JP2005169358A - Magnetized water vessel - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a magnetized water vessel with high magnetic force to fluid flowing through pipes by strengthening and uniformizing magnetic field acting in the inner hole of the pipes. <P>SOLUTION: This magnetized water vessel 1 comprises a holder member 3 having an insertion hole 5 for inserting a pipe 4 where fluid is made to flow, and a plurality of magnetic field generators 2 incorporated into the holder member 3. A plurality of pairs of magnetic field generators 2 facing each other across the central part of the holder member 3 are provided in the circumferential direction of the holder member 3. A permanent magnet 10 with each polarity N, S of each magnetic field generator 2 made to face the hole 5, is disposed by making the polarity facing the hole 5 only N-polarity in a first section 20 on one half circumference along the circumferential direction of the holder member 3, and in a second section 21 on the other half circumference, making the polarity facing the hole 5 only S-polarity. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a magnetized water device that performs a magnetization process on a fluid such as water, and more particularly to a magnetized water device that is easily attached to a pipe.

  The magnetized water device is currently attached to a pipe of a water pipe and is used for the purpose of magnetically enhancing the activity of water and softening the water. This is because when tap water passes through the strong magnetic field lines generated by the magnetized water device, it acts on the water molecules to make the water molecule clusters smaller, so that the water molecules are confined in the small gaps between the water molecules. It dispels substances other than water molecules such as free chlorine for disinfection.

Some of these magnetized water machines are configured by arranging permanent magnets on the outside of a pipe so that the N polarity and the S polarity face each other. This includes a holder member that can be mounted on the outside of a pipe and a pair of magnetic field generators that are incorporated in the holder member and have permanent magnets, and are arranged so that different polarities of the permanent magnets face each other. Generally used.
As such a magnetized water device provided with a permanent magnet, for example, Patent Document 1 discloses a magnetized water device having an attachment structure capable of accommodating pipes having various tube diameters. This magnetized water device is composed of a connecting part that is pivotally connected to each other so that each half divided into left and right parts can be freely opened and closed, and left and right super strong magnets that are slidably provided. And a pair of permanent magnets are arranged so that the S polarities face each other.

In this case, the magnetic field lines that have generated the N polarity of the permanent magnet reach the opposite S polarity through the inner hole of the water pipe. And a magnetic field is produced | generated by the magnetic force line which passes along this inner hole, and the magnetization process is given to the water which flows through piping.
Furthermore, in the said patent document 1, the magnetic field generator which contact | connects a water pipe is supported slidably with rubber | gum, sponge, etc., and after installing, the closed state is hold | maintained by the attractive force of a permanent magnet.

Further, as disclosed in Patent Document 2, a magnetic field generating means arranged so that N polarity and S polarity, which are a pair of permanent magnets, face each other across a circulation path is arranged in a bath water purifier. ing. It is supposed that the mineral generated from the bather by this bath water purifier can be removed from the hot water pipe at an early stage to prevent the formation of precipitates.
JP 2003-24949 A JP-A-11-188356

  However, in the magnetized water device and the magnetic force generating means of Patent Document 1 and Patent Document 2, since only a pair is provided so that the N polarity and the S polarity face each other, the generated magnetic field is weak, and the pipe is like an iron pipe. When a magnetic material is used, the magnetic field lines tend to pass through the wall thickness of the pipe having a small magnetic resistance, and the magnetic field lines passing through the inner hole having a large magnetic resistance are smaller than the inside of the wall thickness. In addition, the magnetic field at the inner hole of the pipe is biased toward the periphery of the pipe, and the strength of the magnetic field at the center is reduced. As a result, the magnetic field acting on the inner bore of the pipe was weak and non-uniform, and the water magnetization treatment effect was not sufficient.

  Moreover, in the attachment method of patent document 1, since the magnetic field generator is made slidable by the expansion-contraction effect | action of an elastic body, a sliding range is limited and there exists a limit in the magnitude | size of the aperture diameter to be attached. In addition, when it is attached to a water pipe having a small diameter or a large diameter, the position of the magnetized water device may become unstable.

  In view of such a situation, an object of the present invention is to provide a magnetized water device having a strong and uniform magnetic field acting on an inner hole of a pipe and having a high magnetic force action on a fluid flowing through the pipe.

In order to achieve the above object, the present invention takes the following technical means.
That is, the present invention is a magnetized water device comprising a holder member having an insertion hole into which a pipe through which a fluid flows can be inserted and a plurality of magnetic field generators incorporated in the holder member, and sandwiching the central portion of the holder member Are provided with a plurality of pairs of magnetic field generators facing each other along the circumferential direction of the holder member, and each magnetic field generator is provided with a permanent magnet having the N and S polarities facing the insertion hole. However, in the first area on one semicircular circumference along the circumferential direction of the holder member, the polarity facing the insertion hole is only N polarity, and in the second area on the other semicircular circumference, the insertion hole faces the insertion hole. The polarity is arranged only as the S polarity.

In this case, a plurality of pairs of permanent magnets are provided along the circumferential direction of the holder member, and the permanent magnets facing each other across the center portion of the holder member have their polarities directed in the radial direction of the holder member, so that diagonal positions are provided. Are arranged so as to face each other. Furthermore, in these permanent magnets, only the N polarity is directed radially in the first zone on one semicircumference along the circumferential direction of the holder member, and in the second zone on the other semicircle, They are arranged so that only the S polarity is directed in the radial direction.
In this way, by forming the first area and the second area having different polarities facing the insertion hole of the permanent magnet in half on the circumference around the insertion hole, many magnetic lines of force are the same in the inner hole of the pipe. Passing in the direction, a stronger magnetic field can be obtained. Thus, for example, when attached to a pipe of a water pipe, the magnetic field lines generated from the N polarity of the magnetic field generator are not biased toward the outer periphery of the pipe, and most of them enter the inner hole of the pipe through which water flows and the flowing water portion To reach the S polarity of the other magnetic field generator. Therefore, a stronger and uniform magnetic field can be obtained at the inner hole of the water pipe than in the case where a pair of magnetic field generators is provided as in the prior art (Japanese Patent Laid-Open No. 2003-24949).

Moreover, in the said invention, a more uniform magnetic field can be obtained with the inner hole of a water pipe by making a magnetic field generator into the positional relationship of equal intervals in the circumferential direction of a holder member.
In this invention, the protrusion length of the magnetic field generator to the inside of a holder member can be adjusted by supporting a magnetic field generator so that contact / separation is possible at the center part of an insertion hole. For this reason, even if the diameter of piping is different, the diameter which pinches | interposes this piping can be changed, and a magnetic field generator can be appropriately pressed on the outer peripheral surface. Therefore, the diameter of the diameter of the pipe that can be attached is wider than that of the conventional one (Japanese Patent Laid-Open No. 2003-24949), and the magnetized water device can be reliably held with respect to various pipes.

In the present invention, various slidable support means can be employed. However, a male screw part is provided on the outer periphery of each magnetic field generator, and a female screw part is provided at the attachment position of the holder member, and these are screwed together. Is preferred.
In the present invention, by using a neodymium magnet as the permanent magnet, a strong magnetic field can be obtained, and the breakage of the permanent magnet can be reduced and the ease of handling can be improved.

  Further, the magnetic field generator can be exchanged by making the magnetic field generator detachable from the holder member.

  As described above, according to the present invention, it is possible to provide a magnetized water device having a strong and uniform magnetic field acting on the inner bore of the pipe and having a high magnetic force action on the fluid flowing through the pipe.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 shows a state in which the magnetized water device 1 according to the first embodiment of the present invention is attached to a pipe 4 of a water pipe, and FIG. 2 (a) is a front view of the magnetized water device 1, FIG. ) Shows a longitudinal sectional view thereof. As shown in FIG.1 and FIG.2, the magnetized water device 1 of this embodiment is comprised by the four magnetic field generators 2 arrange | positioned radially, and the holder member 3 which supports this magnetic field generator 2, This magnetized water device 1 is attached by, for example, being inserted into the outer periphery of a pipe 4 of a water pipe.

As shown in FIG. 2, the magnetic field generator 2 according to the present embodiment is arranged at four equal intervals along the circumferential direction of the ring-shaped holder member 3. It is configured as an insertion hole 5 to be inserted. This insertion hole 5 is formed in a dimension having a margin so that it can be easily attached to and detached from the pipe 4 having various diameters.
Among these, each magnetic field generator 2 provided in the holder member 3 protrudes inward of the insertion hole 5 so as to be pressed against the outer peripheral surface of the pipe 4 so as to sandwich the pipe 4. A member 3 is attached.

The holder member 3 is provided with four attachment holes 6 that penetrate from the outer peripheral surface to the insertion hole 5 at equal intervals along the circumferential direction of the holder member 3. The axis of the attachment hole 6 is directed in the radial direction of the holder member 3. Further, the attachment holes 6 are arranged in such a relationship that the lines passing through the respective axes of the pair of attachment holes 6 facing each other with the center portion of the holder member 3 interposed therebetween are substantially orthogonal to the axis of the insertion hole 6. Yes.
A magnetic field generator 2 is attached to each of the mounting holes 6, and the magnetic field generator 2 is arranged so as to face another opposing magnetic field generator 2 in a diagonal position relationship. 2 are arranged at equal intervals along the circumferential direction of the holder member 3 at an angle of 90 °.

In addition, a female threaded portion 7 and a male threaded portion 8 corresponding to the female threaded portion 7 are formed on the inner side surface of the mounting hole 6 and the outer side surface of the magnetic field generator 2, respectively, and the magnetic field generator 2 is screwed into the mounting hole 6. Thus, the magnetic field generator 2 is detachably attached to the holder member 3, and is slidable in the radial direction of the holder member 3 by turning the magnetic field generator 2.
The length of the external thread portion 8 of the magnetic field generator 2 is larger than the depth of the mounting hole 6 so that the end of the magnetic field generator 2 protrudes into the insertion hole 5 of the holder member 3 and the length of the protrusion is adjusted in a wide range. Is formed sufficiently long.

  Since the holder member 3 is provided with the four magnetic field generators 2 as described above, the magnetized water device 1 is obtained by clamping the pipe 4 passed through the insertion hole 5 from the four directions by the magnetic field generator 2. Can be reliably supported. Further, since the projecting length of the magnetic field generator 2 to the inner part of the holder member 3 can be adjusted in a wide range, the diameter of the pipe 4 that can be attached is wider than that of the conventional pipe, and it can be securely attached to the various pipes 4. Is possible. For example, as shown in FIG. 4, the protrusion length of the magnetic field generator 2 to the holder member 3 inclusion is set as in the case where the magnetized water device 1 of the second embodiment described later is attached to the large-diameter pipe 4. By shortening, it can be reliably attached to the large-diameter pipe 4. Furthermore, since the magnetic field generator 2 is detachably attached to the holder member 3, the replacement of the permanent magnet 10 and the cleaning action of the magnetized water device 1 are simplified.

  A flange portion 9 is provided at one end of the magnetic field generator 2, and a stepped portion 15 is formed in the attachment hole 6 in a circular shape so as to slightly enter from the outer peripheral surface of the holder member 3. As a result, the flange portion 9 abuts on the step portion 15 to prevent the magnetic field generator 2 from entering the holder member 3 too much.

  As shown in FIG. 3B, a cylindrical housing portion 11 having a required depth is formed inside the magnetic field generator 2, and the permanent magnet 10 is housed in the housing portion 11. Moreover, this accommodating part 11 is obstruct | occluded with the cap 12 by which the rim | limb part 12A was protrudingly provided, and the accommodated permanent magnet 10 does not come out. The cap 12 is made of synthetic resin and has an outer diameter that is slightly larger than the inner diameter of the accommodating portion 11. The cap 12 is fitted into the gap between the magnetic field generator 2 and the permanent magnet 10 by inserting the rim portion 12 </ b> A into the permanent magnet 10. It can be held. Further, an elongated slot 13 is provided on the end face on the flange portion 9 side, and the magnetic field generator 2 can be turned using a coin or the like.

  The magnetic field generator 2 and the cap 12 except for the holder member 3 and the permanent magnet 10 are made of synthetic resin, and polyester, nylon, polyacetal, or a filler compounded product thereof from the viewpoint of strength and durability. However, it is not particularly limited, and various other synthetic resins can be used.

  The permanent magnet 10 is formed in a substantially cylindrical shape, and N and S polarities are magnetized at both ends thereof. The permanent magnet 10 is accommodated in the magnetic field generator 2 so that the N polarity is arranged on the cap 12 side and the S polarity is arranged on the other side. ing. In the present embodiment, the two magnetic field generators 2 are arranged so that the N polarity of the permanent magnet 10 faces the insertion hole 5, and the S polarity of the permanent magnet 10 is arranged so as to face the insertion hole 5. Two magnetic field generators 2 are provided (that is, S polarity on the cap 12 side and N polarity on the other side). And these four magnetic field generators 2 face the insertion hole 5 in the 1st area 20 on one semicircle along the circumferential direction of the holder member 3, as shown to Fig.2 (a). In the second area 21 on the other semicircular circumference, the polarity facing the insertion hole 5 is arranged as only the S polarity.

  As described above, when the magnetic field generator 2 is arranged so as to form the first area 20 in which only the N polarity faces the insertion hole 5 and the second area 21 in which only the S polarity faces the insertion hole 5, With the four inner holes, many magnetic lines of force pass from the first area 20 to the second area 21 in the same direction, and a stronger magnetic field can be obtained at the inner holes of the pipe 4. Furthermore, since these magnetic field generators 2 are provided at equal intervals, a more uniform magnetic field can be obtained.

  If the magnetic field generator 2 is arranged with the opposite polarities being the same, the generated magnetic field lines are weakened, so that the magnetic field lines cannot be effectively passed through the inner hole of the pipe 4 and a strong magnetic field cannot be obtained. . Further, when the same permanent magnet 10 is used and a pair of permanent magnets 10 having different polarities are arranged as in the prior art (for example, Patent Document 1), the magnetic flux density measured at the center is about 1200 gauss. The magnetic flux density at the center where the two pairs of opposing permanent magnets 10 having the same polarity were arranged was about 350 gauss.

On the other hand, when the different polarities of the two pairs of permanent magnets 10 are opposed to each other as in the present invention, that is, the first zone 20 in which only the N polarity is oriented in the radial direction and the second zone in which only the S polarity is oriented in the radial direction. The magnetic flux density at the center when divided into 21 showed a high value of about 1730 gauss.
As the permanent magnet 10, a neodymium magnet (Nd-Fe-B) that is particularly excellent in moldability and impact resistance is used. By adopting this neodymium magnet, a stronger magnetic field can be obtained, and damage to the permanent magnet 10 can be reduced, so that it is easy to handle. However, the present invention is not limited to this. For example, various known permanent magnets may be used as long as sufficient magnetic force can be obtained, such as a ferrite barium magnet and various other permanent magnets. it can.

  As described above, since the magnetized water device 1 according to the present invention can obtain a strong and uniform magnetic field at the inner hole of the pipe 4, it is possible to exert a high magnetic force action on the fluid. Therefore, when the magnetized water device 1 is attached to, for example, the pipe 4 connected to the water pipe, the cluster can be made very small by acting on water molecules. As a result, the effect of expelling free chlorine and other impurities is enhanced, and water that is softer than before can be generated. Furthermore, when the water passed through the magnetized water device 1 is drunk, water with small clusters is absorbed into every corner of the body, and metabolism can be activated. In addition, waste products accumulated in the body are easily discharged, and as a result, the constitution can be improved and health can be maintained.

  FIG. 4 shows a state in which the magnetized water device 1 according to the second embodiment of the present invention is attached to a large-diameter pipe 4. The difference between the magnetized water device 1 of the present embodiment and the case of the first embodiment is that the holder member 3 is divided into two parts and includes a hinge 13 that pivotally connects them. Here, the holder member 3 is divided into a first member 3 </ b> A and a second member 3 </ b> B. Moreover, the holding tool 14 for hold | maintaining in a closed state is provided in the other side which provided the hinge 13. FIG.

  When attaching the magnetized water device 1 to the pipe 4, the first member 3 </ b> A and the second member 3 </ b> B are opened with the hinge 13 as a fulcrum, and then the pipe 4 is sandwiched between the outer periphery thereof. For this reason, attachment is possible also when attaching on the piping line where the end of piping 4 is not near.

  FIG. 5 shows a state in which the magnetized water device 1 according to the third embodiment of the present invention is attached to a large-diameter pipe 4. The difference between the magnetized water device 1 of the present embodiment and that of the first embodiment is that six magnetic field generators 2 are provided on the holder member 3. Here, the three magnetic field generators 2 adjacent to each other in the first section 20 have only N polarity facing the insertion hole, and the three magnetic field generators 2 adjacent to the second section 21 are formed in the insertion holes. The facing polarity is only the S polarity. By setting it as such a structure, the magnetic field which generate | occur | produces in the inner hole of the piping 4 becomes still stronger. By arranging the permanent magnet 10 as in the present embodiment, for example, the first area 20 and the second area 21 are not formed, and N polarity and S polarity are alternately arranged along the circumferential direction. About three times as much magnetic field can be generated.

  Therefore, when the magnetized water device 1 according to this embodiment is attached to the tap water pipe 4, the effect of expelling impurities of the tap water flowing therethrough is further enhanced, and the tap water is made softer and better modified. Is possible.

In addition, this invention is not limited to the form of each above-mentioned Example.
For example, the number of magnetic field generators 2 provided on the holder member 3 may be further increased to eight or more. Each screw portion 7 is provided in the magnetic field generator 2 and the mounting hole 6 according to the first, second, and third embodiments. , 8 may be provided, and a guide portion may be formed and slid to be slidable, or an elastic member may be provided on the end face of the magnetic field generator 2 that contacts the pipe 4. Further, the holder member 3 is not limited to a circular shape, and may be a rectangular shape or other shapes.

It is a partially broken perspective view showing a state where the magnetized water device of the first embodiment is attached to a pipe. (A) is a front view of the magnetized water device, and (b) is a longitudinal sectional view (a cross-sectional view taken along line AA of (a)) of the central portion in the width direction of the magnetized water device. (A) is a top view of a magnetic field generator, (b) is the longitudinal cross-sectional view (BB sectional drawing of (a)) of the center part of the width direction of the magnetic field generator. It is a front view of the magnetized water machine of 2nd embodiment. It is a front view of the magnetized water machine of 3rd embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Magnetized water machine 2 Magnetic field generator 3 Holder member 5 Insertion hole 6 Mounting hole 10 Permanent magnet 11 Accommodation part 13 Hinge 20 1st area 21 2nd area

Claims (5)

A magnetized water device comprising a holder member having an insertion hole into which a pipe through which a fluid flows and a plurality of magnetic field generators incorporated in the holder member,
Permanent magnets having a plurality of pairs of magnetic field generators facing each other across the center part of the holder member along the circumferential direction of the holder member, each magnetic field generator facing each polarity of N and S in the insertion hole Is provided,
In the first area on one semicircular circumference along the circumferential direction of the holder member, the polarity facing the insertion hole is only N polarity, and the permanent magnet is inserted in the second area on the other semicircular circumference. The magnetized water device, wherein the polarity facing the hole is arranged as only the S polarity.   The magnetized water machine according to claim 1, wherein the magnetic field generator is provided at equal intervals in the circumferential direction of the holder member.   The magnetized water device according to claim 1 or 2, wherein the magnetic field generator is supported at the center of the insertion hole so as to be able to contact and separate.   The magnetized water device according to any one of claims 1 to 3, wherein the permanent magnet is a neodymium magnet.   The magnetized water device according to any one of claims 1 to 4, wherein the magnetic field generator is detachable from the holder member.

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