KR102301608B1 - magnetization active water device with rotating body of dual twist type - Google Patents

Abstract

The present invention relates to a technique for implementing atomization corresponding to a degree when water passes through a very narrow space by improving a mechanical structure in a pipe of a magnetization active water device through which water passes smoothly, and more particularly to a technique which rotates water passing through a pipe of the magnetization active water device in a spiral pattern, mechanically atomizes water flowing inside the pipe by implementing a plurality of spiral rotation bodies located at the same distance toward an outer diameter portion from a center of the pipe in two stages, and easily maintains flow of the water. The present invention includes a plurality of magnetic cap units and organically couples the magnetic cap units with a spiral inner tube member so that magnetization active degree of water by electromagnetic energy of the magnetic cap unit may be further improved through a mechanical structure of the spiral inner tube member.

Description

Magnetic active water device with rotating body of dual twist type {magnetization active water device with rotating body of dual twist type}

The present invention relates to a technology for smoothing the flow of water while implementing atomization to a degree corresponding to when water passes through a very narrow space by improving the mechanical structure in the conduit of a magnetized activated water device through which water passes will be.

More specifically, the present invention rotates the water passing in the conduit of the magnetization activated water device in a spiral form, but a plurality of spiral rotating bodies located at the same distance from the center of the conduit toward the outer diameter of the conduit from the center of the conduit to the outer diameter As it is implemented in two stages towards the buoy, it is related to the technique of mechanically finely atomizing the water flowing inside the pipe, as well as maintaining the flow of the water smoothly.

In general, the magnetization activated water device, which is one of the water treatment devices, uses the magnetic force generated from a magnet to pass water in a magnetic field (electromagnetic field) when water and magnetic field are perpendicular to the direction of water flow by the so-called Fleming’s left hand rule. An electric field is formed in an orthogonal direction. At this time, each of the hydrogen atom (+) and the oxygen atom (-) of the water molecule spins in the opposite direction of the electric field.

As such, the atomization of water molecules is activated due to the rearranged spin between water molecules, and this increases the intrinsic function of water. It is expressed that the magnetization of water or that the magnetization of water is activated refers to the rearrangement of these atomized water molecules into pentagonal or hexagonal numbers, which are minimum bonding clusters.

Specifically, in order to increase the hydrogen bonding (energy of water molecules is very low compared to covalent bonding) of water molecules connected by electrostatic attraction (van der Waals force), it is preferable to expose them to electromagnetic influences.

For example, the water before passing through the magnetization activated water device has a large cluster structure in which a plurality of water molecules are connected.

On the other hand, the water after passing through the magnetization activated water device has a high activity of hydrogen bonds between the water molecules and has an atomized small cluster structure containing so-called pentagonal and hexagonal water, resulting in improvement (reformation) of water function. is done As such, the modified water is also referred to as magnetized water, magnetized active water, ionized water, or the like.

Here, the magnetization of water is implemented by an electromagnetic field formed in a portion through which water passes, but may also be implemented through a physical effect due to turbulence of water (亂流化; Reynolds number) in addition to the electromagnetic field.

For example, in order to ensure the flow rate of water in a steady flow state passing through a tube and pass through the tube of a magnetization activated water device, and to increase the turbulence of water in a vortex state, the Improving the pipeline structure.

However, in the past, structures of various patterns were mounted inside the conduit of the magnetized activated water device through which water passes in order to amplify the turbulence, but there was a disadvantage in that the flow rate of water and maintenance of turbulence were insignificant.

On the other hand, although there may be various methods for increasing the turbulence of water through a mechanical structural change within the conduit of the magnetized activated water device, the flow rate that should not interfere with the flow of water passing through the magnetized activated water device when considering the magnetization activity of water There are also difficulties that need to be considered.

Accordingly, as the dual twist type rotating body is disposed in the conduit of the magnetized activated water device, atomization to a degree corresponding to when the water passing through the conduit of the magnetized activated water device passes through a very narrow space is achieved and the flow is It is required to implement a technology that can solve the problems of the prior art as described above by preventing it from being disturbed.

The present invention has been proposed in view of the above, and an object of the present invention is to achieve atomization to a degree corresponding to when the water passing through the conduit of the magnetized activated water device passes through a very narrow space, and the flow is not disturbed. It is to provide a magnetized activated water device having a dual twist type rotating body that can secure the flow rate to prevent it from happening.

Another object of the present invention is to provide a magnetized activated water device having a dual twist type rotating body capable of organically improving water atomization and magnetization activity.

In order to achieve the above object, the present invention is a magnetizing activated water device having a dual twist type rotating body in which one end and the other end of its own end can be connected in communication with a water pipe, and it is made in the form of a hollow pipe, , An outer cylinder member 100 whose one end is screwed to one end of the water pipe and the other end thereof is screwed to the end of the other water pipe; At least one outer spiral unit 210 disposed in a spiral shape along the longitudinal direction of the outer cylinder member from the inside of the outer cylinder member so that the fluid inside the outer cylinder member flows in a vortex shape and concentrically disposed along the inner wall circumference of the outer cylinder member; One or more inner spiral units 220 to be partitioned from the outer spiral unit and arranged in concentric circles with an inner diameter smaller than the concentric circles formed along the inner wall of the outer cylinder member so that the fluid passing inside the outer cylinder member flows in a vortex form A spiral inner cylinder member 200 having; It is configured to include a; magnetization active water member 300 for generating a magnetic force with respect to the water passing through the spiral inner cylinder member.

Here, the spiral inner cylinder member 200 is made in the form of a hollow pipe, the first inner cylinder unit 230 is inserted and fixed in parallel with the outer cylinder member on the inner side of the outer cylinder member; a second inner cylinder unit 240 made of a hollow pipe shape and inserted and fixed in parallel with the first inner cylinder unit on the inside of the first inner cylinder unit; It may be provided with; a central axis unit 250 disposed long in the longitudinal direction of the second inner cylinder unit from the inner center of the second inner cylinder unit, the outer spiral unit 210 is the inner wall of the first inner cylinder unit and the second inner cylinder It is arranged in a spiral shape along the longitudinal direction of the first inner cylinder unit in a state in contact with the outer wall of the unit, and the inner spiral unit 220 is in contact with the inner wall of the second inner cylinder unit and the outer wall of the central axis unit of the second inner cylinder unit. It may be arranged in a spiral shape along the longitudinal direction.

On the other hand, when the outer spiral unit is disposed on an imaginary vertical line connecting the central axis unit to the first inner cylinder unit, the inner spiral unit may be preferably disposed at a position other than the vertical line.

And, the magnetization active water member 300 wraps the outer surface of the spiral inner cylinder member corresponding between the outer wall of the spiral inner cylinder member and the inner wall of the outer cylinder member in a ring shape, and the repulsive force of the mutual magnetic force along the longitudinal direction of the spiral inner cylinder member. A plurality of ring magnet units 310 spaced apart to indicate; At least one ring magnetic spacer unit 320 wrapped around the outer surface of the spiral inner cylinder member corresponding between the outer wall of the spiral inner cylinder member and the inner wall of the outer cylinder member in a ring shape disposed between the plurality of ring magnet units; A plurality of circular bar magnet units 330 inserted into the central axis unit along the longitudinal direction of the central axis unit; may be provided.

On the other hand, when the ring magnet unit is disposed on an imaginary cut surface connecting the outer cylinder member from the central axis unit, the circular bar magnet unit may also be preferably disposed on the cut surface.

And, the magnetization active water member 300 wraps around the outer surface of the ring magnet unit along the circumferential direction of the ring magnet unit, and one end thereof is bent toward the central axis unit so that it abuts against one side of the ring magnet unit. The above magnetic cap unit 340; may be further provided.

The present invention comprises a spiral inner cylinder member having an outer spiral unit and an inner spiral unit arranged in two concentric circles from the central portion of the pipeline toward the outer diameter portion, thereby achieving atomization of water to a degree corresponding to when water passes through a very narrow space. It shows the advantage of being able to secure a smooth flow rate so that the flow of the water is not disturbed.

In addition, the present invention is provided with a plurality of magnetic cap units and organically coupled with the spiral inner cylinder member, so that the magnetization activity of water by electromagnetic energy of the magnetic cap unit can be further improved through the mechanical structure of the spiral inner cylinder member. indicate the advantages.

[FIG. 1] is a schematic usage state diagram of a magnetized activated water device according to the present invention;
[Figure 2] is a cross-sectional view of a magnetized activated water device according to the present invention;
[FIG. 3] is a perspective view of [FIG. 2],
[FIG. 4] is a view in which each configuration is separated from [FIG. 3],
[FIG. 5] is an enlarged view of the spiral inner cylinder member excluding the first inner cylinder unit, which is a configuration of the present invention, taken from the angle of [FIG. 3];
[FIG. 6] is a perspective view of [FIG. 3] viewed from another angle,
[FIG. 7] is a view in which each configuration is separated from [FIG. 6],
[FIG. 8] is a view of [FIG. 5] viewed from another angle.

Hereinafter, the present invention will be described in detail with reference to the drawings.

[FIG. 1] is a schematic usage state diagram of a magnetized activated water device according to the present invention. As shown in [Fig. 1], the magnetization activated water device according to the present invention is installed on a pipe through which water passes, mechanically atomizing the water in the pipe, and effectively exposing it to the region of the corresponding magnetic field.

Specifically, the present invention relates to the first water pipe 21 and the second water pipe in a state disposed between the first water pipe 21 and the second water pipe 22, which are the joint portions of the pipe, as shown in FIG. 1 . (22) is formed in the form that connects.

And, as shown in [Fig. 1], the bone disposed between the first water pipe 21 and the second water pipe 22 so that the water flowing through the magnetization activated water device 10 can be effectively exposed to the region of the corresponding magnetic field. A detailed configuration of the magnetized activated water device 10 according to the present invention will be described with reference to Figs. 2 to 8 below.

[Fig. 2] is a cross-sectional view of a magnetized activated water device according to the present invention, [Fig. 3] is a perspective view of [Fig. 2], [Fig. 4] is a view in which each component is separated from [Fig. 3], [Fig. 5] is an enlarged view of the spiral inner cylinder member excluding the first inner cylinder unit, which is a configuration of the present invention, taken from the angle of [Fig. 3], and [Fig. 6] is a perspective view of [Fig. 3] viewed from another angle. , [FIG. 7] is a view in which each configuration is separated from [FIG. 6], and [FIG. 8] is a view looking at [FIG. 5] from a different angle.

Referring to [Fig. 2] to [Fig. 8], the present invention is a magnetization activated water device 10 having a dual twist type rotating body in which one end of its own end and its other end can be connected to a water pipe in communication. As such, it may be configured to include the outer cylinder member 100 , the spiral inner cylinder member 200 , and the magnetization active water member 300 , and preferably may further include a spacer member 400 for fixing the magnet.

The outer cylinder member 100 is made in the form of a hollow pipe as in [FIG. 2] to [FIG. 4], and as in [FIG. 1], one end of its own water pipe (first water pipe; 21) end It may be screwed and its other end may be screwed to the other end of the water pipe (second water pipe) 22 .

As a result, the outer cylinder member 100 communicates between the first water pipe 21 and the second water pipe 22 so that the fluid flowing through the first water pipe 21 passes through the outer cylinder member 100 to the second It can move to the water pipe (22).

At this time, the spiral inner cylinder member 200 is disposed inside the outer cylinder member 100 and the water moving from the first water pipe 21 to the second water pipe 22 via the outer cylinder member 100 is provided with a magnetic field. It implements the optimal atomization state for exposure to

To this end, the spiral inner cylinder member 200 is arranged in a spiral shape along the longitudinal direction of the outer cylinder member 100 from the inside of the outer cylinder member 100 so that the fluid inside the outer cylinder member 100 flows in a vortex shape.

In detail, the spiral inner cylinder member 200 is an outer spiral unit 210 , an inner spiral unit 220 , a first inner cylinder unit 230 , and a second inner cylinder unit 240 as shown in FIGS. 2 to 8 . ), the central axis unit 250 may be provided.

The outer spiral unit 210 is along the inner wall circumference of the first inner cylinder unit 230 in the space between the first inner cylinder unit 230 and the second inner cylinder unit 240 as in [Fig. 2] to [Fig. 8]. A plurality of concentric circles may be disposed.

And, each outer spiral unit 210 is in the space between the first inner cylinder unit 230 and the second inner cylinder unit 240 along the longitudinal direction of the first inner cylinder unit 230 or the second inner cylinder unit 240 It may be arranged spirally as in [FIG. 2] to [FIG. 8].

The inner spiral unit 220 is a concentric circle along the inner wall circumference of the second inner cylinder unit 240 in the space between the second inner cylinder unit 240 and the central axis unit 250 as in [Fig. 2] to [Fig. 8]. A plurality of phases may be disposed.

And, each inner spiral unit 220 along the longitudinal direction of the second inner cylinder unit 240 or the central axis unit 250 in the space between the second inner cylinder unit 240 and the central axis unit 250 [Fig. 2] to [Fig. 8] may be arranged in a spiral.

Here, the inner spiral unit 220 is divided from the outer spiral unit 210 as shown in FIGS. 2 to 5 , and the outer spiral unit 210 is formed along the inner wall circumference of the first inner cylinder unit 230 . A plurality of outer spiral units 210 and a plurality of concentric circles may be disposed to have an inner diameter smaller than that of the concentric circles.

At this time, the outer spiral unit 210 is preferably in a state in contact with the inner wall of the first inner cylinder unit 230 and the outer wall of the second inner cylinder unit 240 as in [Fig. 2] to [Fig. 4], the first inner cylinder The unit 230 may be arranged in a spiral shape along the longitudinal direction.

And, the inner spiral unit 220 is in contact with the inner wall of the second inner cylinder unit 240 and the outer wall of the central axis unit 250 as in [Fig. 2] to [Fig. 4], the second inner cylinder unit 240 may be arranged in a spiral shape along the longitudinal direction of the .

On the other hand, in the inner spiral unit 220, the outer spiral unit 210 is arranged on a virtual vertical line connecting the first inner cylinder unit 230 from the central axis unit 250 as in [Fig. 6] to [Fig. 8]. In this case, the inner spiral unit 220 may be disposed at a position other than the vertical line.

As a result, water rotated in a spiral form between the central shaft unit 250 and the second inner cylinder unit 240 and water rotated in a spiral form between the second inner cylinder unit 240 and the first inner cylinder unit 230 is As the outer spiral unit 210 and the inner spiral unit 220 are non-uniformly interfered, constructive interference and destructive interference such as the so-called beat phenomenon may be amplified.

Through this, the fluid flowing inside the first inner cylinder unit 230 and the water flowing inside the second inner cylinder unit 240 are the features of the mechanical arrangement of the outer spiral unit 210 and the inner spiral unit 220. As a result, atomization can be amplified more effectively.

To this end, the first inner cylinder unit 230 is made in the form of a hollow pipe as in [Fig. 2] to [Fig. 8] and is inserted and fixed in parallel with the outer cylinder member 100 on the inside of the outer cylinder member 100.

And, the second inner cylinder unit 240 is made in the form of a hollow pipe as in [Figs. 2] to [Fig. 8] and inserted into the first inner cylinder unit 230 in parallel with the first inner cylinder unit 230. is fixed

The central axis unit 250 may be disposed elongated along the longitudinal direction of the second inner cylinder unit 240 in the inner central portion of the second inner cylinder unit 240 as in [Fig. 2] to [Fig. 8].

At this time, the central axis unit 250 may be arranged in the form of a hollow pipe concentric with the second inner cylinder unit 240 as in [Fig. 2] to [Fig. 4].

In detail, the central axis unit 250 may have a closed structure at one end as in [FIG. 5] and an open structure at the other end having an entry hole 251 as shown in FIG.

As a result, the central axis unit 250 can accommodate a part of the configuration of the magnetization active water member 300 as shown in [Fig. 2] to [Fig. 4] through the entrance hole 251, specifically, It can accommodate the circular bar magnet unit 330 and the plurality of circular magnetic spacer units 350 .

At this time, as the plurality of round bar magnet units 330 face each other with the same pole (eg, S pole, N pole) between the respective round bar magnet units 330 adjacent to each other, each of the round bar magnet units adjacent to each other The 330 may have a repulsive force that repels each other.

In the present specification, the term 'magnetic material' included in the name of each component or included in the description of the contents of the component means a material that is magnetized by itself in a magnetic field formed by a magnet (eg, Fe) indicates that it is included.

Here, the magnetization active water member 300 generates a magnetic force against the water so as to magnetize the water passing through the spiral inner cylinder member 200 as in [Fig. 2] to [Fig. 4]. It may include a magnet unit 310 , a ring magnetic spacer unit 320 , a circular bar magnet unit 330 , a magnetic cap unit 340 , and a circular magnetic spacer unit 350 .

The ring magnet unit 310 rings the outer surface of the spiral inner cylinder member 200 corresponding to between the outer wall of the spiral inner cylinder member 200 and the inner wall of the outer cylinder member 100 as in [Fig. 2] to [Fig. 4]. In the longitudinal direction of the spiral inner cylinder member 200 wrapped in a shape, a plurality of pieces may be spaced apart to represent the repulsive force of the mutual magnetic force.

For example, from among the plurality of ring magnet units 310 spaced apart from each other in the longitudinal direction of the first inner cylinder member 230 as shown in FIGS. 2 to 4 , the ring magnet units 310 adjacent to each other push each other It is placed to show the repulsive force.

Here, when the plurality of ring magnet units 310 are spaced apart as in [Fig. 2] to [Fig. 4] to represent a repulsive force, which is a magnetic force that pushes each other, each ring magnet unit 310 is adjacent to each other. The resulting magnetic force is deflected in the direction in which the central axis unit 250 is located. As a result, the deflected magnetic force can deeply affect the central axis unit 250 .

The ring magnetic spacer unit 320 is the outer surface of the spiral inner cylinder member 200 corresponding to between the outer wall of the spiral inner cylinder member 200 and the inner wall of the outer cylinder member 100 as in [Fig. 2] to [Fig. 4]. A plurality of rings may be disposed between the plurality of ring magnet units 310 while being wrapped in a ring shape.

Here, it is possible to adjust the repulsive force of the magnetic force or the attractive force of the magnetic force formed by interaction between the plurality of ring magnet units 310 according to the width of the ring magnetic spacer unit 320 .

For example, when each ring magnet unit 310 is installed to exhibit mutual repulsion, the smaller the width of the ring magnetic spacer unit 320 is, the smaller the separation distance between each ring magnet unit 310 becomes. The repulsive force of the magnetic force between the units 310 will also be strong.

As such, when the repulsive force of the magnetic force between the ring magnet units 310 is strong, the magnetic force formed by being deflected from the side of the ring magnetic spacer unit 320 toward the central axis unit 250 will also be strong.

A plurality of circular bar magnet units 330 may be inserted to be spaced apart from each other in the inner side of the central axis unit 250 along the longitudinal direction of the central axis unit 250 as shown in FIGS. 2 to 4 .

In addition, the circular magnetic spacer unit 350 may be employed between the circular bar magnet units 330 in the form of a disk as shown in FIGS. 2 to 4 . In this case, each of the circular bar magnet units 330 adjacent to each other may be disposed to face each other with the same pole (eg, S pole, N pole).

As such, as a plurality of circular bar magnet units 330 are fitted into the central axis unit 250, the magnetic force formed through the plurality of ring magnet units 310 is a portion in which the plurality of circular bar magnet units 330 are positioned. can be transmitted easily.

Here, the individual components of the magnetization active water member 300 face each other so that the magnetic force generated by the plurality of ring magnet units 310 can maintain a strong state until the central axis unit 250 reaches the poles (eg, S) pole, N pole) can be adjusted.

To this end, specifically, a plurality of ring magnet units 310, a plurality of ring magnetic spacer units 320, a plurality of circular bar magnet units 330, and a plurality of magnetic cap units, which are the components of the magnetization active water member 300, (340), the plurality of circular magnetic spacer unit 350 may be arranged so that a repulsive force of a magnetic force or an attractive force of a magnetic force can be formed with each other.

The magnetic cap unit 340 may be provided in plurality as in [Figs. 2] to [Fig. 4] and wraps the outer surface of the ring magnet unit 310 along the circumferential direction of the ring magnet unit 310, but its own One end is bent toward the central axis unit 250 so as to be in contact with one side of the ring magnet unit 310 .

Here, the magnetic force formed in the ring magnet unit 310 is well transmitted to the central portion of the second inner cylinder unit 240 in which the central axis unit 250 is located, moving the inside of the second inner cylinder unit 240 . It is possible to improve the atomization of water.

In this context, the magnetic cap unit 340 contributes so that the magnetic force generated from the ring magnet unit 310 is well transmitted to the central portion of the second inner cylinder unit 240 in terms of its structural characteristics and arrangement structure. .

In particular, the portion bent to one side of the ring magnet unit 310 among the magnetic cap unit 340 effectively transfers the magnetic force generated at the edge of the ring magnet unit 310 to the central portion of the second inner cylinder unit 240 . can

In this way, the magnetic force generated from the ring magnet unit 310 is well transmitted in the direction of the central axis unit 250 through the magnetic cap unit 340 and the water moving inside the spiral inner cylinder member 200 is physically transported. As the atomization increases, as a result, the magnetization or activity of water moving inside the spiral inner cylinder member 200 may be remarkably improved.

On the other hand, the task of ensuring that the magnetic force generated from the ring magnet unit 310 disposed on the outside of the spiral inner cylinder member 200 is well transmitted in the direction of the central axis unit 250 and the water flowing through the inside of the spiral inner cylinder member 200 The magnetization efficiency of water can be maximized by organically combining the tasks of physically atomizing well.

To this end, when the ring magnet unit 310 is disposed on a virtual cut surface connecting the outer cylinder member 100 from the central axis unit 250, the circular bar magnet unit 330 is also on the cut surface as in [Fig. 2]. placement is preferred.

On the other hand, the spacer member 400 for fixing the magnet may be fitted and fixed to the outer surface of the first inner cylinder unit 230 as shown in FIGS. 2 to 4 .

At this time, the spacer member 400 for fixing the magnet may be coupled to the outer surface of the first inner cylinder unit 230 by force fitting.

In addition, as a screw tab is formed on the inner wall of the spacer member 400 for fixing the magnet, and a screw tab is also formed on the outer surface of the first inner cylinder unit 230 corresponding to the spacer member 400 for fixing the magnet, the spacer for fixing the magnet The member 400 may be screwed to the outer surface of the first inner cylinder unit 230 .

As a result, even when the spacer member 400 for fixing the magnet is arranged to generate a repulsive force between the plurality of ring magnet units 310, since the adhesion between the plurality of ring magnet units 310 can be mechanically increased, as a result, the product assembly workability can be improved.

10: magnetization activated water device according to the present invention
21: first water pipe
22: second water pipe
100: no outer cylinder
200: spiral inner cylinder member
210: outer spiral unit
220: inner spiral unit
230: first inner cylinder unit
240: second inner cylinder unit
250: central axis unit
251: entrance hole
300: absence of magnetization active water
310: ring magnet unit
320: ring magnetic spacer unit
330: round bar magnet unit
340: magnetic cap unit
350: circular magnetic spacer unit
400: spacer member for fixing magnet

Claims (6)

A magnetization activated water device having a dual twist type rotating body in which its one end and its other end can be connected to a water pipe in communication,
an outer cylinder member 100 made in the form of a hollow pipe, one end of which is screwed to one end of the water pipe, and the other end of which is screwed to the end of the other water pipe;
a spiral inner cylinder member 200 disposed in a spiral shape along the longitudinal direction of the outer cylinder member inside the outer cylinder member so that the fluid inside the outer cylinder member flows in a vortex shape;
A magnetization active water member 300 for generating a magnetic force with respect to water passing through the spiral inner cylinder member;
consists of,
The spiral inner cylinder member 200,
one or more outer spiral units 210 disposed concentrically along the inner wall of the outer cylinder member;
One or more inner spiral units to be partitioned from the outer spiral unit and arranged in concentric circles with an inner diameter smaller than the concentric circles formed along the inner wall of the outer cylinder member so that the fluid passing inside the outer cylinder member flows in a vortex form (220);
A first inner cylinder unit 230 made of a hollow pipe shape and inserted and fixed in parallel with the outer cylinder member on the inside of the outer cylinder member;
a second inner cylinder unit 240 made in the form of a hollow pipe and inserted and fixed in parallel with the first inner cylinder unit on the inside of the first inner cylinder unit;
a central axis unit 250 disposed long in the longitudinal direction of the second inner cylinder unit from the inner center of the second inner cylinder unit;
to provide
The magnetization active water member 300,
A plurality of outer surfaces of the spiral inner cylinder member corresponding between the outer wall of the spiral inner cylinder member and the inner wall of the outer cylinder member are wrapped around the outer surface of the spiral inner cylinder member in a ring shape so as to represent a repulsive force of mutual magnetic force in the longitudinal direction of the spiral inner cylinder member. ring magnet unit 310;
At least one ring magnetic spacer unit 320 wrapped around the outer surface of the spiral inner cylinder member corresponding between the outer wall of the spiral inner cylinder member and the inner wall of the outer cylinder member in a ring shape and disposed between the plurality of ring magnet units;
a plurality of circular bar magnet units 330 inserted inside the central axis unit along the longitudinal direction of the central axis unit;
Magnetized in a magnetic field to guide the magnetic force generated from the ring magnet unit is transmitted in the direction of the central axis unit and also to guide the magnetic force generated from the edge of the ring magnet unit is transmitted to the center of the second inner cylinder unit. It has a material to be magnetized and is disposed on the outer surface of the ring magnet unit along the circumferential direction of the ring magnet unit. One or more magnetic cap units 340 disposed in contact with the outer surface of the first inner cylinder unit with its bent tip in contact with one side of the ring magnet unit;
is provided,
The outer spiral unit 210 is arranged in a spiral shape along the longitudinal direction of the first inner cylinder unit in a state in contact with the inner wall of the first inner cylinder unit and the outer wall of the second inner cylinder unit,
The inner spiral unit 220 is a dual twist type circuit, characterized in that it is arranged in a spiral shape along the longitudinal direction of the second inner cylinder unit in a state in contact with the inner wall of the second inner cylinder unit and the outer wall of the central axis unit. A fully magnetized activated water device.
delete The method according to claim 1,
When the outer spiral unit is disposed on an imaginary vertical line connecting the first inner cylinder unit from the central axis unit, the inner spiral unit is a dual twist type rotating body, characterized in that it is disposed at a position other than the vertical line. Equipped with a magnetized activated water device.
delete 4. The method according to claim 3,
When the ring magnet unit is disposed on an imaginary cut surface connecting the outer cylinder member from the central axis unit, the circular bar magnet unit is also disposed on the cut surface. number of devices. delete

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