200 has a stacked structure such that polarities are crossed vertically by corresponding contact with the fine through-holes 301 through soft iron 100c,
The soft iron 100c at each end of the neodium magnet 200 crossed up and down is fixedly supported by a nonmagnetic base 101 so that the magnetic force between the upper and lower soft irons 100c is not weakened,
When increasing the quantity of the neodium magnet 200 for strong magnetic force, a soft iron 100b is inserted between the neodium magnet and the neodium magnet to form a soft iron pipe 100a on the outside of the neodium magnet. A ferromagnetic magnetizer for generating magnetized numbers. delete delete

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