KR101969911B1 - Magnetic resonance apparatus for water - Google Patents

Abstract

The present invention relates to a magnetized water generating apparatus for magnetizing water by being mounted on a water treatment pipe such as a shower head, a faucet, or a water pipe. More particularly, a spiral forward rotating blade rotating in a forward direction and a spiral reverse rotating blade rotating in a reverse direction are inserted into a hollow of a housing to allow water to flow in a swirling flow in the hollow of the housing, so that the water can be magnetized by applying a magnetic force to the water in which the swirling current is formed.

Description

Magnetic resonance apparatus for water

The present invention relates to a magnetized water generating device for immersing water in a water treatment pipe such as a shower head, a water receiving pipe or a water pipe, and more particularly, to a magnetized water producing device for rotating water in a reverse direction And the magnet member allows the magnetized water to magnetize the water by applying a magnetic force to the water in which the eddy current is formed, Generating device.

Water is a combination of two hydrogen atoms and one oxygen atom. As the temperature increases, it forms a chain or pentagonal ring of 5, and the hexagonal ring increases with decreasing temperature. The water, that is, hexagonal water constituting the hexagonal annular molecular structure is known to be beneficial for improving the life function of an organism because it has a large heat capacity and cohesion with other biomolecules.

The hexagonal water has a method of cooling the water to obtain the temperature according to the decrease in temperature. However, the method is not used because of energy loss and ineffectiveness, and a magnetized water ion generating device using mostly permanent magnets is used.

Also, when the water is passed through the magnetic field of the magnet, the water molecule structure of the magnetized water ion generator is ionically activated and becomes a magnetized water having a weak alkaline hexagonal structure rich in minerals. The magnetized water activates the cells in the body, It is known that it has the characteristic of being able to effectively treat skin diseases due to excellent bactericidal ability and to prevent foreign matter and bacteria from living in piping flowing through the water.

In addition, the magnetized water generating device using the magnet can obtain a large amount of magnetized water in a short time, and is widely used in a variety of fields such as food factories, bathhouses, livestock farming, and plant cultivation as well as living in apartment complexes.

The following is a representative prior art for a device capable of magnetizing water.

Korean Patent Laid-Open Publication No. 10-2014-0137875 relates to a magnetized water producing apparatus for producing magnetized water by dissipating magnetic force to water, wherein the magnetized water producing apparatus generates magnetic force to the moving water The magnetic force generating unit includes a plurality of magnets arranged in a line and an outer member surrounding the magnet to guide the movement of water while maintaining the shape of the magnet array.

Also, the above-mentioned prior art attempts to realize an effect of improving the magnetization efficiency by increasing the time and area of contact of the water with the magnetic force. However, in the case of using a structure in which water can flow once only to the magnetic force- Therefore, there is a problem that the length of the flow of water is short and the magnetization of the water is somewhat insufficient.

That is, the shape of the water molecule structure varies depending on the length of the magnetic field region through which the water passes and the arrangement of the magnetic poles, and the effect of the magnetized water may be different from that of the magnetized water produced using the magnet as described above. However, The configuration is somewhat inadequate, and research and development are continuously required to solve this problem.

Korean Patent Publication No. 10-2014-0137875 (Dec. 23, 2014) Korean Registered Patent No. 10-1377284 (Mar. Korean Registered Patent No. 10-1442756 (2014.09.15.) Korean Registered Patent No. 10-1515330 (Apr. 20, 2015)

The present invention has been conceived to solve the problems of the prior art of a device for magnetizing water. The conventional magnetized water producing apparatus realized water magnetization by the magnetic force of the magnetic substance by simply flowing water around the magnetic substance, The water flow direction was constant and the water self-incompatibility was somewhat insufficient;

Further, in order to increase the frequency of exposure of water to the magnetic body, in order to increase the length of the flow of water, the length of the magnetic body must be made long, so that the problem of increasing the size of the magnetized water generating apparatus occurs. .

The present invention has been made to solve the above-

A housing in which a hollow through which water flows is formed inside; A vortex screw member having a length in the same direction as the longitudinal direction of the housing hollow and being inserted into the hollow of the housing and having a spiral reverse rotation vane rotated in a reverse direction and a spiral forward rotation vane rotated in a normal direction on an outer circumference; And a magnetic member inserted into the inside of the housing hollow corresponding to the outer side of the vortex screw member.

In the magnetized water producing apparatus according to the present invention as described above, since the water flowing in the hollow of the housing is repeatedly rotated in forward and reverse directions by the vortex screw member formed with the forward rotation vane and the reverse rotation vane, It is possible to continuously change the flow direction of the water with respect to the magnetic force lines of the magnetic member inserted into the hollow and to form a vortex so that the magnetic force lines of the magnetic member can be applied to the water in various directions;

As a result, since the magnetic force lines can be applied to water in various directions, the effect of greatly increasing the magnetization energy of water can be obtained;

In addition, since the magnetic force lines can be applied to the water formed by the vortex in various directions, even if the flow length of the water is the same for the same magnitude of the magnetic force, the effect of increasing the magnetizability of the water can be obtained.

The water in the source water passes through the high valley and the run-up river and passes through the stone that fills the various minerals. As it becomes the high-quality water, it uses the high rotational force. Therefore, it passes through the generated magnetization device to secure the quality of the flowing water. do.

1 is a perspective view showing a magnetized water generating apparatus according to a preferred embodiment of the present invention.
FIG. 2 is an exploded perspective view showing a magnetized water generating apparatus according to a preferred embodiment of the present invention. FIG.
3 is a partially exploded perspective view showing a magnetized water producing apparatus according to a preferred embodiment of the present invention.
4A is a side view showing a vortex screw member of a magnetized water generating apparatus according to a preferred embodiment of the present invention.
4B is a side view showing a vortex screw member of the magnetized water generating apparatus according to another preferred embodiment of the present invention.
5 is a side sectional view showing a magnetized water producing apparatus according to a preferred embodiment of the present invention.
6 is a side sectional view of a ceramic member showing a case where an inner groove is formed in a ceramic member of the magnetized water producing apparatus according to a preferred embodiment of the present invention.
7 is a side sectional view showing a case where an inner groove is formed in the ceramic member of the magnetized water generating device according to the preferred embodiment of the present invention.

The present invention relates to a magnetized water producing apparatus for magnetizing water by being mounted on a water treatment pipe such as a shower head, a water receiving pipe or a water pipe, comprising: a housing 10 in which a hollow 11 through which water flows is formed; A spiral forward rotating blade 21 having a length in the same direction as the longitudinal direction of the hollow 11 of the housing 10 and inserted into the hollow 11 of the housing 10 and rotated in the forward direction on the outer periphery, An eddy screw member (20) formed with a rotating spiral reverse rotation blade (22); And a magnetic member (30) inserted into the hollow (11) of the housing (10) corresponding to the outside of the vortex screw member (20).

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which preferred embodiments of the invention are shown.

First, the magnetized water generating apparatus according to the present invention is a device mounted on a water treatment pipe such as a shower head, a water receiving pipe, or a water pipe to magnetize water to be flowed.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to a preferred embodiment in which the magnetized water generating apparatus is mounted on a predetermined portion of a water pipe.

The magnetized water producing apparatus according to the present invention comprises a housing 10, an eddy screw member 20 and a magnetic member 30.

That is, the housing 10 has a structure in which a hollow 11 through which water flows is formed inside, and the following vortex screw member 20 and the magnetic member 30 are inserted into the hollow 11.

Specifically, the housing 10 is installed between a pair of pipes separated from each other to connect a pair of pipes, and the water flowing in any one of the pair of pipes is connected to the housing And then flows into the other pipe after passing through the hollow 11 of the pipe 10.

At this time, an inlet port and an outlet port communicating with the hollow 11 are formed respectively at one side and the other side of the longitudinal direction of the housing 10, and one pipe and the other pipe A fastening portion to be fastened to the end of one pipe is formed.

In addition, the housing 10 may be formed in various shapes as long as the hollow 11 is formed therein, and may be composed of a single body or a plurality of bodies, preferably in the form of a cylindrical tube.

More specifically, the housing 10 may be constructed as a single body and may have a structure in which the following vortex screw member 20 and the magnetic member 30 are inserted into the hollow 11 formed therein; A plurality of housing units may be coupled to each other to form a single housing 10.

That is, when the plurality of housing units are coupled to each other to form a single housing 10, the housing 10 includes one housing unit 10a corresponding to a portion of the housing 10 at one side in the longitudinal direction of the housing 10; An intermediate housing unit 10b connected to the other side of the one housing unit 10a and corresponding to a longitudinal middle portion of the housing 10; And the other housing unit 10c connected to the other side of the intermediate housing unit 10b and corresponding to a portion of the other side of the housing 10 in the longitudinal direction.

At this time, a hollow 11 is formed in the longitudinal direction of each housing unit in the one housing unit 10a, the intermediate housing unit 10b and the other housing unit 10c, and the hollow 11 of each housing unit So that the hollow 11 of the housing 10 is formed.

In addition, one side of the one housing unit 10a is connected to the other side of one pipe connected to the other side, and the other side of the other housing unit 10c is connected to one side of the other pipe connected to each other.

In addition, the following vortex screw member 20 and the magnetic member 30 can be inserted into the hollow 11b of the intermediate housing unit 10b. The opening formed at the other side of the hollow 11a of the one housing unit 10a is configured to have a smaller diameter than the opening formed at one side of the hollow 11b of the middle housing unit 10b and the other housing unit 10c Is formed to have a smaller diameter than the opening formed on the other side of the hollow 11b of the middle housing unit 10b so that the hollow 11b of the middle housing unit 10b It is preferable that the screw member and the magnetic member 30 that are interlocked are not separated toward the hollow 11a of the one housing unit 10a and the hollow 11c of the other housing unit 10c.

The vortex screw member 20 has a length in the same direction as the longitudinal direction of the hollow 11 of the housing 10 and is inserted into the hollow 11 of the housing 10, A vortex is formed in the water flowing in the hollow 11 of the housing 10 in a configuration in which the spiral reverse rotation vane 22 is rotated in a direction opposite to the forward rotation vane 21.

That is, the vortex screw member 20 has a length in the longitudinal direction of the hollow 11 of the housing 10 and is configured to be inserted into the hollow 11 of the housing 10, Or a circular tube shape and is inserted into the center of the hollow 11 of the housing 10.

At this time, a spiral rotating blade is formed on the outer circumference of the vortex screw member 20 so as to protrude outwardly of the vortex screw member 20, and the spiral rotating vane is rotated in a direction opposite to the forward rotating vane 21 rotated in the forward direction And a rotating reverse blade (22) rotated.

Specifically, in the vortex screw member 20 having the above-described structure, the spiral forward rotation vane 21 rotating in the forward direction and the spiral reverse rotation vane 22 rotating in the reverse direction are rotated in the longitudinal direction of the vortex screw member 20 When the water flowing from one side of the hollow 11 of the housing 10 to the other side (or one side from the other side) passes through the portion where the forward blades 21 are disposed, the forward rotation And is rotatable in the reverse rotation direction when passing through the portion where the reverse rotation vane 22 is disposed so that vortex can be formed in the hollow 11 of the housing 10 as a whole .

The outer periphery of the forward rotation vane 21 and the reverse rotation vane 22 are formed in the inner peripheral surface of the hollow 11 of the housing 10 (strictly speaking, the inner peripheral surface of the magnetic member 30 or the ceramic member 40) The water may be rotated and flow into the spacing space formed between the outer periphery of the forward rotation blades 21 and the reverse rotation blades 22 and the inner peripheral surface of the hollow 11 of the housing 10, and ii) It is preferable that the housing 10 has a state in which it is in contact with the inner peripheral surface of the hollow 11 (strictly speaking, the inner peripheral surface of the magnetic body member 30 or the ceramic member 40) And may be rotated and flow only along the wing surfaces of the reverse rotation blades 21 and the reverse rotation blades 22.

In addition, the vortex screw member 20 may be formed in various forms as long as the forward rotation vane 21 and the reverse rotation vane 22 are formed on the outer circumference to form a vortex in the water flowing in the hollow 11 of the housing 10 Preferably, the vortex screw member 20 includes a first vortex screw 20a having the forward vanes 21 formed on the outer periphery thereof; A second vortex screw 20b disposed adjacent to or connected to the first vortex screw 20a with respect to the longitudinal direction of the hollow 11 of the housing 10 and having the reverse vane 22 formed on the outer periphery thereof, ; ≪ / RTI >

That is, the vortex screw member 20 having the above-described structure is configured to include the first vortex screw 20a and the second vortex screw 20b macroscopically.

At this time, the first vortex screw 20a has a configuration in which a forward vane 21 is formed on the outer periphery, and the water flowing in the hollow 11 of the housing 10 is rotated in the normal rotation direction, The vortex screw 20b has a configuration in which a counterclockwise vane 22 is formed on the outer periphery of the vortex screw 20a and the vortex screw 20b has a configuration in which water passing through a part of the hollow 11 of the housing 10 into which the first vortex screw 20a is inserted rotates in the reverse direction to be.

If the vortex screw member 20 is divided into the first vortex screw 20a and the second vortex screw 20b so as to be connected to each other or connected to each other as described above, the vortex screw member 20 having the spiral- 20 can be more easily produced by the injection method using a mold and a plurality of first vortex screws 20a and second vortex screws 20b are sequentially placed in the hollow 11 of the housing 10 It is possible to realize the effect of increasing the vorticity of the water to be flowed by continuous arrangement.

That is, the water passing through the forward vane 21 by the vortex screw member 20 is rotated in the normal rotation and flows in a portion of the hollow 11 of the housing 10, and the portion of the forward vane 21 When the water passes through the portion of the reverse rotation vane 22, the water passes through the hollow portion 11 of the housing 10 while rotating in the reverse direction. At this time, Since magnetic force lines formed in different directions on water molecules can be applied to the following magnetic force lines on the following magnetic member 30 when rotated by the magnetic force lines applied by the magnetic body member 30 in reverse rotation, Thereby realizing the effect of generating water molecules having different magnetizability.

Since the rotational direction of the water passing through the portion of the forward blades 21 is suddenly changed before the flow of the water to the portion of the forward blades 22 as described above, (Hereinafter, referred to as a 'direction switching space 12') of the hollow 10 of the housing 10 formed between the portions of the hollow space 11 So that the effect of allowing the water flowing into the portion of the reverse rotation vane 22 to be magnetized can be further increased.

When the vortex screw is configured to be divided into the first vortex screw 20a and the second vortex screw 20b, it is preferable that any one of the first vortex screw 20a or the second vortex screw 20b, Wherein the vortex screw member 20 is configured such that a plurality of the first vortex screw 20a and the second vortex screw 20b are successively arranged in the longitudinal direction of the hollow 11 of the housing 10 can do.

That is, the vortex screw member 20 having the above-described structure is constituted by a plurality of screws of any one of the first vortex screw 20a or the second vortex screw 20b, and the first vortex screw 20a and the second vortex screw 20b The water flowing in the hollow 11 of the housing 10 can be turned and rotated a plurality of times, and as a result, It is possible to further increase the effect of the water molecules having different magnetizability.

The magnetic member 30 is configured to be inserted into the hollow 11 of the housing 10 corresponding to the outer side of the vortex screw member 20 and is constituted by at least one magnetic body such as a permanent magnet, 10) a structure for providing magnetic force to water flowing in the hollow 11;

In this case, when the hollow member 11 of the housing 10 has a circular inner periphery, the plurality of magnetic members are arranged in the inner periphery of the hollow 11 of the housing 10 Alternatively, a single magnetic body may be formed in a cylindrical shape to be inserted into the hollow 11 of the circular housing 10.

When the housing 10 is formed by combining one housing unit 10a, the intermediate housing unit 10b and the other housing unit 10c, the cylindrical magnetic member 30 is connected to the intermediate housing unit 10b, And the vortex screw member 20 is inserted into the inside of the cylindrical magnetic member (hollow 31).

At this time, a magnetic member inner groove (not shown) may be formed in the hollow 11b of the middle housing unit 10b to allow the outer periphery of the cylindrical magnetic member 30 to be in contact with the inner periphery of the cylindrical magnetic member 30 A space is formed between the other side of the one housing unit 10a and one side of the other housing unit 10c so that the magnetic member 30 can enter into the space. One side and the other side of the intermediate housing unit 10b are fastened to the one housing unit 10a and the other housing unit 10c so that the magnetic body member 30 is firmly fixed in the hollow 11b of the intermediate housing unit 10b Quot; state "

In addition, a ceramic member 40 may be further disposed between the vortex screw member 20 and the magnetic member 30.

That is, it is preferable that the ceramic member 40 is formed by compressing an inorganic material containing minerals into a cylindrical shape to further contain various kinds of minerals in water to be magnetized.

At this time, the ceramic member 40 is disposed between the magnetic member 30 and the vortex screw member 20 which are inserted into the hollow 11 of the housing 10, and the vortex screw And the outer periphery of the forward rotation blade 21 and the outer periphery of the reverse rotation blade 22 are in contact with or spaced from each other on the inner circumferential surface of the hollow 41 of the ceramic member 40 .

That is, when the cylindrical ceramic member 40 is further disposed between the vortex screw member 20 and the magnetic member 30 as described above, water flowing into the hollow 11 of the housing 10 flows into the hollow member 11, Flows through the hollow 41 of the ceramic member 40 in the form of a cylinder and rotates in the forward and reverse directions by the vortex screw member 20 having the state of being inserted into the hollow 41 of the ceramic member 40, And can be magnetized by receiving the magnetic force of the magnetic body member 30 located outside the ceramic member 40.

When the ceramic member 40 in the form of a cylinder is further disposed between the vortex screw member 20 and the magnetic member 30 as described above, A packing member 50 may be disposed at both ends of the cylindrical ceramic member 40 so that water does not flow out toward the magnetic member 30 located outside the ceramic member 40. [

More specifically, the packing member 50 is formed in a ring shape, and is constituted by a pair of packing members 50. One of the packing members 50 is connected to one side of the ceramic member 40 and the other side of the one housing member 10a And the other packing member 50 is airtightly sealed between the other side of the ceramic member 40 and one end face of the other housing unit 10c so as to seal the hollow 11a of the one housing unit 10a, The water flowing sequentially (which may flow in the opposite direction to the above) sequentially flows through the hollow 41 of the ceramic member 40 and the hollow 11c of the other housing unit 10c toward the magnetic member 30 , It is possible to realize an effect of preventing generation of moss or decay of water due to water splashing between the magnetic body member 30 and the ceramic member 40. [

The ceramic member 40 is formed in a cylindrical shape so as to insert the vortex screw member 20 in the longitudinal direction of the hollow 41. The inner circumferential surface of the hollow 41 of the cylindrical ceramic member 40 has a helical And the inner groove 42 is rotated in the same forward direction as the forward rotation vane 21 and the forward rotation vane 21 is positioned at the outer side of the forward rotation vane 21, (42a); And a reverse rotation inner groove (42b) which is rotated in the same reverse direction as the reverse rotation blade (22) and is located outside the reverse rotation blade (22).

That is, the cylindrical ceramic member 40 has a structure in which a helical inner groove 42 is formed on the inner circumferential surface of the hollow 41 so that the rotation of the water that rotates by the rotary vane formed on the vortex screw member 20 It is possible to obtain an effect of increasing the property.

The inner groove 42 is formed to have a predetermined depth on the inner circumferential surface of the hollow 41 of the cylindrical ceramic member 40 and is preferably rotated in the same direction as the forward rotation vane 21 And a reverse rotation inner groove 42b which is rotated in the same direction as the rotation of the reverse rotation vane 22. [

At this time, the forward rotation inner groove 42a is formed at a certain portion of the hollow 41 of the ceramic member 40 corresponding to the outside of the forward rotation vane 21, and the reverse rotation inner groove 42b is formed in the reverse And is formed at another predetermined portion of the hollow 41 of the ceramic member 40 corresponding to the outer side of the rotary vane 22.

The pitch of the forward rotation inner groove (42a), the pitch of the forward rotation blade (21), the pitch of the reverse rotation inner groove (42b) and the pitch of the reverse rotation blade (22) It is preferable that the water to be used is not deteriorated in rotatability due to different pitches.

The forward rotation inner groove 42a is formed in the inner peripheral surface of the hollow 41 of the cylindrical ceramic member 40 in a state of being offset from the forward rotation blade 21 and the reverse rotation inner groove 42b May be formed on the inner circumferential surface of the hollow 41 of the cylindrical ceramic member 40 while being staggered with the reverse rotation vane 22.

That is, since the forward rotation inner groove 42a having the above-described structure is formed on the inner peripheral surface of the hollow 41 of the ceramic member 40 which is located offset from the outer periphery of the forward rotation blades 21, The water flowing between the outer periphery of any one of the portions and the outer periphery of the other portion can flow into the forward rotation inner groove 42a and can be accelerated and rotated.

Since the reverse rotation inner groove 42b having the above configuration is also formed on the inner circumferential surface of the hollow portion 41 of the ceramic member 40 which is located offset from the outer circumference of the reverse rotation blade 22, The water flowing between the outer periphery of any one of the portions and the outer periphery of the other portion can flow into the reverse rotation inner groove 42b and can be accelerated and rotated.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It is possible to carry out various changes in the present invention.

10: housing 10a: one housing unit
10b: Middle housing unit 10c: The other housing unit
11: hollow of housing 11a: hollow
11b: hollow 11c: hollow
12: direction changing space 20: vortex screw member
20a: first vortex screw 20b: second vortex screw
21: forward rotation blade 22: reverse rotation blade
30: magnetic member 31: hollow of the magnetic member
40: ceramic member 41: hollow of ceramic member
42: inner groove 42a: normal rotation inner groove
42b: reverse rotation inner groove 50: packing member

Claims (5)

A housing (10) in which a hollow (11) through which water flows is formed;
A spiral forward rotating blade 21 having a length in the same direction as the longitudinal direction of the hollow 11 of the housing 10 and inserted into the hollow 11 of the housing 10 and rotated in the forward direction on the outer periphery, An eddy screw member (20) formed with a rotating spiral reverse rotation blade (22);
And a magnetic member (30) which is a permanent magnet to be inserted into the inside of the hollow (11) of the housing (10) corresponding to the outside of the vortex screw member (20)
A ceramic member 40 is further disposed between the vortex screw member 20 and the magnetic member 30,
The ceramic member (40)
And a helical inner groove 42 is formed on the inner circumferential surface of the hollow 41 of the cylindrical ceramic member 40. The inner circumferential surface of the helical screw member 20 is formed in a cylindrical shape, Respectively,
The inner groove (42)
A hollow portion 41 of the ceramic member 40 which is rotated in the same direction as the forward rotation blades 21 and is located outside the forward rotation blades 21 and which is located at a position shifted from the outer periphery of the forward rotation blades 21, (42a) formed on the inner circumferential surface thereof;
And a hollow portion 41 of the ceramic member 40 which is rotated in the same direction as the reverse rotation blade 22 and is located outside the reverse rotation blade 22 and is located at a position shifted from the outer periphery of the reverse rotation blade 22 And a reverse rotation inner groove (42b) formed on an inner circumferential surface of the rotating shaft (42b).
The method according to claim 1,
The vortex screw member (20)
A first vortex screw 20a formed on the outer periphery of the forward rotation vane 21;
A second vortex screw 20b disposed adjacent to or connected to the first vortex screw 20a with respect to the longitudinal direction of the hollow 11 of the housing 10 and having the reverse vane 22 formed on the outer periphery thereof, And a magnetic field generator for generating a magnetic field.
3. The method of claim 2,
The first vortex screw 20a or the second vortex screw 20b has a plurality of screws,
The vortex screw member (20)
Wherein the first vortex screw (20a) and the second vortex screw (20b) are sequentially arranged in the longitudinal direction of the hollow (11) of the housing (10).
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