KR101241310B1 - hexagonal-construction water supply appartus - Google Patents

Abstract

In order to improve magnetization efficiency and assembly property for miniaturization, the present invention includes a main body having a socket part provided at both ends of the mounting hole through the mounting hole; A magnetization member inserted into the main body, wherein one side of the circular tube is pressed, and the pair of permanent magnets are arranged in close contact with each other with different polarities on both sides of the pressing part which is deformed and deformed while the inner channel is flattened; And a connecting member disposed at both ends of the magnetizing member so as to communicate with the flow path, and having a outer side screwed to the socket and a connecting member in which the magnetizing member is press-fitted to the inner through-hole. To provide.

Description

Hexagonal-construction water supply appartus

The present invention relates to a multifunctional magnetization hexagonal water supply apparatus, and more particularly, to a multifunctional magnetization hexagonal water supply apparatus for improving the magnetization efficiency and assembly for miniaturization.

In general, a water purifier is widely used in homes, offices, etc. as a device for purifying tap water contaminated with various impurities and harmful substances to human body due to water pollution according to industrial development and drinking water.

On the other hand, in recent years, it is known that hexagonal water is very useful for the human body.

In other words, hexagonal water is a hexagonal ring structure in which general water is bound to hexagonal water molecules. It has a large heat capacity and works well with DNA and RNA biomolecules to improve life functions. Say water most similar to.

In addition, such hexagonal water is widely applied throughout the industry, such as human health, agriculture and livestock industry, and exhibits bioactive function, sterilization function, growth promotion function, scale removal function and purification function.

Moreover, such a hexagonal hexagonal number is a large amount can be obtained in a short time by using a generator using a permanent magnet.

Therefore, attempts have been made to connect a magnetization hexagonal water generator to a supply line of a water purifier or a shower for drinking or washing the body with drinking water using the magnetization hexagonal water.

However, the magnetization hexagonal water is formed by forming a magnetic field in a direction perpendicular to the direction in which water flows, thereby increasing the surface tension of the water, and thus having a weakly alkaline hexagonal structure rich in minerals as the molecular structure of the water is ion-activated. do.

Accordingly, the conventional apparatus for generating a magnetized hexagonal water is configured to form a magnetic field in the direction perpendicular to the direction in which water flows by arranging permanent magnets on the outer wall of the pipe in which water flows to face the N pole and the S pole, respectively.

However, in order for the conventional magnetization hexagonal generator as described above to apply a high magnetic force in the pipe to obtain a larger amount of magnetization hexagonal water, the thickness of the permanent magnet must be thicker than the diameter of the flow path of the pipe. Since the structure has a narrow contact area, there is a problem that the magnetization efficiency is lowered.

That is, even if the characteristic of the magnet is approximately 2cm away from each pole of the N pole or the S pole, the intensity (Gauss) is weakened to one or tenths of a minute, so that the inside of the pipe having a predetermined flow path diameter is constant. To form a magnetic field of strength (for example, 6000 gauss) or more, a permanent magnet that is at least twice as large as the pipe flow path diameter is required.

Therefore, the magnetization hexagonal water generating device requires a relatively large size due to the use of a thick permanent magnet, so that it is limited in installation space, degradability of assembly, increase in manufacturing cost, and low maintenance in order to be applied to supply lines such as water purifiers and showers. Due to many problems and inconvenience in use, it is not widely spread.

In order to solve the above problems, the present invention can reduce the thickness of the permanent magnet disposed on both sides by reducing the diameter of the flow path in which the magnetic field is applied through the deformed structure of the circular tube, so that the permanent magnet is in close contact with a large area Therefore, it is an object of the present invention to provide a multifunctional magnetization hexagonal water supply device in which the magnetization efficiency for the miniaturization is improved and the assembly structure is improved to improve the assemblability.

In order to solve the above problems, the present invention provides a mounting hole penetrating in the longitudinal direction, the main body is provided with a socket inside the both ends; A magnetization member inserted into the main body, the magnetizing member having a pair of permanent magnets arranged on both sides of the pressing unit with different polarities on both sides of the pressing part which is pressed and processed to have one side part pressed down to be flatly stretched; And a connecting member disposed at both ends of the magnetizing member so as to communicate with the flow path, and having a outer side screwed to the socket and a connecting member in which the magnetizing member is press-fitted to the inner through-hole. To provide.

Here, the inner end of the connection member is preferably provided with a sealing tube made of an elastic material that is joined to the stepped portion of the edge forming the through hole. In addition, the outer side of the magnetizing member is preferably provided with a shielding member detachable to securely fix the permanent magnet. Further, the shielding member is made of a pair that is coupled and fixed while surrounding the outer surface of the magnetizing member, including a case filled with activated carbon therein, and an accommodating groove portion in which the permanent magnet is accommodated in the inner central portion of the case; Is preferred. Further, on both sides of the pressurization portion, an active auxiliary material further disposed between the permanent magnet and made of a thin film corresponding to one of a film and a fiber, wherein at least one of silver powder, carbon powder, and ceramic powder is used as a main material. Is preferred.

Through the above solutions, the present invention provides the following effects.

First, the present invention is provided by pressing the one side portion of the circular tube is reduced and deformed so that the flow path is flattened, so that the passage is narrow and flat contact the permanent magnet of relatively thin thickness in a large area to maximize the magnetization efficiency Therefore, it is possible to provide a multifunctional magnetization hexagonal water supply device that can be easily downsized and the manufacturing cost is reduced to significantly improve the magnetization efficiency and economic efficiency.

Second, the inner side of the connecting member is provided with a sealing tube that serves to seal the end of the magnetizing member by pressing and at the same time to prevent leakage, the assembly structure is improved in such a way that the connecting member simultaneously fixes the magnetizing member and the main body. Since the number of parts is reduced, it is possible to provide a magnetized hexagonal water supply apparatus which is remarkably improved in assembly and maintainability.

Third, activated carbon is provided inside the shielding member for tightly fixing the permanent magnet, and an active auxiliary material in the form of a film or fiber using silver powder, carbon powder, ceramic powder, etc. is further provided on the bottom of the permanent magnet, thereby enhancing the penetration force of the magnetic field. Magnetization efficiency can be significantly improved.

1 is an exploded perspective view of a multifunctional magnetization hexagonal water supply apparatus according to a first embodiment of the present invention.
Figure 2 is a perspective view showing a state in which the multifunctional magnetization hexagonal water supply apparatus according to the first embodiment of the present invention is assembled to the connection member for the water purifier.
Figure 3 is a side cross-sectional view in the longitudinal direction showing the state of use of the multifunctional magnetization hexagonal water supply apparatus according to the first embodiment of the present invention.
Figure 4 is a cross-sectional view of the magnetizing member according to the present invention from the top.
5 is a cross-sectional view of the shielding member accommodating the permanent magnet according to the present invention in a state in which the pressing member is wrapped;
Figure 6 is a perspective view showing a state in which the shower magnetization hexagonal water supply apparatus according to a second embodiment of the present invention is assembled to a shower.
7 is a cross-sectional view showing a state of use of the magnetization hexagonal water supply apparatus for a shower according to a second embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the multifunctional magnetization hexagonal water supply apparatus according to an embodiment of the present invention.

1 is an exploded perspective view of a multifunctional magnetization hexagonal water supply apparatus according to a first embodiment of the present invention, Figure 2 is a state in which the multifunctional magnetization hexagonal water supply apparatus according to the first embodiment of the present invention is assembled to the connection member for water purifier Is a perspective view. 3 is a side cross-sectional view in the longitudinal direction showing a state of use of the multifunctional magnetization hexagonal water supply apparatus according to the first embodiment of the present invention.

The present invention improves magnetization efficiency significantly by the action of the magnetic field on the reduced diameter of the flow path and the large area by stably adhering a relatively thin permanent magnet through the narrow and flat flow path.

Accordingly, the present invention has a compact size that is easy to carry and assemble and install, has a small number of parts, and a low cost of products, so that when used as a connecting part to a supply line such as a water purifier or a shower, the multifunctional magnetization hexagonal water remarkably improves. It provides a supply device (10).

As shown in Figures 1 to 3, the multifunctional magnetization hexagonal water supply apparatus 10 according to the first embodiment of the present invention is a small size including a main body (1), a magnetization member (2) and a connecting member (3) It is made of hexagonal pipe shape.

In detail, the main body 1 is preferably formed in the shape of a hexagonal pipe through which the mounting hole 11 into which the magnetizing member 2 is inserted in the lengthwise direction is penetrated. Is provided with a socket portion 13 is formed with a screw frame to be inserted while being screwed.

Herein, the material of the main body 1 may be made of stainless steel, titanium, and aluminum, in which a nonmagnetic material has an austenite structure in order to prevent magnetic leakage. Aluminum, zinc, brass, bronze, and ceramics. This material is equally applied to the magnetization member 2 and the connection member 3.

On the other hand, the magnetization member 2 is inserted into the inside of the main body 1 is preferably made of a structure in which a pair of permanent magnets 27 is attached to the outer surface of the circular tubular shape, wherein the permanent magnets 27 The portion to be attached (preferably the central portion of the magnetization member 2) is provided with a pressing portion 25 which is deformed and deformed while the inner passage is flattened by the pressing process.

Here, the pressing portion 25 may be processed by pressing one side of the circular tube having a small size using a press device, and can be easily processed and deformed by hand by a tool.

In addition, a pair of permanent magnets 27 are arranged on both sides of the pressing unit 25 with different polarities such as S poles and N poles, respectively.

Here, one permanent magnet 27 is used in a ferrite permanent magnet, an alico permanent magnet, a rare-earth permanent magnet, and the like, and a rare earth permanent magnet having a high coercive force is preferably used.

As described above, the present invention is provided with a pressing portion 25 deformed to have a flat surface by pressing one side of the magnetizing member (2).

Therefore, as the flow path inside the magnetizing member becomes narrower and flattened, the permanent magnet 27 having a relatively thin thickness is stably adhered to the wide surface to form a high magnetic field, thereby improving magnetization efficiency for miniaturization.

Through this, it is possible to provide a multifunctional magnetization hexagonal water supply apparatus that has a small size without loss of magnetization efficiency, thereby reducing the unit cost and reducing the number of parts.

On the other hand, the thickness from the contact surface of the permanent magnet 27 is at least 1.5 times to 2.5 times the diameter of the flow path inside the pressing portion 27, the length of contact with the pressing portion 27 is preferably 3 to 5 cm. Do. Furthermore, the magnetic force of the permanent magnet 27 is preferably about 5,000 to 7,000 gauss.

Accordingly, it was confirmed experimentally that the water flowing into the magnetization hole 21 of the magnetization member 2 receives a magnetic force of approximately 20,000 to 30,000 gauss until it flows out.

In other words, the water passes through the pressurization portion 27, and the force of 5,000 to 7,000 gauss (GAUSS) acting at right angles is applied. The magnetic force is increased and the large amount of magnetization hexagonal number is increased by passing large amounts at once.

On the other hand, the outer side of the magnetizing member (2) is preferably provided with a shielding member (refer to 4 of Figure 5) that is selectively removable to securely close the permanent magnet (27).

Here, the shield member 4 is made of a pair that can be selectively removable by the coupling means 42 so as to cover the outer surface of the magnetizing member 2, the coupling is fixed, activated carbon 44 is filled in the case It is preferable that the inner portion of the case 41 is formed in a shape corresponding to the permanent magnets 27 and includes a receiving groove 43 in which the permanent magnets 27 are accommodated.

In addition, the shielding member 4 is preferably made of a cylindrical shape corresponding to the through-hole 11 to accommodate the permanent magnet 27 is inserted into the inner body (1).

In addition, the material of the shield member 4 is a synthetic resin material, non-magnetic polyvinyl chloride (Polyvinyl chloride), polypropylene (Polypropylene), polyethylene (Polyethylene), ABS resin (Acrylonitrile butadiene styrene copolymer), fluororesin (Fluororesin) It is preferable to use one of acrylic resin, epoxy resin, epoxy resin, bakelite, ebony, plastic and fiber glass reinforced plastic (FRP). .

In addition, the case 41 forming the shielding member 4 has a semi-cylindrical shape to form an inner space excluding the receiving groove 43 to fill the inner space with activated carbon 44 in the form of powder or granules. It is preferable.

Here, the pair of the case 41 is preferably fitted to each other by the coupling means 42, for this purpose, the coupling means 42 is a protrusion 42a protruding on the edge of the contact surface of one case (4) ) And a fitting groove 42b having a groove shape formed at a position corresponding to the protrusion 42a on the other case 4. Of course, the coupling means 42 is not limited thereto and may be configured in various coupling manners.

In this way, the shielding member 4 is shielded so as not to form a circular magnetic field around each end of the pair of permanent magnets 27 so that magnetic force does not leak to the outside of the permanent magnets 27.

Accordingly, the magnetic force generated in the pair of permanent magnets 27 forms a linear magnetic field in the direction of the magnets opposed to each other, which affects the pressurizing portion 27.

In addition, the magnetization means consisting of a combination of the pair of permanent magnets 27 and the shielding member 4 may be provided in multiple stages along the longitudinal direction of the magnetizing member (2). Through this, the magnetic field can be efficiently formed along the longitudinal direction to effectively improve the magnetization effect.

On the other hand, on both sides of the pressing portion 25 is disposed between the permanent magnet 27 and made of a thin film form such as film or fiber, mainly made of silver powder, carbon powder and far-infrared radiation ceramic powder It is preferable that the active auxiliary materials 5 and 6 are further provided.

In this case, in order to maximize the radiation of far infrared rays, it is preferable that a plurality of active auxiliary materials 5 and 6 overlapping the main material are provided on both sides of the pressing part 25 in a multi-layered structure.

In one example, it is preferable to attach the carbon film 6 after attaching the silver film 5 to both planes of the pressing part 25. If necessary, a ceramic film (not shown) may be further attached. Of course, it is also possible to apply a silver coating on the outer surface of the pressing portion 25 without being limited thereto.

In this way, activated carbon 44 is provided inside the shielding member 4 for tightly fixing the permanent magnet 27, and the bottom surface of the permanent magnet 27 is a film or fiber mainly composed of silver powder, carbon powder, and ceramic powder. Active auxiliary materials 5 and 6 in the form are further provided.

Therefore, it is possible to maximize the far infrared ray emitted from the active auxiliary material (5, 6), and the magnetization efficiency can be remarkably improved by enhancing the sterilization and penetration of the magnetic field by the far infrared.

These active aids (5, 6) may be provided laminated on the outer surface of the tape form, it can be fixed by winding the tape around the outer periphery of the magnetization member (2). In addition, the tape provided with the active auxiliary material (5, 6) can be further wound on the outer surface of the permanent magnet 17 and the shield member 4, in this case, far infrared ray emission effect can be further increased.

On the other hand, the connecting member (3) disposed at both ends of the magnetizing member (2) so as to communicate with the inner flow path of the magnetizing member (2), the outer portion is screwed to the socket portion 13 and the inner through hole ( The magnetization member 2 is press-fitted on 31.

To this end, the inner end of the connecting member 3 is preferably provided with a sealing tubular body 36 made of an elastic material that is joined to the stepped portion 31a where the edge of the through hole 31 is stepped.

Here, the sealing pipe 36 is formed to be integrally bent from the cylindrical fitting portion 34 and the matching portion 34 to be joined to the step portion 31a, and to be caught at the end of the connecting member 3. It is preferable that the branch 35 is configured.

In this way, the inner side of the connecting member 3 is provided with a sealing pipe 36 that serves to seal the end of the magnetizing member 2 by pressing and to prevent leakage at the same time.

Therefore, the assembly structure is improved and the number of parts can be reduced in a simple manner in which the connecting member 3 fixes the magnetizing member 2 and the main body 1 at the same time.

Through this, it is possible to provide a magnetized hexagonal water supply apparatus 10 which is remarkably improved assembly and maintenance.

In addition, a bolt part 33 having a screw frame is formed on the outer surface of the connection member 3 to form a screw coupling with the socket part 13, and an o-ring 32 for sealing on the upper side of the bolt part 33. ) Is provided.

Hereinafter, with reference to the accompanying drawings will be described the assembling installation process and operation of the multifunctional magnetization hexagonal water supply apparatus according to the present invention and the resulting effects.

4 is a cross-sectional view of the magnetizing member according to the present invention from an upper side, and FIG. 5 is a cross-sectional view of the shielding member accommodating a permanent magnet according to the present invention wrapped in a pressing part from the front.

As shown in Figures 1 to 5, first, the connection member 7 for the water purifier is installed at both ends formed by cutting one side of the supply line 71 of the water purifier. At this time, the end of the connection member 7 for the water purifier is formed with a screw frame for screwing while being inserted into the connection member (3).

Thereafter, one end of the magnetization member 2 is inserted into the through hole 31 of the connection member 3. At this time, the through-hole 31 is provided with a sealing pipe body 36 is the magnetization member 2 is sealed while being press-fit fixed.

Here, a pair of cases in which the permanent magnet 27 is accommodated in the state in which the silver film 5 and the carbon fiber 6 are sequentially attached to the outer surface of the pressing portion 25 in which one side of the magnetizing member 2 is flat. 41 is wrapped and tightly coupled by the coupling means 42. Accordingly, the permanent magnet 27 is in close contact with the outer surface of the pressing portion 25 while the magnetic field in the vertical direction acts inside the pressing portion 25.

At this time, as the pressing portion 25 has a flat outer surface, the existing permanent magnet is improved in contact with a narrow area with a narrow pipe so that the permanent magnet 27 having a bar magnet shape stably over a large area. Since it is attached, the magnetization efficiency is increased.

Furthermore, since the inner passage of the pressing portion 25 is flat and has a narrow passage, there is no problem in making a high magnetic force even with the permanent magnet 27 having a small thickness.

Subsequently, while the magnetization member 2 coupled to the connection member 3 at one end is inserted into the main body 1, the bolt part 33 of the connection member 3 is connected to the socket part 13 of the main body 1. After fixing by screwing, the connecting member 3 is equally coupled to the opposite side. In other words, it does not require a separate direction at the time of assembly, so assembly is easier.

As such, the multifunctional magnetization hexagonal water supply device 10 assembled quickly and easily is supplied with the water supply line 71 of the water purifier by being screwed together while the connection member 7 for the water purifier is inserted into the connection member 3. )

When water is supplied to the water purifier installed in the direction of the arrow in FIG. 3, the supplied water is supplied to one side supply line 71, through-hole 31 of one side connection member 3, and magnetization hole 21 of magnetization member 2. , While passing through the through-hole 31 and the other side supply line 71 of the other side connection member 3 in order to be supplied to the water purifier becomes a magnetized hexagonal water.

The principle of generating the magnetization hexagonal number is a strong magnetic force is projected to the water flowing through the magnetization hole 21 in the vertical direction (in the direction of the dotted arrow in Figure 3), the water molecules are ionized to generate a resonance resonance kinetic energy, accordingly 30 The cluster of water molecules, which are combined into hundreds of lumps, is well broken down and recombined six times, forming hexagonal water, which is the chemical structure of the human body's favorite.

At this time, in the case where the pair of permanent magnets 27 are arranged symmetrically with the north pole and the south pole, as the interval between the poles is narrowed, the strength of the magnetic field lines is maximized, and as the range of the magnetic field is widened, the amount of magnetization hexagonal number is increased. .

As a result, the water passes through the narrow passage without changing the amount flowing by the pressurizing portion 27, so that the magnetization efficiency is improved, thereby generating a larger amount of magnetization hexagonal water.

At this time, the magnetic field is applied to the water flowing through the magnetization hole 21 formed through the inside of the magnetization member 2 in the vertical direction through the pressing section 25 in a vertical direction to magnetize a large amount of water at a time. Magnetization efficiency can be further improved.

In addition, the outer surface of the pressing portion 25, the silver film (5), the carbon fiber (6) is sequentially attached to the case, the permanent magnet 27 is accommodated therein while the activated carbon 44 is filled in the case ( 41) can be wrapped to maximize the action of the far infrared. The far infrared rays may interact with the magnetic field of the permanent magnet 27 to facilitate the magnetization of the water flowing through the magnetization hole 13 by the strong penetration force of the magnetic field.

Hereinafter, a magnetization hexagonal water supply apparatus for a shower according to a second embodiment of the present invention will be described with reference to the accompanying drawings.

6 is a perspective view illustrating a state in which the shower magnetization hexagonal water supply apparatus according to the second embodiment of the present invention is assembled to the shower, and FIG. 7 is a use state of the shower magnetization hexagonal water supply apparatus according to the second embodiment of the present invention. It is sectional drawing which shows.

In the present embodiment, since the structure of the connection member 230 and the configuration except that the protruding screw portion 211 is integrally provided on the main body 210 are the same as those of the first embodiment, detailed description thereof will be omitted.

6 and 7, the magnetization hexagonal water supply apparatus 20 for a shower according to the present exemplary embodiment may include a connecting member coupled to the other side by integrally forming the protruding screw portion 211 at one side of the main body 210. The inside of the 230 is provided with a socket-shaped coupling portion 231 for screwing the protruding end of the head member 400, the inner O-ring 232 is further provided on the inner side of the coupling portion 231.

In addition, a magnetization member 2 having a permanent magnet 27 installed therein is inserted into the main body 210 and has a structure in which the pressing portion 25 is formed, which is the same as the first embodiment described above.

Here, the pressurizing portion 25 is not reduced in the internal flow path of the magnetizing member 2, but is pressure-deformed, so that there is no obstacle in the flow of water as compared with simply reducing the flow path, so that the existing magnetization hexagonal water generator is applied to the shower. This can drastically improve the problem that the water pressure of the supply water drops.

Furthermore, the shower magnetization hexagonal water supply device 20 has a small size that is screwed between the head member 400 and the supply line 410 of the shower, so that the user can conveniently use the shower without a lack of water supply The user's convenience can be significantly improved.

On the other hand, a plurality of bio-ceramic balls 450 is preferably partitioned and embedded in the shower mesh 451 at the outlet side of the head member 400 of the shower, and far infrared rays are radiated to the shower water supplied through the shower, thereby providing a high quality shower. It is desirable to have a supply of water.

As described above, the magnetization hexagonal water supply device 10, 20 of the present invention can obtain a high magnetic force even with a permanent magnet of a small thickness is easy to miniaturize necessary for water purifiers, showers, etc. and at a time through a large area without loss of water flow Magnetization increases magnetization efficiency and has a press-fit improved assembly structure, which can significantly improve economics and assembly.

In addition, the magnetized hexagonal water improves the water quality of the water supplied to the water purifier, and when used as drinking water, red blood cells are increased, metabolism is smoothed, bacteria propagation is suppressed, electrical conductivity is improved, and nuclear magnetic resonance ( TMR relaxation time of NMR) is increased, digestion and absorption of food is good, bowel movement and urination are easy, discharge of waste products in the body is facilitated, and liver function is enhanced.

In addition, the aesthetics are clean as all parts are embedded inside the main body. In addition, there is an advantage of easy maintenance because it is easy to assemble / disassemble the component coupling includes a press-fit method.

As described above, the present invention is not limited to the above-described embodiments, but may be modified and implemented by those skilled in the art without departing from the scope of the claims of the present invention. And such modifications are within the scope of the present invention.

10, 20: magnetized hexagonal water supply device 1, 210: main body
11: mounting hole 13: socket part
2: magnetization member 21: magnetization hole
25: pressurization portion 27: permanent magnet
3, 230: connection member 31: through hole
31a: stepped part 32: O-ring
33: bolt portion 34: fitting portion
35: flange portion 36: sealing pipe
4: shielding member 41: case
42: coupling means 43: receiving groove
44: activated carbon 5: silver film
6: carbon fiber 7: connecting member for water purifier
71: supply line

Claims (5)

A main body having a mounting hole penetrated in the length direction and having socket portions at both ends of the inner side;
A magnetization member inserted into the main body, the magnetizing member having a pair of permanent magnets arranged on both sides of the pressing unit with different polarities on both sides of the pressing part which is pressed and processed to have one side part pressed down to be flatly stretched;
Connecting members disposed at both ends of the magnetizing member so as to communicate with the flow path, the connecting members having the outer portion screwed to the socket and press-fixed and fixed to the inner through-hole; And
The case is made of a pair that is coupled and fixed while wrapping the outer surface of the magnetizing member to securely fix the permanent magnet to the outside of the magnetizing member, and the inside is filled with activated carbon, the permanent magnet in the inner central portion of the case Multifunctional magnetization hexagonal water supply apparatus including a shielding member including a receiving groove is accommodated. The method of claim 1,
Multifunctional magnetized hexagonal water supply apparatus, characterized in that the inner end of the connecting member is provided with a sealing tube made of an elastic material is formed in the stepped edge of the edge forming the through hole. delete delete The method of claim 1,
On the both sides of the pressing portion is disposed between the permanent magnet and the active auxiliary material is made of a thin film corresponding to one of the film and the fiber with one or more of silver powder, carbon powder and ceramic powder as a main material is further provided Multifunctional magnetization hexagonal water supply device.

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