KR100885085B1 - Magnetic resonance energy wave apparatus - Google Patents

Abstract

A magnetic resonance energy wave apparatus is provided to screw a headless bolt to connect a cover flute and a casing flute, thereby connecting a plurality of wave members in a row according to length of a housing. A magnetic resonance energy wave apparatus comprises the following units. A housing(20) is combined with a first cap(10) and a second cap(30). An antibiotic plate installed inside the housing is coated with a nano-sized sliver layer. A wave member is equipped with a cylinder type casing, a plurality of permanent magnets, a steel plate, and a finishing cover which pressurizes the steel plate.

Description

Magnetic resonance energy wave apparatus

The present invention relates to a magnetic resonance energy wave device, in particular a magnetic resonance energy wave device that can facilitate the cleaning and management, to prevent the generation of rust, as well as to easily generate a hexagonal water by expanding the magnetic field space It is about.

In general, water is a combination of two hydrogen atoms and one oxygen atom, and as the temperature increases, a hexagonal ring having a hexagonal ring-shaped molecular structure is formed as the chain consists of five chains or a pentagonal shape. Has the property of becoming.

Therefore, hexagonal water can be produced by cooling the water to lower the temperature, and the generated hexagonal water has a large heat capacity and is known to be well suited to other biomolecules to improve the life function of living organisms.

However, the method of generating hexagonal water by cooling the water has a large energy loss and it is not used due to its insufficient effect. In recent years, water is passed through the magnetic field of the magnet and ion-activates the molecular structure of the water, which is rich in minerals. The manufacturing apparatus which produces | generates the magnetized hexagonal water which has the hexagonal structure of is used.

Magnetized hexagonal water refers to water that passes through a strong magnetic field vertically, and the molecular structure in the water is broken down into hexagons to give the most useful effect to human tissue.

Conventional magnetized hexagonal water generating device for generating such magnetized hexagonal water is difficult to sterilize or disassemble and separate the water separately, the applicant for the purpose of solving the problem on July 5, 2007 magnetic resonance energy wave device (application number: 10-2007-0067719) and filed a patent decision. However, the above-described magnetic resonance energy wave device of the present applicant has a problem that there is a possibility of rust, and that only one wave member for generating a magnetic field can be installed so that the magnetic field space cannot be expanded according to the situation.

The present invention has been made to solve the above-mentioned problems of the prior art, by allowing a plurality of wave members to be easily installed in the housing according to the length of the housing to expand the magnetic field space magnetic resonance that can efficiently generate a hexagonal number The purpose is to provide an energy wave device.

It is also an object of the present invention to provide a magnetic resonance energy wave device that can be detachably configured to facilitate cleaning and management.

In addition, an object of the present invention is to provide a magnetic resonance energy wave device that can easily attach and detach the wave member connected to each other.

It is also an object of the present invention to provide a magnetic resonance energy wave device that can prevent the generation of rust.

Magnetic resonance energy wave device according to the present invention for solving the above problems is a housing that is open at both ends, the first cap having a water supply hole is formed in the open both ends and the second cap formed with a water discharge hole; An antimicrobial plate having one insertion hole formed in the center and a plurality of water through holes communicating with the water supply hole of the first cap and the water discharge hole of the second cap is formed around the insertion hole and installed inside the housing. Wow; A plurality of serially connected is inserted into the insertion hole of the antimicrobial plate, one end is open and the other end is a closed cylindrical casing, a plurality of permanent magnets inserted into the casing, and the iron plate inserted between the permanent magnets, and A wave member coupled to an open end of the casing, the wave member including a closing cover for pressing the permanent magnet and the iron plate; It is installed between the first cap and the wave member, the water inlet hole communicating with the water supply hole of the first cap is formed at the front end and the first inlet is in communication with the water inlet hole and the water through hole of the antibacterial plate 1 water inlet clamp formed with a water guide hole; A second water guide hole is provided between the second cap and the wave member and communicates with the water through hole of the antimicrobial plate on the outer circumferential surface, and at the rear end, the water discharge hole of the second water guide hole and the second cap. A water outlet clamp having a water outlet hole communicating with the water outlet; A filter installed between the second cap and the water discharge clamp; wherein the wave member is formed with one cover spiral groove having a depth of 1/2 of a thickness at the center of the closing cover and the closed rear end of the casing. One casing spiral groove having a half depth of thickness is formed in the center thereof, and a tanned bolt is spirally coupled between the cover spiral groove and the casing spiral groove of adjacent wave members.

In addition, both ends are open, the housing is coupled to the first cap and the second cap is formed with a water supply hole and the water supply hole in the open both ends; A plurality of insertion holes are formed in a circular shape, a plurality of water through holes communicating with the water supply hole of the first cap and the water discharge hole of the second cap is formed around the insertion hole antibacterial that is installed inside the housing A plate; One or a plurality of series connected to each other is inserted into the insertion hole of the antimicrobial plate, one end is open and the other end is a cylindrical casing closed, a plurality of permanent magnets inserted into the casing, and the iron plate inserted between the permanent magnets And a wave member coupled to an open end of the casing, the wave member including a closing cover for pressing the permanent magnet and the iron plate; It is installed between the first cap and the wave member, the water inlet hole communicating with the water supply hole of the first cap is formed at the front end and the first inlet is in communication with the water inlet hole and the water through hole of the antibacterial plate 1 water inlet clamp formed with a water guide hole; A second water guide hole is provided between the second cap and the wave member and communicates with the water through hole of the antimicrobial plate on the outer circumferential surface, and at the rear end, the water discharge hole of the second water guide hole and the second cap. A water outlet clamp having a water outlet hole communicating with the water outlet; A filter installed between the second cap and the water discharge clamp; wherein the wave member is formed with one cover spiral groove having a depth of 1/2 of a thickness at the center of the closing cover and the closed rear end of the casing. One casing spiral groove having a half depth of thickness is formed in the center thereof, and a tanned bolt is spirally coupled between the cover spiral groove and the casing spiral groove of adjacent wave members.

Magnetic resonance energy wave device according to the present invention configured as described above can be connected in series with a plurality of wave members according to the length of the housing by fastening between the cover spiral groove and the casing spiral groove formed in the closing cover and the casing, respectively. There is an advantage.

In addition, there is an advantage that can be easily removed from the wave member because it uses only a simple means such as tannery bolt.

In addition, since both the cover spiral groove and the casing spiral groove are formed to a depth of 1/2 of the thickness, there is an advantage that the rustless bolts do not come into contact with water to prevent rust from being generated.

In addition, when the diameter of the housing is large, by inserting the wave member in each of the plurality of insertion holes formed in the antimicrobial plate, there is an advantage that can effectively generate a hexagonal number by expanding the magnetic field space.

In addition, there is an advantage that the cleaning and management is easy to configure the removable housing is inserted.

Hereinafter, an embodiment of a magnetic resonance energy wave device according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a magnetic resonance energy wave device according to the present invention, Figure 2 is an exploded perspective view showing an embodiment of the magnetic resonance energy wave device according to the present invention, Figure 3 is a magnetic resonance energy wave shown in FIG. Section of the device.

4 is an exploded perspective view showing another embodiment of a magnetic resonance energy wave device according to the present invention, Figure 5 is a cross-sectional view of the magnetic resonance energy wave device shown in FIG.

The magnetic resonance energy wave device according to the present invention includes a first cap 10 having a water supply hole 10a and a housing 20 having one end coupled to the first cap 10 at one end of which both ends are open and open. And, the second cap 30 is coupled to the other open end of the housing 20 and the water discharge hole 30a is formed, and the antimicrobial plate 40 is installed in the housing 20, the insertion hole 40a is formed ), A wave member 50 fitted into the insertion hole 40a of the antimicrobial plate 40, a water inlet clamp 60 installed between the first cap 10 and the wave member 50, And a water outlet clamp 70 installed between the second cap 30 and the wave member 50, and one or more filters 80 disposed between the wave member 50 and the water outlet clamp 70. It is configured by.

The first cap 10 is made of a metal material such as aluminum to have a strength that is not damaged by an external impact and at the same time to prevent rust generated by water, the shape The silver tip is narrow and becomes wider toward the rear end. This widened rear end is coupled to the open front end of the first housing 21 which will be described later.

The housing 20 is made of a metal material such as aluminum, similar to the first cap 10, the front end is coupled to the first cap 10 and the annular first coupling jaw 21a is formed on the outer peripheral surface of the rear end The first housing 21, the second end 22 is coupled to the second cap 30, the second housing 22 having an annular second engaging jaw 22a on the outer peripheral surface of the tip, and the first housing 21 of Installed between the first coupling jaw 21a and the second coupling jaw 22a of the second housing 22 to prevent water from leaking between the first coupling jaw 21a and the second coupling jaw 22a. It consists of a clamp (24) for fastening the packing (23), the first coupling jaw (21a) of the first housing 21 and the second coupling jaw (22a) of the second housing (22).

The second cap 30 is made of a metal material such as aluminum to have a strength that is not damaged by an external impact and at the same time to prevent rust generated by water, the shape The silver tip is wide and narrow toward the rear end. This relatively wide rear end is coupled to the open rear end of the second housing 22.

The antimicrobial plate 40 has one insertion hole 40a formed at the center thereof, and communicates with the water supply hole 10a of the first cap 10 and the water discharge hole 30a of the second cap 30. A plurality of water through holes 40b are formed around the insertion hole 40a and are installed in the housing 20, more specifically, in the second housing 22. The antimicrobial plate 40 is configured in such a way that the overall shape of the disc or its outer circumferential surface has a shape in which bone and acid are continuously repeated, thereby minimizing the disturbance of water. The antimicrobial plate 40 was coated with a silver nano layer with a thickness of 10 to 50 μm on the surface thereof to sterilize water passing through the antimicrobial plate 40.

Meanwhile, the antimicrobial plate 40 has a plurality of insertion holes 40a formed in a circular shape, and the water supply hole 10a of the first cap 10 and the water discharge hole 30a of the second cap 30 are formed. A plurality of water through holes 40b communicating with each other may be formed around the insertion hole 40a. When the plurality of insertion holes 40a are formed as described above, the wave members 50 are all inserted into the respective insertion holes 40a to efficiently expand the magnetic field space when the diameter of the housing 20 is large, thereby increasing the efficiency of generating hexagonal water. Can be. At this time, the wave member 50 to be inserted into the insertion hole 40a may be inserted into each hole one by one, it may be inserted into a plurality of series connected. As described above, when a plurality of wave members 50 are connected in series to each of the plurality of insertion holes 40a formed in the antimicrobial plate 40, the magnetic field space in the housing 20 may be long even if the length of the housing 20 is long and its diameter is large. Can be extended efficiently.

The wave member 50 is a plurality of in series is fitted into the insertion hole (40a) of the antimicrobial plate 40 to form a magnetic field in a direction perpendicular to the direction of the water flow to generate a hexagonal water, one end is open The other end is a closed cylindrical casing 51, a plurality of permanent magnets 52 inserted into the casing 51, an iron plate 53 inserted between the permanent magnets 52, and the casing 51 It is coupled to the open end of the) consists of a closing cover 54 for pressing the permanent magnet 52 and the iron plate 53.

Like the housing 20, the casing 51 is made of a metal material such as aluminum to prevent rust.

The permanent magnets 52 are arranged with the same polarity facing each other based on the iron plates 53 interposed therebetween so as to generate repulsive force, and maintain the order of the permanent magnets for a certain period of time. The polarities are reversed on the basis of the permanent magnets, and the same polarities face each other. For example, SN, NS, SN, NS,... It is arranged in the same order as SN, NS, SN, NS.

On the other hand, the closing cover 54 is formed with a single cover spiral groove 54a having a depth of half in the center, the casing 51 has a half depth of the thickness in the center of the closed rear end One casing spiral groove 51a is formed, and a plurality of casing spiral grooves 51a are spirally coupled between the cover spiral groove 54a and the casing spiral groove 51a of the wave member 50 adjacent to each other. The wave member 50 is connected in series. That is, when the plurality of wave members 50 are connected in series, the casing spiral grooves 51a of the wave members 50 disposed in front and the cover spiral grooves 54a of the wave members 50 disposed in the rear are tanned bolts (B). To helix.

The water inlet clamp 60 is made of a metal material such as aluminum as the housing 20, and serves to guide the water introduced from the first cap 10 into the housing 20. As the water inlet hole 60a communicating with the water supply hole 10a of the first cap 10 is formed at the tip, and the water inlet hole 60a and the antimicrobial plate 40 are formed on the outer circumferential surface thereof. The first water guide hole 60b communicating with the hole 40b is formed. In addition, the water inlet clamp 60 is formed with a first wing plate 60-1 on the outer peripheral surface of the tip of the portion where the water inlet hole 60a is formed, the first wing plate 60-1 is the first The water inlet clamp 60 is fixed to the housing 20 by contacting and fixing the inner peripheral surface of the front end of the housing 21.

On the other hand, when one insertion hole 40a is formed in the antimicrobial plate 40 and a plurality of wave members 50 connected in series are inserted in the insertion hole 40a, the water inlet clamp 60 has a rear end center. One clamp spiral groove (60c) having a half depth of the thickness to form a spiral coupling to the cover spiral groove (54a) formed in the finishing cover 54 of the adjacent wave member 50 and the tanned bolt (B) .

In addition, when the plurality of insertion holes 40a are formed in the antimicrobial plate 40 so as to form a circle, and one or more of the wave members 50 connected in series are inserted in the respective insertion holes 40a, the water The inflow clamp 60 forms a clamp spiral groove 60c having a depth 1/2 of the thickness at the rear end thereof in the same number as the insertion hole 40a formed in the antimicrobial plate 40 to close the adjacent wave member 50. Spiral coupling with a cover spiral groove (54a) formed in the cover 54 and the tannery bolt (B).

The water outlet clamp 70 is made of a metal material, such as aluminum, the material of the water inlet clamp 60, the water passing through the antimicrobial plate 40 and the filter 80, the second cap 30 As a guide, the second water guide hole (70a) is formed in communication with the water through hole (40b) of the antimicrobial plate 40 on the outer circumferential surface and the second water guide hole (70a) and at the rear end A water outlet hole 70b communicating with the water outlet hole 30a of the second cap 30 is formed. The water discharge clamp 70 has a second blade plate 70-1 formed on an outer circumferential surface of the portion where the water discharge hole 70b is formed, and the second wing plate 70-1 has the second housing. The water outlet clamp 70 is fixed to the housing by contacting and fixing the inner peripheral surface of the rear end 22.

The filter 80 is installed in a plurality of perpendicular to the direction of the flow of water between the wave member 50 and the second cap 30 so as to filter the water flowing in the housing 20, the surface of the silver oxide or Gold oxide was coated. Any one of the plurality of filters 80 may be made of a ceramic material, or may be coated with a material capable of antibacterial or a material capable of emitting far infrared rays on its surface.

1 is a perspective view of a magnetic resonance energy wave device according to the present invention.

Figure 2 is an exploded perspective view showing an embodiment of a magnetic resonance energy wave device according to the present invention.

3 is a cross-sectional view of the magnetic resonance energy wave device shown in FIG.

Figure 4 is an exploded perspective view showing another embodiment of a magnetic resonance energy wave device according to the present invention.

5 is a cross-sectional view of the magnetic resonance energy wave device shown in FIG.

<Explanation of symbols on main parts of the drawings>

10: first cap 10a: water supply hole

20: housing 21: first housing

21a: first coupling jaw 22: second housing

22a: second coupling jaw 23: packing

24: clamp 30: second cap

30a: water discharge hole 40: antibacterial plate

40a: insertion hole 40b: water through hole

50: wave member 51: casing

51a: casing spiral groove 52: permanent magnet

53: iron plate 54: finish cover

54a: Cover spiral groove 60: Water inlet clamp

60a: water inflow hole 60b: first water guide hole

60-1: 1st wing plate 70: Water outflow clamp

70a: second water guide hole 70b: water outlet hole

70c: clamp spiral groove 70-1: second blade plate

80: filter B: tanning bolt

Claims (6)

A housing 20 having both ends open and having a first cap 10 having a water supply hole 10a formed therein and a second cap 30 having a water discharge hole 30a formed at both ends thereof; A plurality of insertion holes 40a are formed in the center and communicate with the water supply holes 10a of the first cap 10 and the water discharge holes 30a of the second cap 30. 40b) is formed around the insertion hole 40a and installed inside the housing 20, and an antimicrobial plate 40 coated with a silver nano layer on a surface thereof; A plurality of serially connected is inserted into the insertion hole (40a) of the antimicrobial plate 40, one end is open and the other end is a closed cylindrical casing 51, a plurality of permanent magnets inserted into the casing (51) 52 and the iron plate 53 inserted between the permanent magnet 52 and the closing cover 54 is coupled to the open end of the casing 51 to press the permanent magnet 52 and the iron plate 53. Wave member 50 and consisting of; The water inlet hole 60a is installed between the first cap 10 and the wave member 50 and communicates with the water supply hole 10a of the first cap 10 at the front end thereof. A water inlet clamp 60 having a water inlet hole 60a and a first water guide hole 60b communicating with the water through hole 40b of the antimicrobial plate 40; A second water guide hole 70a is installed between the second cap 30 and the wave member 50 and communicates with the water through hole 40b of the antimicrobial plate 40 on the outer circumferential surface thereof. And a water outlet clamp (70) having a water outlet hole (70b) communicating with the second water guide hole (70a) and the water discharge hole (30a) of the second cap (30). The wave member 50 has one cover spiral groove 54a having a half depth of thickness at the center of the closing cover 54 and a half depth of thickness at the center of the closed rear end of the casing 51. One casing spiral groove 51a having a shape is formed, and the headless bolt B is helically coupled between the cover spiral groove 54a of the wave member 50 adjacent to each other and the casing spiral groove 51a. Magnetic resonance energy wave device, characterized in that connected in series. A housing 20 having both ends open and having a first cap 10 having a water supply hole 10a formed therein and a second cap 30 having a water discharge hole 30a formed at both ends thereof; A plurality of insertion holes 40a are formed in a circular shape, and a plurality of water through holes communicating with the water supply hole 10a of the first cap 10 and the water discharge hole 30a of the second cap 30 are formed. An antimicrobial plate 40 formed around the insertion hole 40a and installed inside the housing 20 and coated with a silver nano layer on a surface thereof; One or a plurality of series connected to each other is fitted into the insertion hole (40a) of the antimicrobial plate 40, one end is open and the other end is a cylindrical casing 51 is closed, a plurality of inserts into the casing 51 Permanent magnet 52, the iron plate 53 is inserted between the permanent magnet 52 and the finish coupled to the open end of the casing 51 to press the permanent magnet 52 and the iron plate 53 A wave member 50 composed of a cover 54; The water inlet hole 60a is installed between the first cap 10 and the wave member 50 and communicates with the water supply hole 10a of the first cap 10 at the front end thereof. A water inlet clamp 60 having a water inlet hole 60a and a first water guide hole 60b communicating with the water through hole 40b of the antimicrobial plate 40; A second water guide hole 70a is installed between the second cap 30 and the wave member 50 and communicates with the water through hole 40b of the antimicrobial plate 40 on the outer circumferential surface thereof. And a water outlet clamp (70) having a water outlet hole (70b) communicating with the second water guide hole (70a) and the water discharge hole (30a) of the second cap (30). The wave member 50 has one cover spiral groove 54a having a half depth of thickness at the center of the closing cover 54 and a half depth of thickness at the center of the closed rear end of the casing 51. One casing spiral groove 51a having a shape is formed in such a manner that a tanned bolt B is spirally coupled between the cover spiral groove 54a and the casing spiral groove 51a of the wave member 50 adjacent to each other. Magnetic resonance energy wave device, characterized in that connected. The method according to claim 1, The water inlet clamp 60 is a cover spiral groove (54a) formed in the closing cover 54 of the adjacent wave member 50 is formed with one clamp spiral groove (60c) having a half depth of thickness in the center of the rear end Magnetic resonance energy wave device characterized in that the spiral coupling with the tannery bolt (B). The method according to claim 2, The water inlet clamp 60 has a clamp spiral groove 60c having a depth 1/2 of the thickness at the rear end thereof and is formed in the same number as the insertion hole 40a formed in the antimicrobial plate 40 so that the adjacent wave member 50 is formed. Magnetic resonance energy wave device, characterized in that the spiral is coupled to each of the cover spiral groove (54a) and the tannery bolt (B) formed in the closing cover (54) of. The method according to claim 1 or 2, The housing 20 is coupled to the first cap 10 and the first housing 21 has a first coupling jaw (21a) formed on the outer peripheral surface of the rear end; A second housing 22 coupled to the second cap 30 and having a second coupling jaw 22a formed on an outer circumferential surface of the tip; A packing 23 positioned between the first coupling jaw 21a of the first housing 21 and the second coupling jaw 22a of the second housing 22; Magnetic resonance energy wave, characterized in that consisting of; a clamp 24 for fastening the first coupling jaw (21a) of the first housing 21 and the second coupling jaw (22a) of the second housing (22). Device. The method according to claim 1 or 2, Magnetic resonance energy wave device, characterized in that one or more filters (80) is installed between the wave member (50) and the water outlet clamp (70).

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