JP2019010630A - Magnetic force intensifier and water activation system - Google Patents

Abstract

To provide further increase of the magnetic force acting on the water passing through a water pipe.SOLUTION: A water activation device 1 includes two housed water activated parts 10 comprising a permanent magnet 12 having a magnetic action surface for causing magnetism to act on water passing through the inside of a water pipe 200, a yoke 13 to which the permanent magnet 12 is magnetically attracted, and a housing 11 that houses the permanent magnet and the yoke 13. The two water activated parts 10 are magnetically attracted to each other, and between the two water activated parts 10, the water pipe 200 through which water passes is arranged. A magnetic force intensifier 2 covers at least a part of the water activation device 1, is formed of a magnetic material, magnetically attaches to the water activation device 1, and in a state where the water pipe is arranged between the two water activation parts, it is placed across the two water activation parts 10.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a magnetic force enhancer and a water activation system.

  2. Description of the Related Art Conventionally, there is known a water activation device that is attached to a water pipe and causes a magnetic force to act on the water passing through the water pipe to improve the degree of water activation.

  As such a water activation device, a pair of permanent magnets, a pair of nonmagnetic conductive metal plates, a yoke, and a pair of permanent magnets between a magnetic action surface of N pole and a magnetic action surface of S pole. There has been proposed a water activation device including a tubular member arranged so as to pass therethrough (see, for example, Patent Document 1).

  According to this device, water is poured into the tubular member to obtain treated water that has passed between the magnetic action surface of the N pole and the magnetic action surface of the S pole of the pair of permanent magnets in the water activation device. Thus, water activation treatment can be performed.

JP 2008-264649 A

  However, there is still room for improvement in increasing the magnetic force acting on the water passing through the water pipe.

  The object of the present invention is to further increase the magnetic force acting on the water passing through the water pipe.

  A magnetic force enhancer according to the present invention includes a permanent magnet having a magnetic action surface that causes magnetism to act on water passing through a water pipe, a yoke on which the permanent magnet is magnetized, and the permanent magnet and the yoke are accommodated. And two water activation parts including a housing, and the two water activation parts are magnetized to each other, and a water pipe through which water passes is disposed between the two water activation parts. A magnetic force enhancer that covers at least a part of the water activation device that is formed of a magnetic material, and is magnetically attached to the water activation device, and the water pipe is interposed between the two water activation parts. In the arranged state, it is arranged across the two water activation parts.

  Further, the magnetic force enhancer of the present invention is the above magnetic force enhancer, wherein the water activation device is formed in a substantially quadrangular prism shape in a state in which the water pipe is disposed between the two water activation parts. An L-shaped portion that covers two surfaces adjacent to each other among the four surfaces substantially parallel to the water pipe of the water activation device and is formed in a substantially L shape when viewed from the direction in which the water pipe extends. And disposed on one of the two surfaces substantially orthogonal to the water pipe of the water activation device, connected to a side edge of the L-shaped portion, and formed with a notch through which the water pipe is inserted, Two magnetic force enhancing parts including a U-shaped portion formed in a substantially U-shape when viewed from the direction in which the water pipe extends, and six surfaces of the water activation device by the two magnetic force-enhancing parts. It is preferable to cover.

  The water activation system of the present invention is a water activation system comprising the above magnetic force enhancer and the water activation device, wherein the yoke is the magnetic of the permanent magnet. Arranged on the opposite surface side of the working surface, both ends thereof are bent in a substantially U-shape on the magnetic working surface side, in the direction substantially perpendicular to the magnetization direction of the permanent magnet, A distance between both end portions of the yoke and the permanent magnet is larger than ½ of the thickness of the permanent magnet.

  According to the present invention, the magnetic force acting on the water passing through the water conduit can be further increased.

It is a schematic diagram which shows the external appearance of the water activation system which concerns on this embodiment. It is a schematic diagram which shows the external appearance of the water activation system which concerns on this embodiment. It is a mimetic diagram showing the section of the water activation system concerning this embodiment. It is a table | surface which shows the magnetism which is an experimental result.

  Hereinafter, specific embodiments of the present invention will be described in detail. However, the present invention is not limited to the following embodiments, and may be implemented with appropriate modifications within the scope of the object of the present invention. can do.

<Water activation system 100>
FIG. 1 is a schematic diagram showing an appearance of a water activation system 100 according to the present embodiment. The water activation system 100 includes a water activation device 1 and a magnetic force enhancer 2. The water activation system 100 causes magnetism to act on water passing through the inside of the water conduit 200 by sandwiching a water trough (for example, a faucet water discharge pipe) 200 by the water activation device 1. And the water activation system 100 prevents the magnetic leakage in the water activation device 1 by covering the water activation device 1 in this state with the magnetic force enhancer 2, and acts on the water passing through the water pipe 200. To increase the magnetism.

[Water activation device 1]
FIG. 2 is a schematic diagram showing an appearance of the water activation system 100 according to the present embodiment. FIG. 2 shows a state where the water activation device 1 and the magnetic force enhancer 2 are separated. The water activation device 1 includes two water activation parts 10, and sandwiches a water pipe 200 (see FIG. 1) between the two water activation parts 10, so that water passing through the inside of the water pipe 200 can be obtained. Apply magnetism.

  FIG. 3 is a schematic diagram showing a cross section of the water activation system 100 according to the present embodiment. Each member constituting the water activation part 10 is accommodated in the housing 11. And the housing 11 has the opposing surface 10a which contact | abuts or adjoins the other water activation part 10, when the water flow pipe 200 is pinched | interposed between the two water activation parts 10. FIG. The housing 11 is formed of a non-magnetic material such as aluminum, and can suppress magnetism that leaks to the outside of the water activation device 1. The housing 11 may be formed of, for example, ABS resin as long as it is a non-magnetic material.

  The housing 11 includes a hollow main body 11A and a lid 11B provided on the main body 11A. The main body 11A has a hollow shape, and is formed in a box shape in which the opposite surface 10a side is the bottom and the opposite side of the opposite surface 10a is open. The lid 11B is attached to the opposite side of the facing surface 10a of the main body 11A and encloses each member constituting the water activation part 10 housed in the main body 11A.

  In the main body 11A, a notch 11a in which the water pipe 200 is disposed is formed on the facing surface 10a. In the present embodiment, the notch 11a has a quadrangular shape with long sides arranged in the width direction when viewed from the direction in which the water pipe 200 extends, and is not an essential configuration, but has a chamfered corner. By forming the notch 11a in this way, the water activation system 100 can be attached to the water pipe 200 having various shapes. Further, when the water pipe 200 is sandwiched between the two water activation parts 10 by chamfering the corner, the portion where the notch 11a and the water pipe 200 abut is not chamfered. Since the number is increased, the water activation device 1 can be attached to the water pipe 200 in a more stable state. In addition, by chamfering the corner, it is difficult for water droplets to stay in the corner, and generation of wrinkles or the like can be prevented. The notch 11a is not limited to the shape of the present embodiment, and may be a hemispherical shape as viewed from the direction in which the water pipe 200 extends. Thereby, it becomes possible to attach the water activation system 100 to the general tube-shaped water conduit 200 without a gap.

  The water activation part 10 accommodates at least a permanent magnet 12 and a yoke 13 in the main body 11A. And as for the water activation part 10, it is preferable that the nonmagnetic electroconductive metal plate 14 is further accommodated in the inside of the main body 11A.

  The kind of permanent magnet 12 is not particularly limited. Types of permanent magnets 12 include alnico magnet, KS steel, MK steel, ferrite magnet, samarium cobalt magnet, neodymium magnet, praseodymium magnet, neodymium / iron / boron magnet, samarium nitrogen iron magnet, ferromagnetic iron nitride, platinum magnet, cerium -Cobalt magnet etc. are mentioned.

  The permanent magnet 12 is provided so as to face the facing surface 10a. Then, one permanent magnet 12 of the two water activation parts 10 is arranged so that the surface facing the facing surface 10a becomes an N pole, and the other permanent magnet 12 has a surface facing the facing surface 10a of S. Arranged to be poles. Thereby, the water pipe which the surface which has the north pole of one permanent magnet 12, and the surface which has the south pole of the other permanent magnet 12 are pinched | interposed into the opposing surface 10a of the two water activation parts 10, respectively. It functions as a magnetic action surface that causes magnetism to act on the water passing through the interior of 200.

  In the present embodiment, the main body 11A is formed so that the thickness of the facing surface 10a is thinner than the thickness of other portions. Thereby, the magnetic force which acts on the fluid which passes along the water flow pipe 200 pinched | interposed into the opposing surface 10a of the two water activation parts 10 can be raised further. Moreover, although the permanent magnet 12 is formed in the rectangular parallelepiped shape, it does not restrict to this, For example, the surface (magnetic action surface) which faces the notch 11a is formed in the shape along the shape of the notch 11a. Also good. Thereby, since the distance between the permanent magnet 12 and the water conduit 200 can be made uniform, the magnetic force can be concentrated on the water passing through the water conduit 200 without waste.

  The yoke 13 is disposed on the side opposite to the magnetic acting surface of the permanent magnet 12. Further, both ends of the yoke 13 are bent in a substantially U shape on the magnetic action surface side of the permanent magnet 12, and a central portion 13a disposed in parallel with the magnetic action surface of the permanent magnet 12, Bending portions 13b, which are examples of both end portions, extend from both ends of the portion 13a to the magnetic acting surface side of the permanent magnet 12 and reach the facing surface 10a.

  The yoke 13 has a function of increasing the attractive force of the permanent magnet 12. The material of the yoke 13 is not particularly limited as long as it is a magnetic material that enhances the attractive force of the permanent magnet 12, and examples thereof include steel materials (SS400 and the like), pure iron (SUY-1 and the like), soft iron plates, magnetic ceramic plates, and the like. It is done.

  In this embodiment, the surfaces facing the permanent magnets 12 at both end portions (bending portions 13b) of the yoke 13 in the direction substantially orthogonal to the magnetization directions of the respective permanent magnets 12 in the two water activation parts 10 The distance L between the end portions of the permanent magnet 12 in the direction orthogonal to the opposing direction is greater than ½ times the thickness of the permanent magnet 12 (the dimension of the permanent magnet 12 in the opposing direction). The thickness of the permanent magnet 12 is preferably about 1.5 times or more. The separation between the end portions of the yoke 13 and the permanent magnet 12 reduces the magnetic flux density due to a short circuit of the magnetic circuit from the N pole of the permanent magnet 12 to the S pole of the permanent magnet 12. Can be prevented.

  The nonmagnetic conductive metal plate 14 is disposed between the side surface of the permanent magnet 12 and the bent portions 13 b at both ends of the yoke 13.

  In the water activation device 1, a magnetic force is generated from the north pole of the permanent magnet 12 of one water activation part 10 toward the south pole of the permanent magnet 12 of the other water activation part 10. When a fluid (water) flows in the water flow pipe 13 on which this magnetic force acts, the direction of the magnetic force is perpendicular to the direction of the fluid (from the magnetic acting surface of the permanent magnet 12 of one water activation part 10). The electromotive force is generated in a direction orthogonal to the direction of the magnetic action surface of the permanent magnet 12 of the other water activation part 10.

  The nonmagnetic conductive metal plate 14 is provided in order to inductively charge the generated current so that there is no discharge loss, and to efficiently discharge electrons generated by this charging into the fluid.

  The nonmagnetic conductive metal plate 14 faces the magnetic action surface of the permanent magnet 12. The nonmagnetic conductive metal plate 14 is disposed so as to face the magnetic action surface and is disposed on the side surface of the permanent magnet 12.

  Although not essential, it is desirable that the internal space of the housing 11 is filled with a filling member in a gap between the permanent magnet 12, the yoke 13, and the nonmagnetic conductive metal plate 14. The filling member is a solidified product of a fluid filler. Thereby, even when moisture or the like enters the inside of the housing 11 from the outside or when dew condensation occurs inside the housing 11, the permanent magnet 12, the yoke 13, and the nonmagnetic conductive metal plate 14 covered with the filling member. Since it is possible to prevent moisture from the outside from adhering to the surface and generating rust, the magnetic performance and water activation performance of the water activation device 1 can be stably maintained over a long period of time. Further, the main body 11A and the lid 11B can be securely fixed by the filling member, and rattling of the disposed permanent magnets 12 and the like can be prevented inside the housing 11, so that the permanent magnets 12 and The displacement of the yoke 13 and the nonmagnetic conductive metal plate 14 and the occurrence of distortion and the cracking of the permanent magnet 12 can be reduced. Magnetic performance and water activation performance can be maintained. The material of the filling member is not particularly limited as long as it is a material that can fill the gaps between the permanent magnet 12, the yoke 13, and the nonmagnetic conductive metal plate 14, and examples thereof include silicone resin.

[Magnetic Strengthening Tool 2]
Returning to FIG. 1, the magnetic force enhancer 2 is formed of a magnetic material (for example, steel (SS400, etc.), pure iron (SUY-1, etc.), soft iron plate, magnetic ceramic plate, etc.) and is activated by two waters. It is magnetically attached to the part 10 and is disposed across the two water activation parts 10 in a state where the water pipe 200 is disposed between the two water activation parts 10.

  As shown in FIG. 2, the magnetic force enhancing tool 2 includes two magnetic force enhancing parts 20 and covers the water activation device 1 with the two magnetic force enhancing parts 20. The magnetic force enhancing part 20 includes an L-shaped part 21 and a U-shaped part 22.

  As shown in FIG. 3, the L-shaped portion 21 has two surfaces (side surfaces 1 a, 1 b) adjacent to each other among four surfaces (side surfaces 1 a, 1 b, 1 c, 1 d) substantially parallel to the water pipe 200 of the water activation device 1. Or it covers the side surfaces 1c, 1d) and is formed in a substantially L shape when viewed from the direction in which the water pipe 200 extends. Specifically, when one of the two magnetic force enhancing parts 20 covers the side surfaces 1a and 1b of the water activation device 1, the other magnetic force enhancing part 20 covers the side surfaces 1c and 1d.

  As shown in FIG. 2, the U-shaped portion 22 is disposed on one of the two surfaces (end surface 1 e or end surface 1 f) substantially orthogonal to the water flow pipe 200 of the water activation device 1. A notch 22a that is connected to the side edge and through which the water pipe 200 is inserted is formed, and is formed in a substantially U-shape when viewed from the direction in which the water pipe 200 extends. Specifically, when one of the two magnetic force enhancing parts 20 is disposed on the end face 1e of the water activation device 1, the other magnetic force enhancing part 20 is disposed on the end face 1f.

  In the present embodiment, the L-shaped portion 21 and the U-shaped portion 22 of the magnetic force enhancer 2 are formed to have substantially the same size as the side surface and the end surface of the water activation device 1 respectively disposed, but this is not limitative. Instead, you may form larger than the side surface or end surface of the water activation apparatus 1. Thereby, for example, the outer shape of the water pipe 200 is larger than the inner diameter of the hole formed by the notch 11a of the two water activation parts 10 in close contact with each other, and the two water activation parts 10 are separated from each other. Even so, the water activation device 1 can be covered across the two water activation parts 10.

  Moreover, as for the magnetic force increase tool 2, it is preferable that the outer surface of a magnetic body is covered with the rubber material. Thereby, it can prevent that rust etc. generate | occur | produce in a magnetic body. Such coating of the magnetic material is performed, for example, by immersing the magnetic material in a liquid rubber material, and then lifting and drying. The magnetic force enhancing part 20 of the present embodiment has a vertex where two surfaces of the L-shaped portion 21 and the U-shaped portion 22 are connected. When immersed in a rubber material with the inside of this apex facing down, air remains inside the apex and the magnetic material cannot be immersed smoothly in the liquid rubber material. On the other hand, when immersed in a rubber material with the inside of this apex facing upward, the magnetic material can be smoothly immersed in a liquid rubber material, but when pulled up, the rubber material is placed inside this apex. It accumulates and cannot be coated uniformly. Therefore, by forming a hole in the apex where the two surfaces of the L-shaped part 21 and the U-shaped part 22 are connected, when immersed in a rubber material with the inside of the apex facing down, Air can escape from this hole, and when immersed in a rubber material with the inside of this apex facing upward, the rubber material can flow down from this hole, improving the workability and quality of the coating. improves.

  Here, when the two water activation parts 10 are sandwiched between the water pipes 200 and magnetically attached to each other, as shown in FIG. The end of the bent portion 13b is in a state of facing the body 11A that is a non-magnetic material. For this reason, magnetism leaks from between the end portions of the bent portions 13b of the respective yokes 13 in the two water activation parts 10. Therefore, by arranging the magnetic force enhancing tool 2 across the two water activation parts 10, between the ends of the bent portions 13 b of the respective yokes 13 in the two water activation parts 10, the magnetic force is increased. Since it can be covered with the magnetic force enhancing tool 2 formed by the body, it is possible to suppress the leakage of magnetism, and accordingly, the magnetism between the two water activation parts 10 (the portion where the water pipe 200 is disposed). Can be strengthened.

[Experimental example]
In this experimental example, the magnetic force was measured when the magnetic activation tool 2 was attached to the water activation device 1 and when it was not attached. FIG. 4 is a table showing magnetism as experimental results. In this experimental example, the magnetic force at the positions A, B1, B2, C1, C2, C3, and D shown in FIG. 2 was measured.

  As shown in FIG. 4, the magnetic force enhancer 2 is provided in the portion (B1, B2, C1, C2, C3, D) where the magnetic force enhancer 2 is disposed. It was confirmed that magnetic force leakage from the activation device 1 could be prevented.

  Moreover, it has confirmed that the magnetic force in the side wall (A) of the hole (part by which the water flow pipe 200 is arrange | positioned) formed by the notch 11a increased by providing the magnetic force increase tool 2. FIG.

<Operational effects of this embodiment>
In the present embodiment, the water activation device 1 includes a permanent magnet 12 having a magnetic action surface that causes magnetism to act on water passing through the interior of the water conduit 200, a yoke 13 on which the permanent magnet 12 is magnetized, Two water activation parts 10 including a housing 11 in which a magnet and a yoke 13 are housed are provided, and the two water activation parts 10 are magnetically attached to each other, and the interior is formed between the two water activation parts 10. A water pipe 200 through which water passes is arranged. The magnetic force enhancer 2 covers at least a part of the water activation device 1, is formed of a magnetic material, is magnetically attached to the water activation device 1, and a water pipe is disposed between the two water activation parts. In this state, the two water activation parts 10 are disposed over the two water activation parts 10.

  Thereby, it is possible to suppress the magnetism leaking to the outside of the water activation device 1 and to enhance the magnetism acting on the water passing through the inside of the water pipe 200 disposed between the two water activation parts 10. Is possible. Therefore, the magnetic force acting on the water passing through the water conduit 200 can be further increased.

  Moreover, in this embodiment, the water activation apparatus 1 is formed in the substantially square pillar shape in the state by which the water flow pipe is arrange | positioned between the two water activation parts 10. FIG. The magnetic force enhancer 2 includes two magnetic force enhancing parts 20. The magnetic force enhancing part 20 includes an L-shaped part 21 and a U-shaped part 22. The L-shaped portion 21 covers two surfaces that are adjacent to each other among the four surfaces that are substantially parallel to the water pipe 200 of the water activation device 1, and is formed in a substantially L shape when viewed from the direction in which the water pipe 200 extends. . The U-shaped portion 22 is disposed on one of two surfaces substantially orthogonal to the water pipe 200 of the water activation device 1, is connected to the side edge of the L-shaped portion 21, and is a notch through which the water pipe 200 is inserted. Is formed in a substantially U-shape when viewed from the direction in which the water pipe 200 extends. The magnetic force enhancer 2 covers the six surfaces of the water activation device 1 with such two magnetic force enhancing parts 20.

  As a result, the six surfaces of the quadrangular prism-shaped water activation device 1 formed by magnetizing the two water activation parts 10 to each other can be covered, so that the magnetism leaking to the outside of the water activation device 1 can be reliably ensured. Therefore, it is possible to further enhance the magnetism acting on the water passing through the inside of the water pipe 200 disposed between the two water activation parts 10. Therefore, the magnetic force acting on the water passing through the water conduit 200 can be further increased.

  In the water activation system 100 of the present embodiment, the distance between both end portions of the yoke 13 and the permanent magnet 12 in the direction substantially perpendicular to the magnetization direction of the permanent magnet 12 is the thickness of the permanent magnet 12. It is larger than 1/2 times. The separation between the bent portion 13b of the yoke 13 and the permanent magnet 12 reduces the magnetic flux density due to a short circuit of the magnetic circuit from the N pole of the permanent magnet 12 to the S pole of the permanent magnet 12. Can be prevented.

  It should be noted that the present invention is not limited to the above-described embodiment, and modifications, improvements, etc. within a scope that can achieve the object of the present invention are included in the present invention.

DESCRIPTION OF SYMBOLS 1 Water activation apparatus 10 Water activation part 10a Opposite surface 11 Housing 11A Main body 11B Lid 11a Notch 12 Permanent magnet 13 Yoke 13a Center part 13b Bending part 14 Nonmagnetic conductive metal plate 20 Magnetic force reinforcement part 21 L-shaped part 22 U-shaped part 22a Notch 100 Water activation system 200 Water pipe

Claims (3)

Water including a permanent magnet having a magnetic acting surface that causes magnetism to act on water passing through the interior of the water conduit, a yoke on which the permanent magnet is magnetically attached, and a housing in which the permanent magnet and the yoke are accommodated At least a water activation device comprising two activation parts, wherein the two water activation parts are magnetized to each other, and a water pipe through which water passes is disposed between the two water activation parts. A magnetic force enhancer covering a part
Formed of magnetic material, magnetically attached to the water activation device,
A magnetic force enhancer arranged across the two water activation parts in a state where the water pipe is arranged between the two water activation parts. The water activation device is formed in a substantially quadrangular prism shape in a state where the water pipe is disposed between the two water activation parts,
An L-shaped portion that covers two surfaces that are adjacent to each other among the four surfaces that are substantially parallel to the water pipe of the water activation device, and is formed in a substantially L shape when viewed from the direction in which the water pipe extends.
The water activation device is disposed on one of two surfaces substantially orthogonal to the water pipe, connected to a side edge of the L-shaped portion, and formed with a notch through which the water pipe is inserted, and the water pipe Two magnetic force enhancement parts including a U-shaped portion formed in a substantially U-shape when viewed from the direction in which
The magnetic force enhancer according to claim 1, wherein six surfaces of the water activation device are covered with the two magnetic force enhancing parts. A water activation system comprising the magnetic force enhancer according to claim 1 or 2, and the water activation device,
In the water activation device,
The yoke is disposed on the opposite side of the magnetic acting surface of the permanent magnet, and both ends thereof are bent in a substantially U shape on the magnetic acting surface side,
The water activation system in which a distance between both end portions of the yoke and the permanent magnet in a direction substantially orthogonal to the magnetization direction of the permanent magnet is larger than ½ of the thickness of the permanent magnet.

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