KR102504041B1 - magnetized water generator - Google Patents

Abstract

The present invention relates to a magnetized water generator that is mounted on a device that discharges water or a pipe that transports water, such as a faucet fixture, water supply pipe, shower head, etc., and magnetizes the water, and to a magnetized water generator that guides a path of moving water, increases a residence time of the water, and in particular controls the amount of water movement to maximize magnetization efficiency of a magnetization module. The present invention comprises: a body which is formed in a tubular shape extending in a lengthwise direction, has a hollow through which water moves, and has coupling parts at both ends in the lengthwise direction; a coupler which is detachably coupled to the pair of coupling parts of the body; a retention module which is disposed in the hollow of the body, guides the path of the moving water, and simultaneously controls the amount of water movement; a filter module which is disposed in the hollow of the body and collects foreign substances contained in the water passing through the retention module; and a magnetization module which is disposed in the hollow of the body and magnetizes the water passing through the filter module. The retention module comprises: a plurality of central through-holes formed in a disk shape and spaced apart from each other in a longitudinal direction in the center part; a first retention plate including a plurality of distribution holes formed to have a relatively small diameter compared to the central through-holes and spaced apart from each other; and a second retention plate formed in a disk shape, placed in contact with the first retention plate, and provided with a moving hole formed to have a relatively small diameter compared to the distribution hole while water moving through the distribution hole flows into the same.

Description

Magnetized water generator {magnetized water generator}

The present invention relates to a device for generating magnetized water that magnetizes water by being mounted on a water discharge mechanism such as a faucet fitting, a water supply pipe, a shower head, etc. At the same time, while increasing the residence time, it relates to a magnetized water generator that maximizes the magnetization treatment efficiency of a magnetization module by controlling the movement amount of water.

Water is a combination of two hydrogen atoms and one oxygen atom. As the temperature rises, it forms a five-chain chain or pentagonal ring shape, and as the temperature decreases, the hexagonal ring shape increases. Water constituting a hexagonal ring-shaped molecular structure is called hexagonal water, and such hexagonal water has a large heat capacity and is known to be beneficial for improving the vital function of living organisms because it goes well with other biomolecules.

As described above, there is a method of lowering the temperature of water to change water into hexagonal water, but this method is not used because of energy loss and difficulty in maintaining an appropriate temperature, so the effect is weak. there is.

At this time, magnetization defines a phenomenon in which an object becomes magnetic, but magnetized water does not mean that water itself becomes magnetic, and the arrangement of water molecules is changed by a magnetic field to have a molecular structure different from ordinary water It refers to water whose molecular structure is transformed into a unique structure by a magnetic field.

However, these characteristics are not continuously maintained, and are maintained for a certain period of time and then returned to their original state.

Looking at the principle of the magnetized water generator, water molecules usually form clusters attached to each other, but in a low energy state, they form large clusters and have low kinetic energy. When exposed to a magnetic field in this state, water molecules are atomized and activated as hydrogen ions with positive polarity and hydroxide ions with negative polarity attach to each other, causing movements such as rotation and vibration.

Using the above characteristics, the conventional magnetized water generator passes water through a magnetic field formed by a magnet, and the combination of hydrogen ions and hydroxide ions of water passing through the magnetic field undergoes separation and recombination to reduce water molecules. It is to be magnetized using the principle, and it generates a sterilizing effect by miniaturizing water molecules, and provides an effect of removing scale or rust from water pipes, etc., or removing grease.

That is, when water passes through a magnetic field, the molecular structure of water is ion-activated and can be changed into magnetized water having a hexagonal structure, and a magnetized water generating device using such a magnet can be widely used as living water in various fields.

For example, Korean Registered Patent No. 10-1953863 (registered on Feb. 25, 2019) relates to a 'hybrid spin magnetization generator', and Korean Patent Publication No. 10-2021-0068824 (published on Jun. 10, 2021) relates to 'multi-stage magnetized number. Korean Patent Registration No. 10-1969911 (registered on April 11, 2019) relates to a 'magnetized water generating device'.

The prior art increases the residence time of water in order to increase the effect of changing the magnetization of water. For this purpose, the movement of the moving water is controlled to generate vortices or the movement path of the water is complicated to increase the movement time.

However, in the prior art, when the amount of movement of water increases, the magnetization efficiency is rapidly lowered, and when the water is used continuously, the first water discharged is magnetized water, but water with no magnetization change is discharged over time. there was a problem with

In order to solve this problem, it is necessary to increase the residence time of water by forming a long magnetization section where water is magnetized or by forming a complicated movement path of water. There is a problem of lengthening, and when the moving path is complicatedly formed, there is a problem in that manufacturing cost increases as well as cost required for maintenance increases.

Korean Registered Patent No. 10-1953863 (registered on February 25, 2019) Republic of Korea Patent Publication No. 10-2021-0068824 (2021.06.10. Publication) Republic of Korea Patent Registration No. 10-1969911 (2019.04.11. Registration)

The present invention has been proposed to solve the above problems, and increases the residence time of moving water while miniaturizing the length or volume, and further increases the magnetization efficiency by maintaining a constant amount of discharged water. An object of the present invention is to provide a magnetized water generating device capable of maintaining magnetization efficiency even when continuously used.

In addition, the object of the present invention is to provide a magnetized water generator with high utilization and reduced maintenance convenience and cost by configuring a stay module for guiding the water movement path and increasing the residence time in response to the expected maximum movement amount of water. there is

In order to achieve the above object, the present invention,

A body formed in a tubular shape extending in the longitudinal direction, having a hollow through which water moves, and having coupling parts formed at both ends in the longitudinal direction, respectively;

couplers detachably coupled to the pair of couplers of the body;

a retention module disposed in the hollow of the body and guiding a movement path of moving water and controlling the amount of movement of the water at the same time;

a filter module disposed in the hollow of the body and collecting foreign substances included in the water passing through the retention module;

A magnetization module disposed in the hollow of the body and magnetizing water passing through the filter module;

The stay module,

The first stay includes a plurality of central through-holes formed in the shape of a disc and spaced apart from each other in the longitudinal direction in the center, and a plurality of distribution holes formed to have a relatively smaller diameter than the central through-hole but spaced apart from each other. plate,

It is made in the shape of a disc, and is disposed to come into contact with the first retaining plate, and includes a second retaining plate provided with a moving hole formed to have a relatively smaller diameter than the distribution hole through which the water moved through the distribution hole is introduced. to be

In addition, the staying module is characterized in that a plurality of first retaining plates are arranged at regular intervals from each other, and a plurality of second retaining plates are disposed so that one surface is in contact with the first retaining plate. .

In addition, the moving hole is characterized in that formed in a position eccentric to one side from the center of the distribution hole.

At this time, the moving ball is characterized in that it is formed at a position eccentric in a different direction from the adjacent other moving ball.

In addition, the magnetization module is composed of a pair of powders and coupled, a magnetization tube having a moving hollow in the center of which water moves, and an inner magnet disposed in the moving hollow and magnetizing water drawn into the inside. It is characterized in that it includes a partitioning means including a disposed support rod and a partition plate formed in the form of a flat plate and having one end coupled to the support rod and having a plurality of partition plates disposed at a mutually spaced distance.

At this time, the magnetization tube is characterized in that a plurality of outer magnets for magnetizing water moving through the moving hollow are disposed at intervals from each other.

And the partition plate, but detachably coupled to the support rod, the outer circumferential surface of the support rod is formed with a coupling groove recessed inwardly, and the partition plate is formed with a coupling protrusion detachably coupled to the coupling groove. do.

The present invention made as described above can provide a miniaturized magnetized water generating device, is easy to install on various objects, and maximizes magnetization efficiency by slowing down the movement speed of water moving along the formed hollow to increase the time exposed to a magnetic field. There are advantages to being able to

In addition, the present invention solves the problem caused by the small amount of water discharged during use by maintaining a constant movement speed of water moving through the retention module disposed in the hollow of the body, and the movement of water through the retention module and the magnetization module. The speed can be adjusted to increase the magnetization efficiency.

In addition, it is possible to increase the utilization by adjusting the number and arrangement of the partition plates constituting the magnetization module according to the purpose of use, and has the advantage of improving stability by filtering out foreign substances included in water moving through the filter member.

1 is a cross-sectional view showing the inside of a magnetized water generator according to the present invention.
Figure 2 is an exemplary view showing a stay module constituting the present invention from another angle.
3 is an exemplary view showing a first retaining plate and a second retaining plate constituting the present invention;
4 is an exploded view illustrating a retention module and a filter module constituting the present invention.
5 is an exemplary view showing a magnetization module constituting the present invention;
FIG. 6 is an exemplary view showing a partially separated state of the magnetization module shown in FIG. 5;
7 is an exemplary view showing a magnetization module constituting the present invention from another angle;
8 is an exemplary view showing a state in which partition means constituting the present invention are partially separated;

Hereinafter, other objects and features of the present invention in addition to the above objects will be clearly revealed through the description of the embodiments with reference to the accompanying drawings.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in the present application, they should not be interpreted in an ideal or excessively formal meaning. don't

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a magnetized water generator according to the present invention will be described with reference to the accompanying drawings.

First, as shown in FIG. 1, the magnetized water generator 1 according to the present invention is made in the form of a tubular body extending in the longitudinal direction, a hollow 11 through which water moves is formed, and coupling parts ( 12) are respectively formed on the body 10, the coupler 20 detachably coupled to the pair of coupling parts 12 of the body 10, and the hollow 11 of the body 10 The retention module 30, which is disposed and guides the movement path of the moving water and controls the amount of water moving at the same time, and the retention module 30 disposed in the hollow 11 of the body 10 and included in the water passing through the retention module 30 It includes a filter module 40 that collects foreign substances and a magnetization module 50 that is disposed in the hollow 11 of the body 10 and magnetizes water passing through the filter module 40 .

The body 10 is formed in the form of a tubular body extending in the longitudinal direction, and a hollow 11 is formed in the center through which water, which is a moving object, moves along the longitudinal direction, and the couplers 20 are coupled to both ends in the longitudinal direction. A coupling portion 12 is formed.

This body 10 is made of a metal material to prevent damage due to pressure generated during movement of water, volume expansion due to temperature change of water, and the like. Of course it is possible.

And the coupling part 12 is formed with a screw thread (not shown in the drawing) for coupling so that it can be engaged with the coupler 20, and an airtight packing (not shown in the drawing) is disposed.

The coupler 20 is disposed between the coupling part 12 of the body 10 and a coupling object such as a faucet fitting, a water supply pipe, a shower head, etc., and integrally couples both members.

Since the structure of this coupler 20 is well known, a detailed description thereof will be omitted.

The retention module 30 is disposed in the hollow 11 of the body 10 to adjust the movement amount of water introduced from one side of the hollow 11 so that the amount of water moving to the magnetization module 50 described later is kept constant. This is to increase the efficiency of changing the magnetization of water.

As shown in FIGS. 2 to 4 , the staying module 30 for this purpose includes a first retaining plate 31 and a second retaining plate 32 disposed in the hollow 11 in the form of discs, respectively. do.

The first retention plate 31 is formed in the shape of a disc, and has a plurality of central through holes 311 formed at a mutually spaced distance in the longitudinal direction at the central portion and having a diameter relatively smaller than that of the central through hole 311. It includes a plurality of distribution holes 312 formed but spaced apart from each other.

The first retaining plates 31 are formed in the shape of discs having a predetermined thickness, and a plurality of them are spaced apart from each other.

At this time, the central through-hole 311 formed in the first retaining plate 31 and the plurality of distribution holes 312 are arranged to coincide at the same position, and the central portion of each first retaining plate 31 has a coupling groove for mutual coupling. (34) is formed.

The central through-hole 311 is formed through the central portion of the first retaining plate 31 at intervals in the vertical direction, and is a passage through which water drawn into the hollow 11 moves.

The central through hole 311 has a relatively short residence time and a large movement amount compared to the residence time and movement amount of water moving by the distribution hole 312 and the movement hole 321 formed in the second retention plate 32 described later. it was made to

That is, the central through-holes 311 are formed in the same position and number in the first retaining plate 31 and the second retaining plate 32 to enable continuous movement without restricting the movement of water, thereby opening the hollow 11 The residence time and movement amount of water moving through are limited through the distribution hole 312 and the movement hole 321 to be described later, so that the amount of water discharged is small and thus inconvenient use is prevented.

Here, the diameter and number of the central through-holes 311 and the distance between them can be varied according to the amount of water to be moved, and are not limited to the diameter, number and distance shown in the drawings.

Also, the central through-holes 311 are formed in the first retaining plate 31 and the second retaining plate 32, respectively, and are formed in the same number and position.

A plurality of the distribution holes 312 are formed through each other at intervals, and are formed to have a relatively smaller diameter than the central through hole 311, so that the amount of water introduced into each hole is relatively smaller than that of the central through hole 311. Allow a small amount to be drawn in.

As shown in the drawing, the distribution holes 312 are widely distributed in the first retaining plate 31 to enable entry even when the amount of moving water is large, and when the amount of moving water is small, the first retaining plate 312 is widely distributed. Water is drawn into the distribution hole 312 provided below the (31).

The first retaining plate 31 formed as described above allows water to move through the central through hole 311 formed in the center, so that a certain amount of water moves toward the filter module 40 to be described later through the central through hole, and the distribution hole 312 ) is moved to the moving hole 321 of the second retaining plate 32 to be described later.

The second retaining plate 32 is formed in the shape of a disc having a predetermined thickness, is disposed between a pair of adjacent first retaining plates 31, and passes through a distribution hole 312 formed in the first retaining plate 31. A moving hole 321 through which water enters is formed, and a coupling groove 34 to which a coupling bolt 33 is coupled is formed in the center.

Here, the moving hole 321 is formed to have a relatively smaller diameter than the distribution hole 312 so that only a portion of the water passing through the distribution hole 312 is drawn in.

That is, since only a part of the water passing through the distribution hole 312 enters the moving hole 321 formed to have a relatively small diameter compared to the distribution hole 312, the water drawn into the distribution hole 312 does not move. Because of stagnation, the overall water retention time increases.

And, as shown in the drawings, the second retaining plate 32 is disposed between the pair of first retaining plates 31, both sides of which are disposed so as to come into contact with the first retaining plates 31, respectively. By partially closing the opened end of the distribution hole 312 of the plate 31, the water introduced into the distribution hole 312 causes a vortex phenomenon to occur in the distribution hole 312.

On the other hand, the moving holes 321 are formed in numbers and positions corresponding to the distribution holes 312 on a one-to-one basis, and the formation position of the moving holes 321 is at a position eccentric from the diameter center of the distribution hole 312 to one side. through is formed.

In addition, the moving hole 321 is formed at an eccentric position in a different direction from the adjacent moving hole 321, and in particular, when a plurality of second retaining plates 32 are disposed, they are spaced apart from each other along the moving direction of water. Each of the moving holes 321 disposed in the second retaining plate 32 is formed at positions eccentric in different directions from the center of the distribution hole 312 of the first retaining plate 31 disposed therebetween. .

That is, as shown in the enlarged circle of FIG. 4, one of the moving holes 321 respectively formed in the pair of second retaining plates 32 disposed with the first retaining plate 31 interposed therebetween is a distribution hole ( 312), the other moving hole 321 is formed at a position eccentric downward with respect to the center of the distribution hole 312.

As described above, the movement hole 321 formed as described above can increase the residence time by slowing down the movement speed of the water because some of the water passing through the distribution hole 312 is drawn in and moved.

In addition, the second retaining plate 32 on which the moving hole 321 is formed blocks one end of the distribution hole 312 to induce a vortex phenomenon in the water entering the distribution hole 312, thereby increasing the residence time. .

The first retaining plate 31 and the second retaining plate 32 made as described above show that each pair is repeatedly disposed in the drawing, but this is an example and considering the expected maximum capacity or moving speed of moving water. The number of batches can be changed.

The filter module 40 is for collecting foreign substances included in the water passing through the retention module 30, and a pair of filters having different structures are sequentially disposed.

For example, at least one selected from the group of a sediment filter, a free carbon filter, a reverse osmosis filter, a hollow fiber membrane filter, and a nano (positive charge) filter may be sequentially arranged.

In addition, the filter module 40 has a coupling groove 34 to which the coupling bolt 33 is coupled so as to be integrally coupled with the retention module 30, thereby increasing convenience of replacement during use.

That is, it is disposed and operated in the hollow 11 of the body 10 in a state of being integrally coupled with the stay module 30, and if the dust collection efficiency of the filter decreases over time or is damaged during the operation process, a new In order to replace the filter with a filter, the retention module 30 is removed from the hollow 11 to the outside, and the coupling bolt 33 integrally coupled to the retention module 30 is released to remove the filter to be replaced, and then a new filter is installed. Arrange and combine with a coupling bolt (33).

Of course, the filter module 40 configured as described above may use other filters than the above-described filter depending on the purpose of using the magnetized water generator 1 according to the present invention.

The magnetization module 50 is for magnetizing the water passing through the filter module 40, and as shown in FIGS. 5 to 7, a pair of powders are combined and the water moves in the center. A magnetization tube 51 in which a moving hollow 511 is formed, and a support rod 521 disposed in the moving hollow 511 and having an inner magnet 522 disposed therein to magnetize water drawn into the inside, It is made in the form of a flat plate, and one end is coupled to the support rod 521, and includes a partitioning means 52 including a plurality of partitioning plates 524 disposed at intervals from each other.

The magnetization tube 51 is composed of a pair of powders formed symmetrically with each other, and a fastening hole 512 to which a fastening bolt 513 is coupled is formed in each powder, and water moves in the integrally coupled state. A hollow 511 is formed.

In addition, the magnetization tube 51 is formed with a semicircular slit 515 in which a support bar 521 of a partitioning means 52 to be described later is disposed, and the slit 515 prevents movement of the disposed support bar 521 and prevents leakage. Packing (not shown in the drawing) for preventing may be further disposed.

Meanwhile, an outer magnet 514 for magnetization for magnetizing water passing through the movable hollow 511 is disposed in the magnetization tube 51, and the outer magnet 514 for magnetization surrounds the movable hollow 511 and are placed

At this time, the outer magnet 514 for magnetization is protected by a cover (not shown in the drawing) so that it does not come into direct contact with water passing through the moving hollow 511, or is configured in the form of a sealed package and placed in the magnetization tube 51. do.

In addition, an arrangement groove 516 in which the outer magnet 514 for magnetization is disposed is formed in the magnetization tube 51, and this arrangement groove 516 depends on the shape, size, and number of the outer magnet 514 for magnetization. formed in response.

The partitioning means 52 is disposed in the magnetization tube 51 to guide the movement path of the water introduced through the moving hollow 511 of the magnetization tube 51, adjust the movement speed of the water, and magnetize the moving water at the same time. let it

To this end, the partitioning means 52 is made in the form of an empty rod, inside which an inner magnet 522 for magnetization is disposed, a support rod 521 vertically disposed in the movable hollow 511, and a flat plate. It is made in the form of a plurality of radially arranged on the basis of the support bar 521, and each includes a partition plate 524 formed with a guide hole 525 for guiding the movement of water.

The support bar 521 has an inner magnet 522 for magnetization disposed therein, preferably disposed at the center of the support bar 521 in the lengthwise direction of the pair by a partition plate 524 partitioning the inner space of the support bar. The inner magnets 522 for magnetization are disposed symmetrically with each other.

In addition, cover bolts 527 for preventing the separation of the inner magnet 522 for magnetization are coupled to both ends of the support rod 521 in the longitudinal direction and to the upper and lower ends of the support rod 521 based on FIGS. 5 to 7 , A packing member 528 for airtightness is disposed between the cover bolt 527 and the inner magnet 522 for magnetization.

The support bar 521 formed as described above is disposed so that its outer circumferential surface comes into contact with the slit 515 formed in the pair of magnetization tubes 51, and then integrally coupled with the magnetization tube 51 through a fastening bolt 513. do.

The partition plate 524 is formed in the form of a flat plate, and a plurality of pieces are disposed on the support bar 521 at intervals from each other, and are radially arranged with respect to the support bar 521 .

And each partition plate 524 is formed to have a relatively small size compared to the diameter of the moving hollow 511, as shown in FIG. 5, so that some of the water drawn into the moving hollow 511 is a partition plate ( 524) and the moving hollow 511 are discharged through a space formed between the inner wall, and the water moving through the space is magnetized through the outer magnet 514 for magnetization disposed in the aforementioned magnetization tube 51.

On the other hand, guide holes 525 for guiding the movement of water are formed in the partition plate 524. The positions of the balls 525 are formed at different positions.

That is, as shown in FIGS. 5 to 7, the guide holes 525 formed in each partition plate 524 are formed at different positions, and water passing through the guide holes 525 of one partition plate 524 In the process of moving to the guide holes 525 formed on the next partition plate 524, since the water passes through a plurality of guide holes formed at positions displaced from each other, a vortex phenomenon occurs during movement of the water to increase the residence time, and the residence time of the water As this increases, magnetization efficiency by the inner magnet 522 for magnetization disposed on the support rod 521 and the outer magnet 514 for magnetization disposed in the magnetization tube 51 can be increased.

Here, the shape, size, number, and spacing of the partition plates 524 and the size, number, and location of the guide holes 525 formed on each partition plate 524 are the moving hollow of the magnetization tube 51. It can be changed according to the capacity of water passing through 511, and for this purpose, the partition plate 524 is detachably coupled to the support bar 521.

That is, as shown in FIG. 8, a coupling groove 523 to which one end of the partition plate 524 is detachably coupled is formed in the support rod 521, and the coupling groove 523 is formed in the partition plate 524. ) Includes a coupling protrusion 526 that is detachably coupled to.

The coupling groove 523 is formed in plurality along the longitudinal direction on the outer circumferential surface of the support bar 521, and preferably has a relatively short length compared to the length of the support bar 521 and is coupled to the partition plate 524 movement can be restricted.

In addition, the coupling groove 523 and the coupling protrusion 526 may be coupled in a male and female fastening form. At this time, the coupling groove 523 has an open end due to the pressure applied when the coupling protrusion 526 is coupled. After being restored by the elastic restoring force, the outer surface of the coupling protrusion 526 may be coupled in a form of elastic support.

The magnetization module 50 constructed as described above magnetizes the water introduced into the moving hollow 511 of the magnetization tube 51 through the outer magnet 514 disposed in the magnetization tube 51, and at the same time the partition plate 524 When water moves to the guide hole 525 formed therein, a plurality of partition plates are radially arranged, and the guide plates formed on each partition plate are formed at different positions, thereby generating a vortex phenomenon in the moving water to increase the residence time, At this time, the water is magnetized by being exposed to the magnetic field generated by the inner magnet disposed on the support rod.

Therefore, the magnetization module 50 can slow down the moving speed of water and magnetize at the same time, maximizing the magnetization efficiency, and the number of arrangements of the partition plates detachably coupled to the support bar, arrangement intervals, and guides formed on each partition plate. It has the advantage of being easy to change according to the purpose of use by changing the size and number of balls.

As described above, the present invention has been described by specific details such as specific components and limited embodiments and drawings, but these are provided to help a more general understanding of the present invention, and the present invention is not limited to the above embodiments. , Those skilled in the art in the field to which the present invention belongs can make various modifications and variations from these descriptions.

Therefore, the spirit of the present invention should not be limited to the described embodiments, and it will be said that not only the claims to be described later, but also all modifications equivalent or equivalent to these claims belong to the scope of the present invention. .

1: Magnetized water generator
10: body
11: hollow 12: coupling part
20: coupler
30: stay module
31: first stay plate 32: second stay plate
33: coupling bolt 34: coupling groove
311: central through hole 312: distribution hole
321: moving ball
40: filter module
50: magnetization module
51: magnetization tube 52: division means
511: moving hollow 512: fastening hole
513: fastening bolt 514: outer magnet
515: slit 516: arrangement groove
521: support bar 522: inner magnet
523: coupling groove 524: partition plate
525: guide hole 526: guide hole
527: cover bolt 528: packing member

Claims (7)

A body 10 formed in a tubular shape extending in the longitudinal direction, having a hollow 11 through which water moves, and having coupling portions 12 formed at both ends in the longitudinal direction, respectively;
couplers 20 detachably coupled to the pair of couplers 12 of the body 10;
a stay module 30 disposed in the hollow 11 of the body 10 and guiding a movement path of moving water and simultaneously controlling the amount of movement of the water;
a filter module 40 disposed in the hollow 11 of the body 10 and collecting foreign substances included in the water passing through the retention module 30;
A magnetization module 50 disposed in the hollow 11 of the body 10 and magnetizing water passing through the filter module 40; includes,
The stay module 30,
A plurality of central through-holes 311 formed in the shape of discs and spaced apart from each other in the longitudinal direction in the central portion, and a plurality of distribution channels formed to have a relatively smaller diameter than the central through-hole 311 but spaced apart from each other. A first retaining plate 31 including a ball 312;
It is made in the shape of a disc and is arranged to come into contact with the first retaining plate 31, and the water moved through the distribution hole 312 is introduced and formed with a relatively small diameter compared to the distribution hole 312. 321) is provided with a second retaining plate 32,
The moving ball 321,
It is formed in the number and position corresponding to the distribution hole 312 in one-to-one, formed at a position eccentric to one side from the center of the distribution hole 312, and eccentric in a different direction from the other adjacent moving hole 321. Magnetized water generating device, characterized in that formed in the position. The method according to claim 1, wherein the stay module 30,
A plurality of the first retaining plates 31 are arranged at regular intervals from each other,
Magnetized water generator, characterized in that a plurality of second retaining plates (32) are arranged so that one side is in contact with the first retaining plate (31). delete delete The method according to claim 1 or 2, wherein the magnetization module 50,
A magnetization tube 51 made of a pair of powders and coupled, and having a moving hollow 511 formed in the center through which water moves,
A support bar 521 disposed in the moving hollow 511 and having an inner magnet 522 for magnetizing water drawn into the inside, and a flat plate shape, one end of which is coupled to the support bar 521 Magnetized water generating device characterized in that it includes a partitioning means (52) including a plurality of partitioning plates (524) disposed at intervals from each other. The method according to claim 5, in the magnetization tube (51),
Magnetized water generating device, characterized in that a plurality of outer magnets 514 for magnetizing water moving through the movable hollow 511 are disposed at intervals from each other. The method according to claim 5, wherein the partition plate 524,
Detachably coupled to the support rod 521, the outer circumferential surface of the support rod 521 is formed with a coupling groove 523 recessed inwardly, and the partition plate 524 is detachably coupled to the coupling groove 523. Magnetized water generating device, characterized in that coupling protrusions 526 are formed.

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