KR100771504B1 - Magnetic resonance energy wave apparatus - Google Patents

Abstract

A magnetic resonance energy wave motion device is provided to enhance efficacy of the magnetized hexagonal water by increasing the wavelength intensity of magnetized hexagonal water, remove bacteria contained in water, enable cases to be easily separated, and maintain its initial performance. A magnetic resonance energy wave motion device comprises: a case which is formed in a cylindrical form, of which both ends are opened, and which has first and second clamping grooves(111-1,113-1) formed on 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 wave motion member of which one end is inserted into the bolt hole of the water supply clamp, and which is formed in a central part of the case; and a plurality of filters(170) installed in multistage between the other end of the wave motion member and one end of an inner part of the case.

Description

[0001] MAGNETIC RESONANCE ENERGY WAVE APPARATUS [0002]

The present invention relates to a magnetic resonance energy wave device, and more particularly, to an antimicrobial plate coated with a silver nano layer, which can increase the strength by increasing the intensity of a wave by providing an iron plate between a permanent magnet arranged in a line and a permanent magnet, The present invention relates to a magnetic resonance energy wave device capable of removing germs in water by installing a filter coated with silver oxide in multiple stages and facilitating cleaning and maintenance by separating the case by mutually fixing the case using a clamp.

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 water has a large energy loss and is not used due to its insufficient production effect, in recent years, water has been passed through the magnetic field of the magnet to activate the molecular structure of water, An apparatus for producing magnetized hexagons having an alkaline hexagonal structure is used.

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, such conventional magnetic and hexagonal water generating apparatuses can not sterilize water separately, and are difficult to be disassembled and assembled, so that the inside can not be cleaned.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide an iron plate between a permanent magnet and a permanent magnet arranged in a line, Coated filters can be installed in multiple stages to remove germs in the water. The clamps can be used to fix the cases together to facilitate separation. Magnetic resonance energy waves The purpose of the device is to provide.

According to an aspect of the present invention,

A case formed in a cylindrical shape with both ends thereof 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 wave member having one end coupled to the bolt hole of the water supply clamp and positioned at the center of the case; And a plurality of filters installed in multiple stages between the other end of the wave member and one end of the case.

Here, the case may include a first case having the first coupling groove formed at one end thereof to be coupled with the first cap and having a first coupling step formed at the other end so that the first coupling groove can be separated from the first coupling groove; A second case having a second coupling groove formed at one end thereof to couple the second cap and a second coupling step having a shape corresponding to the first coupling groove at the other end; A packing positioned between the first engagement jaw of the first case and the second engagement jaw of the second case; And a clamp for fastening the first coupling jaw of the first case and the second coupling jaw of the second case to each other.

Here, the case is formed to have a length such that an end of the wave member can maintain an interval of 4 cm or more from the end of the water discharge clamp.

Here, the wave member may include a body formed in the form of a circular pipe whose one end is opened; A fastening rod having tabs formed at both ends thereof to be inserted into the main body; A plurality of permanent magnets formed in a disk ring shape and inserted into the coupling rods; An iron plate formed in the same disk ring shape as the permanent magnet and inserted between the permanent magnet and the permanent magnet; A nut fastened to the tabs at both ends of the fastening rod to press-fit the permanent magnet and the iron plate; A finishing cover welded to an open end of the main body, the finishing cover exposing the tab of the connecting rod through the connecting rod hole so that the connecting rod is formed at the center of the connecting rod to be coupled to the bolt hole of the water supplying clamp; And a plurality of water through holes formed in an outer periphery of the insertion hole, the plurality of antibacterial plates being fixed in multiple stages at an outer periphery of the main body, .

Here, the antimicrobial plate is formed in such a manner that a silver nano layer is coated on the surface to a thickness of 10 to 50 탆, and a predetermined curved surface is inwardly cut from the outer circumferential surface, and the bone and the acid are mutually interchanged.

Here, the water through hole is located at the upper end, and the first through-water hole is formed so that the vertical center line (C1-1) of the mountain and the vertical center line (C2-1) thereof coincide with each other; Wherein the first thermal water through hole has the same size as the first thermal water through hole and is located between the first thermal water through holes and the center and the upper end of the horizontal center line (C2-2) of the first thermal water through hole coincide with each other, And a second hot water through hole formed so that the vertical center line C1-2 and the vertical center line C3-1 thereof coincide with each other.

Here, the horizontal center line C3-2 of the second thermal water through hole is formed to be larger than the diameter of the main body so that the water penetrates through the main body without interfering with the main body.

Here, the filter is a round wire net having an interval of 200 to 400 mesh and coated with silver oxide or gold oxide on its surface.

Therefore, according to the present invention, bacteria and the like in the water can be removed by the antibacterial plate and the filter, and the high magnetic field is reduced to magnetized hexagonal water while passing water, It is possible to prevent the corrosion of the water supply piping.

In addition, according to the present invention, the internal components can be easily disassembled and assembled so that the first performance can be maintained easily.

Hereinafter, the configuration of a magnetic resonance energy wave device 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. 2 is a perspective view showing the configuration of a magnetic resonance energy wave device according to the present invention. FIG. 3 is a view showing a magnetic resonance energy wave according to the present invention. FIG. 4 is a perspective view illustrating the configuration of a magnetic resonance energy wave device according to another embodiment of the present invention, and FIG. 5 is a cross-sectional view illustrating a configuration of a magnetic resonance energy wave device according to another embodiment of the present invention. 6 is a plan view showing a configuration of an antimicrobial plate in a magnetic resonance energy wave device according to the present invention and FIG. 7 is a sectional view showing the configuration of an antimicrobial plate in a magnetic resonance energy wave device according to the present invention.

1 to 7, a magnetic resonance energy wave device 100 according to the present invention includes a case 110, a first cap 120, a second cap 130, a water supply clamp 140 A water discharging clamp 150, a wave member 160, a filter 170, and a water purifier cap 180. [

First, the case 110 is formed of a metal such as aluminum, a first coupling groove 111-1 is formed at one end, and a first coupling step 111-3 is formed at the other end so as to be separated from each other. The first case 111 and the second coupling groove 113-1 are formed at the other end and the second coupling groove 113-3 having the shape corresponding to the first coupling groove 111-3 is formed at the other end And a second case (113). Here, the case 110 may include a first coupling protrusion 111-3 of the first case 111 and a second coupling protrusion 111-3 of the second case 113 so as to seal between the first case 111 and the second case 113, A packing 115 is further provided between the second engaging jaws 113-3 and the first engaging protrusion 111-3 and the second engaging jaw 111-3 are provided so as to press- And the clamp 117 is fastened to the coupling jaw 113-3. Here, the case 110 is formed such that the end of the wave member 160, which will be described later, is formed to have a length capable of maintaining an interval 1 of 4 cm or more from the end of the water discharge clamp 150 The reason for this is that the space in which water is stored is ensured so that the iron component of water in the storage space is adsorbed to the wave member 160 so as to prevent the first release of green tea when using tap water.

The first cap 120 is formed in the same shape as the case 110 and has a circular shape. The first water supply hole 121 is formed and the first coupling groove 111-1 of the first case 111, A first step 123 is formed on one side surface to be engaged with the first step 123. 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 also has a first welding groove 127 (not shown) formed on the upper end of the first step 123 to provide a welding space for insertion into the first coupling groove 111-1 of the first case 111, ) Is formed by chamfering.

The second cap 130 is formed in a circular shape with the same material as the case 110 and has a first water discharge hole 131 formed therein and the second coupling groove 113-1 of the second case 113, 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 at the upper end of the second step 133 so as to provide a welding space when inserted into the second engagement groove 113-1 of the second case 113, ) Is formed by chamfering.

The water supply clamp 140 is made of the same material as the case 110 and is formed in a cylindrical shape with one side opened, And a bolt hole 143 is formed at the center of the other side surface. Here, the water supply clamp 140 is formed with second water supply holes 145 corresponding to the side surfaces thereof, respectively.

The water discharge clamp 150 is formed in a cylindrical shape having the same shape as that of the case 110 and opened at the other side thereof. The water discharge clamp 150 is provided at the other side of the second case 113 so as to be seated in the second engagement groove 113-1. And the second wing plate 151 is formed vertically at the end. Here, the water discharge clamp 150 is formed with second water discharge holes 153, which correspond to the side surfaces, respectively.

The wave member 160 includes a main body 161 formed in the shape of a circular pipe whose one end is opened with the same material as the case 110 and a tab 162-1 formed at both ends of the main body 161 and inserted into the main body 161 A plurality of permanent magnets 163 formed in the shape of a disk ring and inserted and coupled to the fastening rods 162 and permanent magnets 163 formed in the same disk ring shape as the permanent magnets 163, A nut 164 which is inserted between the permanent magnets 163 and a nut 165 which is fastened to the tabs 162-1 at both ends of the fastening rod 162 and presses the permanent magnet 163 and the iron plate 164, A coupling rod 166-1 is formed at the center of the main body 161 so that the coupling rod 162 is coupled to the bolt hole 143 of the water supply clamp 140, A finishing cover 166 for exposing the tab 162-1 of the fastening bar 162 through a hole 166-1, a saw blade 166 formed in the shape of a circular saw blade, (167-1) And a plurality of water through holes 167-3 formed in the outer periphery of the insertion hole 167-1 and welded and fixed to the outer periphery of the main body 161 in multiple stages . Here, the antimicrobial plate 167 has a silver nano layer 167-5 coated on its surface to a thickness of 10 to 50 占 퐉 and formed to have a larger diameter than the main body 161 to minimize the occurrence of resistance to water flow So that the trough 167-7 and the mountain 167-9 are formed in a mutually interchangeable form. Here, when the silver nano layer 167-5 is formed to be less than 10 mu m, the antibacterial ability is lowered, and when the silver nano layer 167-5 is formed to be more than 50 mu m, the unit price is increased. Here, the water through hole 167-3 is located at the upper end, and the first through-hole 167-3 is formed so that the vertical center line C1-1 of the mountain 167-9 coincides with the vertical center line C2-1 thereof. Through hole 167-31 and the first through-hole 167-31, and is located between the first through-hole 167-31 and the first through-hole 167-31, Which is formed so that the center of the horizontal center line C2-2 of the trough 167-31 coincides with the vertical center line C1-2 of the trough 167-7 and the vertical center line C3-1 of the trough 167- Two-row water through holes 167-33. Here, the horizontal center line C3-2 of the second through-water holes 187-33 is formed to be larger than the diameter of the permanent magnet 170 so that the water passes through the permanent magnet 170 without interfering with the permanent magnet 170 . Here, the permanent magnets 163 are arranged so that the repulsive force is generated so that the same polarities are opposite to each other. The permanent magnets 163 are arranged such that the same polarities are sequentially opposed to each other. (For example, SN, NS, SN, NS, ..., SN, NS, SN, and NS are arranged in this order).

The filter 170 is installed in multiple stages between the other end of the wave member 160 and one end of the inside of the case 110 so that the filter 170 can be antibacterial. The filter 170 has an interval of 200 to 400 mesh, Shaped circular wire mesh. Here, the filter 170 may be formed of either a ceramic or a surface-antibacterial material or a material capable of emitting far-infrared rays, so that the filter 170 may be provided.

On the other hand, the water purifier cap 180 is formed into a cylindrical shape having one side opened as shown in FIGS. 4 and 5 so as to be able to be coupled onto a water supply line (not shown) of the water purifier, A first screw thread 125 formed in the first water supply hole 121 of the first cap 120 and a second screw thread 135 formed in the first water discharge hole 131 of the second cap 130, A stopper 183 is formed at the upper end of the screw groove 181 and a connecting pipe 185 is formed integrally with the other side surface of the screw groove 181. The water purifier cap 180 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 magnetic resonance energy wave device according to the present invention will be described in detail with reference to FIGS. 1 to 8. FIG.

First, the nut 165 is fastened to both ends of the fastening rod 162 at one end of the tab 162-1.

Then, the permanent magnet 163 and the iron plate 164 are sequentially inserted into the fastening rod 162. The polarity of the permanent magnet 163 is set so that the same polarity is opposite as described above, and the permanent magnet 163 The nuts 165 are fastened to the tabs formed at the other ends of the fastening rods 162 and then the nuts 165 are fastened to the permanent magnets 163 and the iron plates 164, ).

In this state, the fastening rod 162 is inserted into the main body 161, and then the finish cover 166 is coupled to the main body 161 to seal the main body 161. At this time, the tabs formed on the other end of the fastening rod 162 are exposed through the fastening rod hole 166-1 of the finishing cover 166, and the side surfaces of the permanent magnet 163 and the iron plate 164 and the body 161 They are interviewed.

Then, the antimicrobial plate 167 is inserted into the main body 161, and then the antimicrobial plate 167 is welded to the main body 161.

The first wing plate 141 of the water supply clamp 140 is mounted on the case 110 in the first engagement groove 111-1 of the first case 111, The first step 123 is seated in the first engaging groove 111-1 of the first case 111 and the first welding recess 127 is welded to fix the first cap 120. [

The second wing plate 151 of the water discharge clamp 150 is seated in the second engagement groove 113-1 of the second case 113 in which the filter 170 is welded and fixed in a multi- The second step 133 of the second cap 130 is seated in the second engaging recess 113-1 of the second case 113 and the second end of the second cap 130 ). As a result, the water discharge clamp 150 is fixed to the second case 113.

In this state, after the wave member 160 is inserted into the first case 111, the other end of the wave member 160 is fastened to the bolt hole 143 of the water supply clamp 140.

The clamp 117 is disposed in a state where the packing 115 is positioned between the first engaging step 111-3 of the first case 111 and the second engaging step 113-3 of the second case 113, The first case 111 and the second case 113 are coupled to each other.

The magnetic resonance energy wave device 100 is connected between the water pipes in the assembled state as described above, or the magnetic resonance energy wave device 100 is installed in the water filter. 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 installed in the water purifier, the magnetic resonance energy The water purifier cap 180 is attached to the wave device 100.

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 branched through the second water supply hole 145 of the water supply clamp 140.

The water introduced into the case 110 is again transmitted to the second cap 130 through the water through holes 167-3 and the valleys 167-7 of the antibacterial plate 167, The molecular structure in water is subdivided into a hexagonal shape because a magnetic field is vertically formed in the case 110 by the magnetic field. On the other hand, the higher the magnetic flux density, the finer the water molecules are.

The water contacts the silver nano layer 230 while passing through the water through hole 220 and the valley 240 of the antibacterial plate 200. The water contacts the silver nano layer 230 while being in direct contact with silver oxide or gold oxide Bacteria and the like are removed.

The water that has passed through the filter 170 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.

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. .

1 is an exploded perspective view showing a configuration of a magnetic resonance energy wave device according to the present invention,

FIG. 2 is a perspective view showing a configuration of a magnetic resonance energy wave device according to the present invention,

3 is a cross-sectional view showing a configuration of a magnetic resonance energy wave device according to the present invention,

4 is a perspective view showing the configuration of a magnetic resonance energy wave device according to another embodiment of the present invention,

5 is a cross-sectional view showing the configuration of a magnetic resonance energy wave device according to another embodiment of the present invention,

6 is a plan view showing the configuration of an antimicrobial plate in a magnetic resonance energy wave device according to the present invention,

7 is a cross-sectional view showing a configuration of an antibacterial plate in a magnetic resonance energy wave device 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: wave member

180: Filter 180: Water purifier cap

Claims (8)

A case formed in a cylindrical shape with both ends thereof 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 wave member having one end coupled to the bolt hole of the water supply clamp and positioned at the center of the case; And And a plurality of filters installed in multiple stages between the other end of the wave member and one end of the case. The method according to claim 1, In this case, A first case in which the first coupling groove is formed at one end to couple the first cap and a first coupling step is formed at the other end so that the first coupling groove can be separated from the first coupling groove; A second case having a second coupling groove formed at one end thereof to couple the second cap and a second coupling step having a shape corresponding to the first coupling groove at the other end; A packing positioned between the first engagement jaw of the first case and the second engagement jaw of the second case; And And a clamp for fastening the first coupling jaw of the first case and the second coupling jaw of the second case to each other. 3. The method of claim 2, In this case, Wherein an end of the wave member is formed to have a length that is at least 4 cm apart from the end of the water discharge clamp. The method according to claim 1, The wave member A main body formed in a circular pipe shape whose one end is opened; A fastening rod having tabs formed at both ends thereof to be inserted into the main body; A plurality of permanent magnets formed in a disk ring shape and inserted into the coupling rods; An iron plate formed in the same disk ring shape as the permanent magnet and inserted between the permanent magnet and the permanent magnet; A nut fastened to the tabs at both ends of the fastening rod to press-fit the permanent magnet and the iron plate; A finishing cover welded to an open end of the main body, the finishing cover exposing the tab of the connecting rod through the connecting rod hole so that the connecting rod is formed at the center of the connecting rod to be coupled to the bolt hole of the water supplying clamp; And A plurality of antibacterial plates formed in the shape of a saw blade of a disk shape and having an insertion hole formed at a central portion thereof so as to penetrate therethrough and a plurality of water through holes formed at an outer periphery of the insertion hole, Magnetic resonance energy wave device. 5. The method of claim 4, The anti- Wherein a silver nano layer is coated on the surface at a thickness of 10 to 50 占 퐉 and has a predetermined curved surface inwardly from the outer circumferential surface so as to be intertwined with the bone and the acid. 6. The method of claim 5, The water through- A first thermal water through hole positioned at an upper end of the first thermal water through hole so that the vertical center line C1-1 of the mountain and the vertical center line C2-1 thereof coincide with each other; Wherein the first thermal water through hole has the same size as the first thermal water through hole and is located between the first thermal water through holes and the center and the upper end of the horizontal center line (C2-2) of the first thermal water through hole coincide with each other, And a second hot water through hole formed so that the vertical center line (C1-2) of the first hot water passage and the vertical center line (C3-1) thereof coincide with each other. The method according to claim 6, The horizontal center line (C3-2) of the second hot water through- Wherein a diameter of the main body is larger than a diameter of the main body so that water can penetrate through the main body without interfering with the main body. The method according to claim 1, The filter includes: Wherein the gap is 200 to 400 mesh, and the surface is coated with silver oxide or gold oxide.

Images