KR200476726Y1 - A device magnetizing water - Google Patents

Abstract

This design makes the water into a magnetized water (hexagonal water), which greatly increases the energy level, and effectively removes various contaminants and bacteria contained in the water, and also makes it possible to miniaturize the structure and easily attach it to a bathroom shower or faucet The present invention relates to a magnetization ionizer.
The deodorizing water ionizer of this embodiment includes an accommodating cylinder 11 having a rear end opened to receive the first magnetizing member 20 therein, a cap 12 for fastening the front end to the open rear end of the receiving cylinder, A first magnetization member 20 having a plurality of neodymium permanent magnets 21 that are coupled to each other in the front and rear directions with the same poles facing each other, An inner magnetizing portion 31 to which the neodymium permanent magnet 311 is mounted and an inner magnetizing portion 31 which is disposed on the outer circumference side of the inner magnetizing portion 31 and is connected to the pole of the neodymium permanent magnet 311, A second magnetization member 30 having an outer magnetization portion 32 on which the neodymium permanent magnet 321 is mounted such that the other pole faces each other and a second magnetization member 30 mounted on the rear end of the second magnetization member And a filter member (40) for filtering the gas The.

Description

A device magnetizing water < RTI ID = 0.0 >

The present invention relates to a magnetization ionizer, and more particularly, to a magnetized water ionizer, which is made of magnetized water (hexagonal water) to greatly increase the energy level and effectively remove various pollutants and bacteria contained in water, The present invention relates to a magnetized water ionizer which can be easily mounted on a faucet or the like.

The conventional magnetized water ionizer includes a water inlet pipe portion for receiving water and a water collecting pipe portion extending to the rear end of the water inlet pipe portion so as to have a smaller diameter. A receiving member having a tube formed by an acceleration tube portion and a plurality of side projections inserted into the inlet tube portion and protruding at regular intervals on an outer circumferential surface of the receiving tube member and a receiving member inserted into the receiving tube portion, A plurality of first neodymium permanent magnets and a plurality of first neodymium permanent magnets alternately stacked one on another and arranged in parallel and arranged in parallel with each other; And a vertical member mounted on the inner space of the receiving member and uniformly applying a magnetic field to the water passing through the plurality of water channels, A second Neodymium permanent magnet disposed above and below the outer surface of the acceleration tube portion and applying a magnetic field to the water passing through the acceleration tube portion in an upper and a lower direction and a second magnetization enhancement layer disposed on the outer surface of the second Neodymium permanent magnet, There is an invention of the present application including the edition (No. 10-2010-0057904).

The magnetization ionizer according to the present invention uses a permanent magnet made of neodymium (Nd) having a high magnetic flux density. Even if the length passing through the permanent magnets is short, the magnetic field applied to water increases, The first neodymium permanent magnets can be easily applied to a shower head, a faucet, a washing machine or the like. On the other hand, the first neodymium permanent magnets have a N pole S poles are arranged to be opposed to each other and are mounted so as to be tied together like one body by a magnetic force so that some magnetic force acts in a horizontal direction so that a magnetic force acting in a vertical direction so as to be firstly applied to water passing through the water- The magnetic field is reduced by the magnetic force acting as the magnetic field and the energy level is raised There is a problem in that a failure to.

In addition, since the second neodymium permanent magnets are installed horizontally only on the upper and lower surfaces of the outlet, there is a problem that the energy level is not maximally increased because the magnetic field is applied only in the vertical direction only in the water passing through the outlet.

In the process of passing the water through the water passage and the outlet, the heavy metal reacting to the magnetic force of the first and second neodymium permanent magnets is removed, but various contaminants and bacteria that do not react with the magnetic force are not removed but are discharged as they are there was.

The present invention was conceived in view of these points of the prior art invention. The object of the present invention is to maximize the magnetic field applied to the water even in a short-length space, thereby greatly increasing the energy level and miniaturizing the structure, Or to be applied to a limited length space such as a washing machine.

Another object of the present invention is to provide a magnetized water ionizer which effectively removes various contaminants and germs when they are contained so that water can be used reliably.

In order to accomplish these objects, the present invention has a cap for fastening a front end to an open rear end of a receiving and passing cylinder having a rear end opened to receive a first magnetizing member therein, and a roll portion extending in the center of the rear surface of the cap A first magnetization member having a plurality of neodymium permanent magnets which are coupled with each other in the front and rear directions so that the same poles face each other; an inner magnetization portion coupled to the roll portion and having a neodymium permanent magnet mounted therein; And a second magnetization member having an outer magnetization portion in which a pole of the neodymium permanent magnet faces the other pole and a neodymium permanent magnet is mounted on the second magnetization member, and a second magnetization member having a front end attached to the rear end of the second magnetization member, And a filtration member mounted inside the outlet port.

According to another aspect of the present invention, there is provided a neodymium permanent magnet comprising: a first magnetization enhancing plate coupled to an outer circumferential surface of a tubular body so as to surround and enclose a neodymium permanent magnet of the first magnetization member; and an outer surface of a neodymium permanent magnet And a second magnetization intensifying plate mounted so as to be wrapped around the ice core.

In addition, the present invention has a structure in which a large number of flow holes are formed in the front surface and a rear surface is opened, a plurality of sunlight balls accommodated in the inside of the tubular body, and a circular plate, And a filtration member (40) provided with a filter for supplying the magnetized water to the magnetized water ionizer.

The magnetization ionizer according to the present invention maximizes the magnetic field applied to the water even when the water passes through the neodymium permanent magnets having high density in the magnetic flux lines to maximize the energy level of the magnetized water as well as the ionization ratio And it is possible to downsize the structure, so that it can be easily applied to a shower, a faucet, and the like.

1 is a perspective view of a magnetized water ionizer according to the present invention,
Fig. 2 is a cross-sectional side view of the magnetized water ionizer of Fig.
Fig. 3 is a schematic cross-sectional view of the magnetization ionizer of Fig. 1,
4A and 4B are side views showing different application examples of the magnetization ionizer according to FIG.

Hereinafter, the magnetization ionizer according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a magnetized water ionizer according to the present invention in a disassembled state, FIG. 2 is a cross-sectional side view showing assembly and enlargement of the magnetized water ionizer of FIG. 1, Fig.

The magnetized water ionizer according to the present invention comprises a housing member 10 provided inside a tube 1 having a water inlet 1a and a water outlet 1b and a first magnetizing member 20 And a second magnetizing member (30) provided on the rear side of the housing member and inside the outlet port of the tubular body.

The housing member 10 includes a receiving cylinder 11 having a rear end opened and a cap 12 for sealing the rear end of the receiving cylinder and a roll portion 13 having a small diameter and extending horizontally at an oblique rear center of the cap ).

The receiving cylinder 11 is formed of a synthetic resin or a non-ferrous metal with an outer circumferential surface diameter smaller than the inner circumferential surface diameter of the tubular body 1 and a threaded portion for fastening a thread portion formed on the outer circumferential surface of the front end portion of the cap 12 is formed on the inner circumferential surface of the rear end.

In addition, spacing projections 111 and 112 are formed at the front end and the rear end of the outer circumferential surface of the receiving cylinder 11 at regular intervals.

When the receiving tube 11 is mounted inside the tube 1, the outer circumferential diameter of the receiving tube is smaller than the inner circumferential diameter of the tube, and the outer surfaces of the holding protrusions 111 and 112 are in close contact with the inner surface of the tube Between the outer circumferential surface of the container and the inner circumferential surface of the tubular body, water flowing through the inlet port (1a) is dispersed, and a narrow channel (1c) through which the outlet port (1b) flows is formed.

The front end of the gap retaining protrusion 111 formed at the front end of the receiving cylinder 11 extends so as to protrude frontward so that the inlet 1a of the tube body 1 is fastened to the supply port 2a to which water is supplied The front end of the gap holding protrusion is supported by the rear end of the supply port so that the passage 1d is formed between the rear end of the supply port and the outer circumference of the front surface of the receiving port by the distance at which the front end protrudes.

Therefore, when water flows into the inlet 1a through the supply port 2a, the water flows into the inlet 11 through the passage 1d and flows through the channel 1c. In this process, The magnetic field of the magnetizing member 20 is sufficiently applied to the water.

The first magnetization member 20 includes a plurality of neodymium permanent magnets 21 which are formed in a disc shape having a hole with a binding hole at the center thereof and which are coupled to each other in a back-and-forth parallel manner so that the same poles face each other one after the other, And a binding means 22 made of a bolt, a nut or the like for binding the plurality of neodymium permanent magnets 21 therebetween.

Since the plurality of neodymium permanent magnets 21 of the first magnetization member 20 are coupled to each other in the front-to-rear direction parallel to each other with the same poles facing each other and tightly coupled to each other by the coupling means 22, magnetic forces of the same polarity facing each other are reflected But does not act in the horizontal direction but acts only in the vertical direction, so that the magnetic field applied to the water passing through the water passage 1c is greatly increased.

Since the first magnetization enhancing plate 50 is coupled to the outer circumferential surface of the tube 1 corresponding to the first magnetization member 20 so as to be wrapped around the inner circumference of the tube 1, When the applied magnetic field passes through the outer circumferential surface of the tubular body, it is reflected to the inside so as not to be discharged to the outside, so that the magnetic field applied to the water is further greatly increased, so that water passing through the water channel (1c) The ionized water is subjected to the magnetization treatment primarily.

The second magnetization member 30 may include an inner magnetizing portion 31 and an outer magnetizing portion 32.

The inside magnetizing portion 31 is formed in the shape of a pipe having the same inner diameter as the diameter of the outer circumference of the roll portion 13 and is coupled to the roll portion and a neodymium permanent magnet 311 is mounted inside.

The outer magnetizing portion 32 is formed in the shape of a pipe whose inner diameter is larger than that of the inner magnetizing portion 31 and is coupled to the inside of the outlet 1b of the tube 1 at the outer peripheral side of the inner magnetizing portion, The neodymium permanent magnet 321 is mounted so that the pole of the permanent magnet 311 faces another pole.

When the inner magnetizing portion 31 and the outer magnetizing portion 32 are provided as described above, the gap between the outer circumferential surface and the inner circumferential surface of the inner magnetizing portion 31 and the inner magnetizing surface of the outflow opening 1b (1e) extending between the front end side of the water outlet (1e).

The water magnetically processed by the first magnetizing portion 21 while passing through the channel 1c passes through the outflow channel 1e between the inner magnetizing portion 31 and the outer magnetizing portion 32, A magnetic field acting in the vertical direction is applied to the neodymium permanent magnet 311 and the neodymium permanent magnet 321 and is magnetized in a second order.

Since the second magnetization enhancing plate 60 is mounted inside the outer magnetizing portion 32 so as to surround the outer surface of the neodymium permanent magnet 321, the magnetizing force perpendicular to the outward direction of the neodymium permanent magnet So that the magnetic field applied to the water passing through the water outlet passage (1e) is greatly increased, so that the water passing through the water outlet passage (1e) is subjected to the secondary ionization treatment .

The water supplied through the supply port 2a is dispersed and supplied to the first magnetizing portion 20 and the second magnetizing portion 30 in the course of passing through the water channel 1c and the water outlet passage 1e, It is magnetized through the first and second phases by the magnetic field, so that ionized water is provided.

3, each of the neodymium permanent magnets 311 and 321 in the inner and outer magnetization portions 31 and 32 has a shape corresponding to a space radially partitioned by several partition walls, But the present invention is not limited thereto. Neodymium permanent magnets in the form of a pipe may be mounted in the inner and outer magnetized portions as a single space without a partition wall.

The present invention is further characterized in that the filter further comprises a filtration member (40) mounted inside the outlet (1b) of the tubular body (1) so that the front end thereof is in close contact with the rear end of the second magnetization member (30).

The filtration member 40 includes a tubular body 41 having a plurality of flow holes 411 formed in its front surface and an open rear surface, a plurality of sunlight balls 42 accommodated in the tubular body 41, And a filter 43 inserted and fixed to the rear surface of the cylindrical body 41 to seal the opened rear surface.

The sunlight ball (42) is obtained by molding mica extracted by heating natural minerals at a high temperature, and emits a large amount of far-infrared rays and anions. Therefore, it excellently performs bacteriostatic and antibacterial actions for effectively removing various viruses and bacteria At the same time, because of its porous structure, it has excellent adsorption power and deodorizing property, and it surely removes harmful heavy metals and pollutants in water as well as unpleasant odor.

Therefore, if there are various kinds of bacteria, heavy metals, or contaminants remaining in the process of passing the magnetized water through the first and second passage through the filtration member 40, (43) to provide clean ionized water.

The filtration member 40 may be filled with a nonwoven fabric or charcoal in place of the one light ball 42 to filter suspended matters or contaminants.

4A and 4B, the magnetizing ionizer according to the present invention has the inlet 1a of the tubular body 1 connected to the inlet 2a such as the shower 2 and the faucet 2 ' The porous spout cap 3 formed to receive the filtration member 40 may be used by being fastened thereto.

10: housing member 11: receptacle
12: Cap 13: Roll
20: first magnetization member 21: neodymium permanent magnet
22: binding means 30: second magnetizing member
31: inner magnetizing portion 32: outer magnetizing portion
311,321: Neodymium permanent magnet 40: Filter element
41: cylinder 42: sunlight ball
43: filter 50: first magnetization enhancing plate
60: Second magnetization enhancement plate

Claims (4)

A first magnetizing member (20) mounted inside the housing member (10), a second magnetizing member (20) mounted inside the housing member (1) A second magnetizing member 30 installed inside the outlet of the tube 1 and a filter member 40 attached to the inside of the outlet of the tube 1 so that the front end thereof is in close contact with the rear end of the second magnetizing member 30, The magnetized water ionizer according to claim 1,
The receiving member 10 includes a receiving cylinder 11 having a diameter smaller than that of the inner circumferential surface of the tube 1 and having a rear end opened to receive the first magnetizing member 20 therein, A cap 12 for tightening and sealing a front end of the rear end of the cap 11 and a roll 13 extending horizontally at the center of the rear surface of the cap 12;
The first magnetization member 20 includes a plurality of neodymium permanent magnets 21 formed in a disk shape with a binding hole at the center thereof and having the same poles facing each other and a plurality of neodymium permanent magnets 21 coupled to the neodymium permanent magnets 21 And binding means (22) for binding the plurality of binding members (22);
The second magnetizing member 30 is formed in the shape of a pipe having the same inner diameter as the diameter of the outer circumferential surface of the roll portion 13 and is coupled to the roll portion 13 and has an inner magnetizing portion 311, (31) having a diameter larger than that of the inner magnetizing portion (31) and formed inside the outflow opening of the tube (1) so as to be located on the outer peripheral side of the inner magnetizing portion (31), and a neodymium permanent magnet 311) and the outer magnetized portion (32) to which the neodymium permanent magnet (321) is mounted facing the other pole;
The filtration member 40 includes a tubular body 41 having a plurality of flow holes 411 formed in its front surface and an open rear surface and a plurality of sunlight balls 42 and non- And a filter (43) which is in the form of a disk and which is inserted and fixed to the rear surface of the cylinder (41) to seal the opened rear face;
A first magnetization enhancing plate 50 coupled to the outer periphery of the tube 1 to surround the neodymium permanent magnets 21 of the first magnetization member 20;
And a second magnetization enhancing plate (60) mounted inside the outer magnetized portion (32) of the second magnetization member (30) to surround the outer surface of the neodymium permanent magnet (321) Magnetization ionizer. delete delete delete

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