KR100771503B1 - Wave apparatus transforming water molecule into nano particle - Google Patents

Abstract

A wave motion device for converting water molecules into nanoparticles is provided to relatively increase production efficiency of magnetized hexagonal water by preventing a magnetic field from being attenuated and increase efficacy of the magnetized hexagonal water by increasing the wavelength intensity of the magnetized hexagonal water. A wave motion device for converting water molecules into nanoparticles comprises: a case(110) which is formed in a cylindrical form, of which both ends are opened, and which has first and second clamping grooves(111,113) formed on inner sides of both ends thereof; a first cap(120) which is formed in a circular form, in which a first water supply hole(121) is penetratingly formed, and which has a first projection(123) formed on one side face thereof such that the first projection is clamped to the first clamping groove of the case; a second cap(130) which is formed in a circular form, in which a first water discharge hole(131) is penetratingly formed, and which has a second projection(133) formed on the other side face thereof such that the second projection is clamped to the second clamping groove of the case; a water supply clamp(140) which is formed in a cylindrical form, of which one side face is opened, which has a first vane plate(141) vertically formed at an end of the opened one side face thereof such that the first vane plate is placed on the first clamping groove of the case, and which has a bolt hole(143) formed in a central part of the other side face thereof; a water discharge clamp(150) which is formed in a cylindrical form, of which the other side face is opened, and which has a second vane plate(151) vertically formed at an end of the opened other side face thereof such that the second vane plate is placed on the second clamping groove of the case; a supporting rod(160) of which one end is inserted into the bolt hole of the water supply clamp, of which the other end is clamped to a nut(161), and which is formed in a central part of the case; a plurality of permanent magnets(170) which are formed in a disc form, which have a first inserting hole formed therein such that the supporting rod is inserted into the first inserting hole, and which are sequentially stacked on the supporting rod; and a plurality of plates(180) which are formed in a disc form, which have a second inserting hole formed therein such that the supporting rod is inserted into the second inserting hole, and which are inserted between the permanent magnets on the supporting rod.

Description

TECHNICAL FIELD [0001] The present invention relates to a wave device for converting water molecules into nanoparticles. BACKGROUND OF THE INVENTION < RTI ID = 0.0 > WAVE APPARATUS TRANSFORMING WATER MOLECULE INTO NANO PARTICLE &

1 is an exploded perspective view showing a configuration of a wave device for converting water molecules into nanoparticles according to the present invention,

2 is a perspective view showing the configuration of a wave device for converting water molecules into nanoparticles according to the present invention,

3 is a cross-sectional view along the line A-A in Fig. 2,

FIG. 4 is a perspective view illustrating the configuration of a wave device for converting water molecules into nanoparticles according to another embodiment of the present invention. FIG.

5 is a sectional view taken along the line B-B in Fig. 4,

6 is a view for explaining a magnetic field forming shape of a wave device for converting water molecules into nanoparticles according to the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

110: Case 120: First cap

130: Second cap 140: Water supply clamp

150: water discharge clamp 160: support rod

170: permanent magnet 180: plate

190: water purifier cap 200: water flow path

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wave device for converting water molecules into nanoparticles, and more particularly, to a wave device for converting water molecules into nanoparticles so as to bring water directly into contact with permanent magnets arranged in a line.

Generally, water is a combination of two hydrogen atoms and one oxygen atom. As the temperature increases, the water forms a chain-like or pentagonal ring-like structure having five rings. As the temperature decreases, a hexagonal ring- Is generated.

Therefore, hexagonal water can be produced by cooling the water to lower the temperature, and the resulting hexagonal water has a large heat capacity and is known to improve the life function of an organism by matching with other biomolecules.

However, since the method of generating hexagonal water by cooling the water has a large energy loss and is not used due to its insufficient production effect, recently, water is passed through the magnetic field of the magnet and the molecular structure of water is activated by ion, A hexagonal structure of hexagonal structure is produced.

Magnetization Hexagonal water refers to water in which the molecular structure of water is subdivided into hexagons when the water passes vertically through a strong magnetic field to contain the components most preferred by the cell tissue of the human body. It is said that it can be obtained by adding germanium ion to water or by making water very cold. It is known to help prevent various adult diseases such as stroke, diabetes, and increase immunity of human body.

A conventional magnetizing hexagonal water generating apparatus for processing such magnetized hexagonal water has a structure in which permanent magnets are disposed on the upper and lower sides of a pipe through which water flows as shown in Korean Patent No. 521075 and Korean Utility Model No. 336218, And a pair of permanent magnets are arranged with their opposing faces at the N pole and the S pole so as to form a magnetic field in a direction perpendicular to the flowing direction.

When the magnetic field is formed in a direction perpendicular to the direction in which the water flows, the surface tension of the water becomes large. As a result, the molecular structure of the water becomes ionically activated. As a result, water becomes a weakly alkaline hexagonal structure (hexagonal) Hexagon.

However, since the magnetic field of the permanent magnet is attenuated by the case because the case such as aluminum is located between the permanent magnet and the water, the efficiency of generating the actual magnetized hexagon is relatively low, There is a problem that the intensity of the wavelength itself is weak and the efficacy is lowered.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a permanent magnet which is arranged in a row and which is in direct contact with water to prevent the magnetic field from being attenuated, thereby relatively increasing the magnetizing hexagonal generating efficiency, Which is capable of enhancing the efficiency of water molecules to be converted into nanoparticles.

According to an aspect of the present invention,

A case formed in a cylindrical shape with both ends opened and having first and second coupling grooves formed at both ends thereof; A first cap formed in a circular shape, a first water supply hole formed to penetrate the first water supply hole, and a first step formed on one side to be coupled to the first engagement groove of the case; A second cap formed in a circular shape and having a first water discharge hole penetrating the first water discharge hole and having a second step formed on the other side to be coupled to the second engagement groove of the case; A water supply clamp which is formed in a cylindrical shape with one side open and has a first wing plate vertically formed at one side end opened to be seated in the first engagement groove of the case and a bolt hole formed at the center of the other side; A water discharge clamp formed in a cylindrical shape with an open other side and having a second wing plate vertically formed at the other side end opened to be seated in the second engagement groove of the case; A support rod having one end coupled to the bolt hole of the water supply clamp and the nut coupled to the other end, the support rod being located at a central portion of the case; A plurality of permanent magnets which are formed in a disk shape and in which a first insertion hole is formed at a central portion to be inserted into the support rods and are sequentially stacked on the support rods; And a plurality of plates formed in a disc shape and having a second insertion hole formed at a central portion thereof to be inserted into the support rods and inserted between the permanent magnets in the support rods.

Here, the water supply clamp has second water supply holes corresponding to the side surfaces, respectively, and the water discharge clamp has second water discharge holes corresponding to the side surfaces thereof, respectively.

Here, the permanent magnets are arranged so that the same polarity is opposite to each other so that a repulsive force is generated, and the permanent magnets are arranged so that the same polarities are sequentially opposed to each other. .

Here, the outer surface of the permanent magnet and the inner surface of the case are spaced apart by an interval of 10 to 20 mm to form a water flow path.

Here, the first water supply hole of the first cap and the first water discharge hole of the second cap are formed with threads on the inner circumferential surface thereof, and the water purifier cap is detachably attached to the water purifier so as to be coupled to the water purifier.

Here, the plate may have a diameter the same as that of the permanent magnet; And a protruding blade protruding from the outer peripheral surface of the main body in a triangular shape.

Hereinafter, the structure of a wave device for converting water molecules into nanoparticles according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and these may be changed according to the intention of the user, the operator, or the like. Therefore, the definition should be based on the contents throughout this specification.

FIG. 1 is an exploded perspective view showing a configuration of a wave device for converting water molecules into nanoparticles according to the present invention, and FIG. 2 is a perspective view showing the configuration of a wave device for converting water molecules into nanoparticles according to the present invention FIG. 3 is a cross-sectional view taken along the line AA of FIG. 2, FIG. 4 is a perspective view illustrating the structure of a wave device for converting water molecules into nanoparticles according to another embodiment of the present invention, and FIG.

1 to 5, a wave device 100 for converting water molecules into nanoparticles according to the present invention includes a case 110, a first cap 120, a second cap 130, A water supply clamp 140, a water discharge clamp 150, a support rod 160, a permanent magnet 170 and a water purifier cap 190.

First, the case 110 is formed of a metal material such as aluminum and has both ends opened to form a cylindrical shape, and first and second coupling grooves 111 and 113 are formed at both ends inside. Here, the first coupling groove 111 is located on the right side in the drawing of Fig. 3, and the second coupling groove 113 is located on the left side in the drawing of Fig.

The first cap 120 is formed in the same shape as the case 110 and has a circular shape. A first water supply hole 121 is formed to penetrate the first cap 120. The first water supply hole 121 is formed in the first coupling groove 111 of the case 110 A first step 123 is formed on one side to be joined. Here, the first cap 120 is formed to be narrow in one side and widen toward the other, and the shape of the first water supply hole 121 is also formed in a corresponding shape. Here, the first water supply hole 121 is formed with a first screw thread 125 on its inner circumferential surface. Here, the first cap 120 is provided with a first welding groove 127 at the upper end of the first step 123 so as to provide a welding space when inserted into the first coupling groove 111 of the case 110, As shown in Fig.

The second cap 130 is formed in the same shape as the case 110 and has a circular shape. The first water discharging hole 131 is formed to penetrate the second cap 130. The second water discharging hole 131 is formed in the second coupling groove 113 of the case 110 The second step 133 is formed on the other side. Here, the second cap 130 is formed to be narrow in one side and widen toward the other, and the shape of the first water discharge hole 131 is also formed in a corresponding shape. Here, the first water discharge hole 131 is formed with a second screw thread 135 on its inner circumferential surface. Here, the second cap 130 is provided with a second welding groove 137 at the upper end of the second step 133 so as to provide a welding space at the time of inserting into the second coupling groove 113 of the case 110, As shown in Fig.

The water supply clamp 140 is formed in a cylindrical shape having the same shape as the case 110 and opened at one side and is vertically opened at one side end opened to be seated in the first engagement groove 111 of the case 110 A first wing plate 141 is formed and a bolt hole 143 is formed at the center of the other side. Here, the water supply clamp 140 is formed with second water supply holes 145 corresponding to the side surfaces thereof, respectively.

The water discharging clamp 150 is formed in a cylindrical shape having the same shape as the case 110 and opened at the other side and is vertically extended from the other side end opened to be seated in the second engaging groove 113 of the case 110 The second wing plate 151 is formed. Here, the water discharge clamp 150 is formed with second water discharge holes 153, which correspond to the side surfaces, respectively.

One end of the support rod 160 is connected to the bolt hole 143 of the water supply clamp 140 and the nut 161 is connected to the other end of the support rod 160, It is located at the center.

The first insertion holes 171 are formed in the center of the permanent magnet 170 so as to be inserted into the support bars 160 and are sequentially stacked on the support bars 160. Here, the permanent magnets 170 are disposed so that the same polarities are opposite to each other so that repulsive force is generated. The permanent magnets 170 are disposed such that the same polarities are sequentially opposed to each other. (For example, SN, NS, SN, NS, ..., SN, NS, SN, NS). Here, the outer surface of the permanent magnet 170 and the inner surface of the case 110 are spaced apart by an interval of 10 to 20 mm to form the water flow path 200.

A second insertion hole 181 is formed in the center of the plate 180 so as to be inserted into the support rod 160 and the permanent magnet 170 A main body 183 inserted between the permanent magnets 170 and having the same size as the permanent magnets 170 and a protruding blade 185 protruding from the outer circumferential surface of the main body 183 in a triangular shape. In this case, the thickness of the body of the plate 180 is preferably 0.5 to 1 mm, and the length of the protruded blade 185 is preferably 2 mm or less. If the thickness is less than 0.5 mm, If the thickness exceeds 1 mm, there is a disadvantage that the volume becomes large. If the protruding edge is more than 2 mm, resistance to water flow occurs. Here, the diameter of the plate 180 may be the same as the diameter of the permanent magnet 170.

4 and 5 so that the water purifier cap 190 can be coupled onto a water supply line (not shown) of the water purifier. The water purifier cap 190 is formed in a cylindrical shape with one side opened, A first screw thread 125 formed on the first water supply hole 121 of the first cap 120 and a second screw thread 135 formed on the first water discharge hole 131 of the second cap 130. [ A stopper 193 is formed at the upper end of the thread groove 191 and a coupling pipe 195 is integrally formed to protrude from the other side of the thread groove 191. The water purifier cap 190 is formed of the same material as that of the case 110 or a synthetic resin material.

Hereinafter, the assembling process and operation of the wave device for converting water molecules into nanoparticles according to the present invention will be described in detail with reference to FIGS. 1 to 6. FIG.

6 is a view for explaining a magnetic field forming shape of a wave device for converting water molecules into nanoparticles according to the present invention.

First, one end of the support rod 160 is fastened to the bolt hole 143 of the water supply clamp 140 and then fixed by spot welding.

Then, the permanent magnet 170 and the plate 180 are sequentially inserted into the support rod 160. The polarity of the permanent magnet 170 is inserted so that the same polarity is opposite as described above, and the permanent magnets 170 The nut 160 is fastened to the other end of the support rod 160 and then the permanent magnet 170 and the plate 180 are brought into contact with each other by using a nut 161. Then, .

The first wing plate 141 of the water supply clamp 140 is inserted into the case 110 by inserting the water supply clamp 140 in which the support rod 160, the permanent magnet 170 and the plate 180 are coupled, The first step 120 of the first cap 120 is seated in the first coupling groove 111 of the case 110 and the first welding groove 111 127) to fix the first cap (120). Thus, the support rod 160, the permanent magnet 170, and the water supply clamp 140 are fixed to the case 110.

The second blade plate 151 of the water discharge clamp 150 is seated in the second engagement groove 113 of the case 110 and then the second step 133 of the second cap 130 is inserted into the case 110 and welded to the second welding groove 137 to fix the second cap 130. As a result, the water discharge clamp 150 is fixed to the case 110.

The wave device 100 for converting water molecules into nanoparticles is connected between the water pipes in the state where the assembly is completed as described above or the wave device 100 for converting water molecules into nanoparticles is installed in the water purifier . At this time, the piping is inserted and fixed in the first thread 125 of the first cap 120 and the second thread 135 of the second cap 130 when installed between the water pipes, and when water is installed in the water purifier, The water purifier cap 190 is attached to the wave device 100 for converting into nanoparticles.

When the water is supplied in the state where the installation is completed as described above, water flows into the case 110 through the first water supply hole 121 of the first cap 120. The water is supplied through the first water supply hole 121 The supplied water is diverted through the second water supply hole 145 of the water supply clamp 140 and is transferred to the water flow path 200. At this time, the flow rate is increased due to the branching of water.

The water supplied to the water flow path 200 is transferred to the second cap 130 along the water flow path 200 by the water pressure and the flow velocity. The permanent magnet 170, which is installed on the water flow path 200, And the plate 180.

At this time, a plate 180 is provided between the permanent magnet 170 and the permanent magnet 170, and the permanent magnet 170 is installed in a state where the same polarity is mutually opposed to each other via the plate 180 Since the magnetic flux density is increased by the plate 180 to 13,000 G or more and a magnetic field is vertically formed in the case 110, the molecular structure in water is subdivided into a hexagonal shape. On the other hand, the higher the magnetic flux density, the finer the water molecules are.

The water that has passed through the water flow path 200 is discharged through the second water discharge hole 153 of the water discharge clamp 150 and the first water discharge hole 131 of the second cap 130.

Therefore, by providing a plate for opposing the same polarities of the permanent magnets to each other and concentrating the magnetic flux density between the permanent magnets, the magnetic flux density is maintained at 13,000 G or more, the water is directly contacted with the permanent magnet and the plate, Water molecules can be further subdivided and the time taken for absorption in the human body can be shortened according to the subdivision.

In addition, since the high magnetic field is reduced to magnetized hexagonal water as the water passes, it is reinforced by raising the wavelength of the water itself, so that it is converted into fresh water and oxidation of the pipe is inhibited.

According to the wave device for converting water molecules into nanoparticles of the present invention having the above structure, the magnetic flux density can be increased by a permanent magnet arranged so that the same polarities face each other in a row and a plate concentrating magnetic flux density between the permanent magnets And the permanent magnet and the plate are brought into direct contact with the water to prevent the magnetic field from being attenuated to relatively increase the production efficiency of magnetized hexagonal water and increase the intensity of the wavelength of the magnetized hexagonal water itself.

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. It is to be understood, however, that the invention is not to be limited to the specific forms thereof, which are to be considered as being limited to the specific embodiments, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

Claims (8)

A case formed in a cylindrical shape with both ends opened and having first and second coupling grooves formed at both ends thereof; A first cap formed in a circular shape, a first water supply hole formed to penetrate the first water supply hole, and a first step formed on one side to be coupled to the first engagement groove of the case; A second cap formed in a circular shape and having a first water discharge hole penetrating the first water discharge hole and having a second step formed on the other side to be coupled to the second engagement groove of the case; A water supply clamp which is formed in a cylindrical shape with one side open and has a first wing plate vertically formed at one side end opened to be seated in the first engagement groove of the case and a bolt hole formed at the center of the other side; A water discharge clamp formed in a cylindrical shape with an open other side and having a second wing plate vertically formed at the other side end opened to be seated in the second engagement groove of the case; A support rod having one end coupled to the bolt hole of the water supply clamp and the nut coupled to the other end, the support rod being located at a central portion of the case; A plurality of permanent magnets which are formed in a disk shape and in which a first insertion hole is formed at a central portion to be inserted into the support rods and are sequentially stacked on the support rods; And And a plurality of plates which are formed in a disk shape and which are inserted between the permanent magnets and the second insertion holes formed in the central portion to be inserted into the support rods. Device. The method according to claim 1, The water supply clamp may include: Second water supply holes corresponding to the side surfaces are formed respectively, The water discharge clamp And a second water discharge hole corresponding to a side surface of the second water discharge hole is formed, respectively. The method according to claim 1, Wherein the permanent magnet comprises: Wherein the water molecules are arranged so that the same polarity is opposite to generate a repulsive force. The method of claim 3, Wherein the permanent magnet comprises: Wherein the permanent magnets are arranged such that the same polarities are sequentially opposed to each other, and the polarities of the permanent magnets are reversed with respect to the permanent magnets positioned at the center of the array, and then the polarities of the permanent magnets are opposite to each other. The method according to claim 1, Wherein an outer surface of said permanent magnet and an inner surface of said case Wherein the water flow path is spaced apart by an interval of 10 to 20 mm to convert water molecules into nanoparticles. The method according to claim 1, The first water supply hole of the first cap and the first water discharge hole of the second cap may be formed, And a screw thread is formed on the inner circumferential surface thereof. The method according to claim 6, In the thread, And a water purifier cap is detachably attached to the water purifier so as to be coupled to the water purifier. The method according to claim 1, The plate may comprise: A main body having the same size as the permanent magnets; And a protruding blade protruding from the outer circumferential surface of the main body in a triangular shape to convert the water molecules into nanoparticles.

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