JP4170169B2 - Water magnetizing equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an apparatus for magnetizing and magnetizing water flowing through a pipeline.
[0002]
[Prior art]
An apparatus for producing magnetized water by causing magnetism to act on the water in the container is known. For example, JP-A-63-296888, JP-A-4-48877, and Noto 2501465 are disclosed. The conventional ideas found in these are based on the principle that when magnets are kept in contact for as long as possible, well magnetized water can be produced, so conventional devices tend to increase the quantity of magnets. is there.
[0003]
However, when the number of magnets is increased, there is a problem that the weight of the apparatus increases, and the fact that the weight is large means that the mounting partner must also have a high strength, which causes various problems. Moreover, when there are many magnets, there is a high risk of breakage and entering tap water. Some of them have a longer contact time with the magnet by meandering water or flowing it in a spiral shape, but the apparatus becomes larger, which often causes problems in installation.
[0004]
[Problems to be solved by the invention]
The present invention has been made paying attention to the above points, and the problem is to provide a water magnetizing apparatus capable of producing magnetized water equivalent to the conventional one while reducing the number of magnets to one-half that of the prior art. It is to be. Another object of the present invention is to improve the efficiency of magnetization accompanied by the turbulent flow of water flowing in the pipe by increasing the flow velocity in the magnetization region and increasing the Lorentz force.
[0005]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, the present invention comprises a plurality of magnetization chambers as a water magnetization device, and forms an inner casing that forms an inner magnetization flow path by communicating the plurality of magnetization chambers with a passage. In the magnetization chamber, a magnetizer combining a permanent magnet and a yoke plate that is magnetically attracted thereto is arranged, and the outer side of the inner casing is covered with an outer casing, thereby returning the magnetized water flowing out from the inner casing. In the meantime, a measure is taken to form an outer magnetization channel that undergoes a magnetization action again.
[0006]
In order to solve the above-mentioned problems, the present invention is an apparatus for applying magnetism to water flowing in a pipe and magnetizing the water, and includes a plurality of magnetization chambers having a large flow cross-sectional area, and the plurality of magnetizations. The inside of the magnetized channel having an uneven shape composed of the outside of the magnetization chamber having a large flow cross-sectional area and the outside of the passage having a small flow cross-sectional area by alternately communicating the chambers with a passage having a small flow cross-sectional area. A magnet is formed by combining a permanent magnet and a yoke plate that is magnetically attracted to the magnetizing chamber, and the outer side of the inner casing is covered with an outer casing so as to pass through the inner magnetizing flow path. It is magnetized, and then causes the Fukugyo the magnetized water flowing out of the inner casing, and the narrow flow paths corresponding to the convex shape of the concave-convex shape of the inner magnetic flow path which receives the magnetization effect again during In which it took measures that shall form the outer magnetic flow path having a large flow paths corresponding to the concave shape.
[0007]
The apparatus of the present invention comprises a plurality of magnetization chambers, which are communicated with each other by a passage to form an inner casing. Therefore, the inner casing can provide a water flow path composed of a magnetization chamber having a large flow cross-sectional area and a small passage. Water flows in from one end of the inner casing and flows out from the other end.
[0008]
A magnetizer combining a permanent magnet and a yoke plate is disposed in the magnetization chamber. The yoke plate is made of a material that is magnetically attracted to the permanent magnet. For example, magnetized water can be manufactured by more effectively using the magnetic force of a single magnet by combining the S pole and the N pole symmetrically across the yoke plate.
[0009]
The outer side of the inner casing is covered with an outer casing, thereby returning the magnetized water flowing out from the other end of the inner casing, and the returning magnetized water is a magnetic field of a magnetizer provided in the inner housing. Is again subjected to the magnetizing action. The space between the inner casing and the outer casing is a flow path through which the magnetized water returns, and is also a part that is subjected to a magnetizing action again, and this is called an outer magnetized flow path.
[0010]
A part of the outer casing is formed with an outlet for outflowing magnetized water. The outlet at the other end of the inner casing serves as an inlet to the outer casing, and the outlet of the magnetized water from the outer casing is located at the other end of the outer casing that is retrograde (returned) along the inner casing. Provided.
[0011]
Among the above components, it is desirable that the magnetization chamber of the inner casing is formed of a magnetic material, and the outer housing is formed of a non-magnetic material. By forming the magnetization chamber of the inner casing with a magnetic material, the magnetic force of the magnetizer can be exerted on the external magnetization flow path, while by forming the outer casing with a non-magnetic material, Magnetic leakage and the influence of external magnetic force can be eliminated as much as possible.
[0012]
In the present invention, the term “magnetic substance” is used to mean a substance that is magnetized when placed in a magnetic field, and the term “non-magnetic substance” is used to mean a substance that is not magnetized even in a magnetic field. Therefore, the yoke is also made of a magnetic material. As the permanent magnet, a ferrite magnet, a neodymium-iron-boron magnet (commonly called a neodymium magnet), or other magnets can be applied.
[0013]
Therefore, the water magnetizing apparatus according to the present invention has one end as a water inlet and the other end as a water outlet, and a magnetization chamber having a large flow cross-sectional area and a passage having a small flow cross-sectional area are alternately arranged between them. An inner casing that forms an inner magnetized flow path, a magnetizer that combines a permanent magnet and a yoke plate disposed in the magnetizing chamber of the inner casing, and an outer periphery of one end of the inner casing that forms an inner magnetized flow path Covering the entire outside extending to the end, primary magnetized water flows in from the outlet of the inner casing, and further comprises an external housing that flows out from the other end as secondary magnetized water. Here, the water that has passed through the inner casing is called primary magnetized water, and the water that has passed through the outer casing forming the outer magnetized flow path is called secondary magnetized water.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in more detail with reference to illustrated embodiments. In the figure, 11 is an inlet of water that is a part of a passage having a small flow cross-sectional area, 12 is a magnetization chamber having a large flow cross-sectional area, 13 is an intermediate passage, and 14 is an outlet of water. An inner casing 15 is configured. In each part of the inner casing 15, only the magnetization chamber 12 is formed of SUS430 as a magnetic material, and the members constituting the other inlet 11, the intermediate passage 13 and the outlet 14 are nonmagnetic materials. As SUS304.
[0015]
In the magnetization chamber 12, a magnetizer 18 is disposed that combines a permanent magnet 16 and a yoke plate 17 that is magnetically attracted to the permanent magnet 16. The permanent magnet 16 is made of a ferrite magnet, and the yoke plate 17 is made of SUS430, which is a magnetic material. This magnetizer 18 opens 19 and 21 at the center of a permanent magnet 16 formed in a disk shape and a yoke plate 17 formed in a disk shape having a slightly larger diameter than that of a permanent magnet 20. , And is fixed integrally with the support shaft 20 using a fixture 22. See FIG. The support shaft 20 is made of SUS304 as a nonmagnetic material.
[0016]
As shown in FIG. 2, the illustrated magnetizer 18 has an arrangement in which yoke plates 17 and 17 are magnetically attracted to both sides of a pair of permanent magnets 16 and 16 that are magnetically attracted. As shown in FIG. However, it is not necessary to arrange two permanent magnets 16, and a magnetizer 18 may be configured by sandwiching a yoke plate 17 between every other permanent magnet, and the yoke plate 17 at the center of the four magnet rows in FIG. 2. Both ends may be omitted, leaving only. The number of yoke plates 17 can be increased or decreased in accordance with the target magnetic flux density value. Further, the inner casing 15 including the magnetizer 18 constitutes an inner magnetized flow path 25I.
[0017]
The outer side of the inner casing 15 is covered with an outer casing 23. One end of the outer casing 23 is on the outer periphery of the inlet 11 of the inner casing 15, the other end of the outer casing 23 covers the inner outlet 14 of the inner casing 15, and a final outlet 24 is near one end. Is provided. Between the inner outlet 14 and the last outlet 24 is an outer magnetized flow path 25E, which is a narrow flow path 26 around the magnetizer 18 and a wide flow path 27 around the intermediate flow path 13. And are arranged alternately. The outer casing 23 is formed in a cylindrical shape that accommodates the inner casing 15, and is made of SUS304 as a nonmagnetic material.
[0018]
In order to produce magnetized water by the water magnetizing apparatus 10 having such a configuration, water is supplied from the water inlet 11 into the inside. Water flows while alternately filling the wide magnetization chamber 12 and the narrow flow path 13, and is magnetized through the magnetic field of the inner magnetization flow path 25 </ b> I formed by the magnetizer 18. When the water flow reaches the wide magnetization chamber 12 from the narrow flow path 13 and flows to the narrow flow path 13, the Lorentz force is also increased when the flow velocity increases in the narrowed region of the magnetization chamber 12, and the water flowing in the pipe With the turbulent flow, the efficiency of magnetization is improved. As water is magnetized, even a large cluster of water molecules such as tap water is dissociated into a small cluster, resulting in water having higher absorbability and permeability.
[0019]
In the water magnetizing apparatus 10 of the present invention, the water is magnetized through the inner magnetized flow path 25I in the inner casing 15 as a water flow having a slow and rapid speed change. At the same time, the same magnetized water is subjected to the magnetizing action due to the magnetic field of the magnetizer 18 when returning through the external magnetized flow path 25E, so that it has been subjected to magnetic treatment at a distance twice as long as the entire length of the apparatus according to the present invention. Will be equal. Moreover, since it passes through the narrow flow path 26 and the wide flow path 27 even during the return trip, it becomes a water flow with a slow and rapid speed change, and the same magnetizer 18 is used twice back and forth, which is very efficient.
[0020]
The magnetized water produced by the water magnetizing apparatus 10 of the present invention can be widely used as water having good absorbability and permeability of the magnetized water itself. At the same time, by passing magnetized water whose clusters are made smaller through pipes such as water supply, hot water supply, and cooling water, it is possible to prevent the scale from adhering to the inner surface of the pipe and to prevent the occurrence of red rust.
[0021]
【The invention's effect】
Since the present invention is configured and operates as described above, the water flow is returned from the inner magnetized flow path of the inner casing to the outer magnetized flow path outside the inner casing, and the magnetic field of one magnetizer is reciprocated twice. As a result, the number of magnets can be reduced to one-half that of the conventional one, magnetized water can be produced efficiently, and there is no conventional problem with respect to weight and size, and water that is highly practical. Can be provided.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view showing an example of an embodiment of a water magnetizing apparatus according to the present invention.
FIG. 2 is an enlarged view of a magnet used in the apparatus.
FIG. 3A is a front view showing the same permanent magnet and yoke plate.
(B) Side view of permanent magnet (c) Side view of yoke plate
DESCRIPTION OF SYMBOLS 10 Water magnetizing apparatus 11 Inlet 12 Magnetizing chamber 13 Passage 14 Outlet 15 Inner casing 16 Permanent magnet 17 York plate 18 Magnetizer 23 Outer casing 24 Final outlet 25I Inner magnetizing channel 25E Outer magnetizing channel

Claims (3)

An apparatus for magnetizing by applying magnetism to water flowing in a pipe, and comprising a plurality of magnetization chambers having a large flow cross-sectional area, and alternately arranging the plurality of magnetization chambers by a passage having a small flow cross-sectional area. By forming a communication , an inner casing is formed which forms an inner magnetized flow path having an uneven shape composed of an outer side of a magnetization chamber having a large flow cross-sectional area and an outer side of a passage having a small flow cross-sectional area . A magnetizer that combines a permanent magnet and a yoke plate that is magnetically attracted to the magnet is disposed, and the outer side of the inner casing is covered with an outer casing so that the magnetized water is magnetized through the inner magnetized flow path and then flows out of the inner casing. together to go-around and has a narrow flow paths corresponding to the convex shape of the concave-convex shape of the inner magnetic flow path which receives the re-magnetization effect therebetween, a wide flow path corresponding to the concave shape Magnetizer of water by forming a side magnetic flow path. An apparatus for magnetizing by applying magnetism to water flowing in a pipe, and comprising a plurality of magnetization chambers having a large flow cross-sectional area, and alternately arranging the plurality of magnetization chambers by a passage having a small flow cross-sectional area. An internal casing that forms an inner magnetizing flow path is formed by communication, and the magnetization chamber of the inner casing is formed of a magnetic material, while the magnetization chamber is a combination of a permanent magnet and a yoke plate that is magnetically attracted thereto. By arranging a container and covering the outside of the inner casing with an outer casing having a configuration formed of a non-magnetic material, the magnetized water magnetized through the inner magnetized flow path and then flowing out of the inner casing is returned. A water magnetizing device in which an outer magnetizing channel that receives a magnetizing action again is formed between them. An inner casing in which one end is a water inlet and the other end is a water outlet, and a magnetizing chamber having a large flow cross-sectional area and a passage having a small flow cross-sectional area are alternately provided between them, and a magnetizing chamber of the inner casing A magnetizer combining a permanent magnet and a yoke plate disposed on the inner casing, covering the entire outer side from the outer periphery of one end of the inner casing to the other end, and primary magnetized water flows from the outlet of the inner casing; The water magnetizing apparatus according to claim 1, wherein the water magnetizing apparatus has a configuration comprising an external housing that flows out from the other end side as next magnetized water.

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