JPH08309361A - Method and apparatus for magnetizing water - Google Patents

Abstract

PURPOSE: To efficiently subject water to magnetization treatment by properly arranging magnets in the flow of water in piping. CONSTITUTION: N-poles and S-poles of magnets 8 are arranged on both sides of piping 25 in opposed relationship and a plurality of the magnets 8 of which the N-poles and S-poles are arranged in opposed relationship are provided in the flow direction of the piping 25 at a predetermined interval. The interval H is made larger than the distance G between the opposed magnets and magnetism of the magnets 8 is applied to water in the direction right-angled to the flow of the piping 25 to magnetize water.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of magnetizing water and an apparatus for magnetizing water in a pipe efficiently.

[0002]

2. Description of the Related Art The quality of tap water differs slightly depending on the water source, but most of them have a problem in taste and odor along with the deterioration of the quality of water that has been recently taken, and improvements are urgently needed. Further, water forms a group of its molecules, and it is said that tap water, which is said to be poor, has a large molecule group on average, and tasty natural water has a small molecule group. It is considered that water, which is a small group of water molecules, is delicious because the movement of water molecules is activated and activated. In general, rust and scale often occur inside water pipes and water storage tanks.If rust and scale occur inside pipes and water storage tanks, the pipe diameter will be narrowed and water flow efficiency will deteriorate, resulting in damage to the pipes themselves. May lead to Therefore, a method has been adopted in which water is magnetized to activate water molecules, thereby making the water delicious, and dissolving and discharging rust and scale in the piping.

[0003]

However, according to the conventional method, even if the water is irradiated with magnetism, the water cannot be effectively magnetized, the rust and scale in the pipe cannot be easily removed, and the water does not become delicious. There was a problem. The present invention has been made in order to solve such a conventional problem, and by appropriately disposing a magnet with respect to the flow of water in a pipe, it is possible to efficiently magnetize water. An object of the present invention is to provide a magnetizing method and an apparatus thereof.

[0004]

As a means for achieving the above object, in the method of magnetizing water according to claim 1 of the present invention, the N pole and the S pole of the magnet are arranged facing each other on both sides of the pipe. Then, a plurality of magnets of the N pole and the S pole arranged facing each other are provided at a predetermined interval in the flow direction of the pipe, and the intervals are made larger than the distance between the opposed magnets so that the magnetism of the magnet is changed to the flow of the pipe. It was configured to irradiate at a right angle.

According to a second aspect of the present invention, there is provided a magnetizing device for water, wherein a pair of left and right magnet fixtures for fixing a plurality of magnets in series in a flow direction of a pipe, permanent magnets attached to the magnet fixtures, It is configured to have a pair of left and right attachments for fixing the magnet fixtures to both sides of the pipe.

According to a third aspect of the present invention, there is provided a water magnetizing apparatus according to the second aspect, wherein the permanent magnet is 2 magnets.
The fixture is fixed at intervals of 8 mm to 45 mm, and the fixture is composed of a storage case including an outer box and an inner box.

[0007]

According to the method for magnetizing water according to claim 1 of the present invention,
Since the N pole and S pole of the magnet are arranged on both sides of the pipe so as to face each other, the magnetism can cross the flow of the pipe at a right angle, and the magnetism can be efficiently irradiated. Also, because the distance between adjacent magnets is larger than the distance between opposing magnets, the magnetism flows to the opposing magnets without being obstructed by the magnetism of the adjacent magnets, effectively magnetizing the water in the pipe. can do.

Further, in the water magnetizing device according to the second aspect of the present invention, since the structure is attached from the outside of the pipe, no special work is required.

In the magnetizing device for water according to the third aspect, since the magnets are arranged at intervals of 28 mm to 45 mm, a device having an appropriate interval is selected according to the diameter of the pipe, and the flow in the pipe is It can effectively irradiate magnetism.

[0010]

Embodiments of the present invention will now be described in detail with reference to the accompanying drawings. FIG. 1 is a perspective view showing a magnetizing device according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of the same, FIG. 3 is a perspective view of the magnet fixing bracket, and FIG. 4 is an explanatory view showing an arrangement state of magnets. 5 is a sectional view taken along line AA in FIG.

The water magnetizing device 1 according to this embodiment is shown in FIG.
3 to 3, an outer box 2 and an inner box 3 formed of a non-magnetic steel material such as stainless steel, and a fixture housed inside the outer box 2 and the inner box 3 having a cross section M A magnet fixing bracket 6 composed of a letter-shaped magnet pressing bracket 4 and a magnet pressing bracket 5 having a concave cross section, and the magnet fixing bracket 6 are attached to the outer box 2 and the inner box 3.
And a permanent magnet 8 which is a magnetic body housed in the magnet fixing bracket 6.

The outer box 2 and the inner box 3 are rectangular parallelepiped box-like objects, one side of which is open and the side surface 10 is slightly short, and the side surface 10 which is shortened is provided with a semicircular cutout 11. ing. The height T of the outer box 1 is formed to be larger than that of the inner box 3 by about 2 to 5 mm, and band-shaped convex portions are formed on the upper surface and the lower surface of the outer box 1 toward the inner side to form the inner box stopper 12. There is.

The M-shaped magnet pressing fitting 4 is a thin plate-shaped member bent in an M-shaped cross section, the side surface 15 is a flat plate, and the central bent portion 16 is cut out at a predetermined interval.
Four magnet fitting holes 17 are formed. In this embodiment, the magnet fitting hole 17 having a length of 40 mm is 28 mm.
Those formed at intervals are used. The concave magnet holding member 5 is formed by bending a flat plate of a thin plate into a substantially concave shape in cross section. One side is open and a bent side 18 for fixing the M-shaped magnet holding member 4 is formed at the tip of the flat plate. Has been done.

The fixing plate 7 has a semicircular cutout 20 formed on one side of the flat plate, and a claw portion 21 bent at a right angle is formed on both ends of the opposite side where the cutout 20 is formed.

Permanent magnets 8 are attached to the four magnet fitting holes 17 of the M-shaped magnet holding fitting 4, and the M-shaped magnet holding fitting 4 to which the permanent magnets 8 are attached is a concave magnet holding fitting. 5 is fitted between the bottom side 22 and the bent side 18.
As a result, the permanent magnet 8 is sandwiched between the M-shaped magnet holding fitting 4 and the concave magnet holding fitting 5 and fixed to the magnet fixing fitting 6. Then, the magnet fixing metal fitting 6 faces the bottom surface 22 of the concave magnet holding metal fitting 5 to the outside, and holds the claw portion 2 of the fixing plate 7.
1 is hooked on the shoulder portion 23 of the M-shaped magnet holder 4,
It is stored in the outer box 2 and the inner box 3. The fixing plate 7 is adhered to the side surface 10 by aligning the semicircular cutout 20 with the semicircular cutouts 11 of the outer box 2 and the inner box 3 to form the semicircular cutout 1.
The lateral portions of 1 and 20 are joined by spot welding. The side surfaces of the outer box 2 and the inner box 3 are bonded to the fixing plate 7 by spot welding, and the magnet fixing metal fittings 6 that are locked by the claw portions 21 of the fixing plate 7 are fixed to the outer box 2 and the inner box 3. Will be.

When the water magnetizing device 1 is installed, the pipe 25 is sandwiched between the semicircular cutouts 11 of the outer box 2 and the inner box 3, and the inner box 3 is fitted inside the outer box 2 for installation. . At this time, the inner box stopper 12 formed on the outer box 2 fits the inner box 3 at an appropriate position, and the outer box 2 and the inner box 3 are fixedly installed outside the pipe 25 with the pipe 25 sandwiched therebetween. . The permanent magnets 8 facing each other at four locations are fixed on both sides of the pipe 25, and the permanent magnets 8 adjacent to each other in the flow direction are arranged with a distance of 28 mm therebetween.

The permanent magnet 8 is arranged as shown in FIGS. 4 and 5 by installing the water magnetizing device 1 in the pipe. As for the permanent magnet 8, the size of one is 40 m at the base.
An m pole, a height of 40 mm, and a width of 10 mm, in which N poles and S poles are arranged in the same direction and three sheets are stacked, are used. Piping 25
N poles and S poles of the permanent magnets 8 are fixed so as to face each other, and the facing permanent magnets 8 have a constant interval H between adjacent permanent magnets 8 and are arranged in the flow direction of the pipe 25. 4 sets are arranged along. Then, the interval H is set to be larger than the pipe diameter G. Further, of the permanent magnets 8, the polarities of the pair of permanent magnets 8 at the head position with respect to the flow direction are exchanged so that one of the magnetic poles in contact with the pipe is (NSSS) and the other is (SNNN) from the flow direction. is set up.

In the water magnetizing apparatus according to the second embodiment of the present invention, the magnet fitting holes of the M-shaped magnet holding metal fitting having a length of 70 mm are formed at four places with a distance of 45 mm. There is. As a permanent magnet, length 70mm, height 10
Each one with a width of 0 mm and a width of 20 mm is attached.
The arrangement order of the permanent magnets is the same as in the above embodiment, one of the permanent magnets facing each other has an N pole and the other has an S pole. The polarities of the permanent magnets are different.

Next, the operation of the present invention will be described. In the first embodiment of the present invention, the distance between the permanent magnets is set to 28.
Since it is set to mm, it works particularly effectively when it is installed in a pipe having a relatively small diameter of 28 mm or less. That is, since the distance between adjacent permanent magnets is 28 mm, the opposing magnets are located closer to each other,
The magnetism goes straight to the opposing magnet without being disturbed by the repulsive force of the adjacent magnet and effectively acts on the flow of water in the pipe. When the pipe is installed in a medium-diameter pipe having a diameter of 40 mm or less, the same action as described above is produced by applying the water magnetizing device of the second embodiment of the present invention. Further, among the magnets fixed to the magnet fixing bracket, the polarities of the magnets at the head position with respect to the flow direction are exchanged, so that the magnetism emitted from the magnet at the head position does not repel the adjacent magnets. The magnetism of the part influences the adjacent magnets, and the magnetism can be effectively applied to the water in the pipe without wasting the magnetic force. Further, since it can be installed only by fitting the outer box and the inner box, it can be easily installed if there is a slight gap around the pipe.

The embodiments of the present invention have been described above.
The specific configuration of the present invention is not limited to the present embodiment, and even if there are design changes and the like within the scope of the invention, they are included in the present invention. For example, in this embodiment, the magnets are arranged in the direction of flow (NSSS / SNN).
N), but depending on the material of the pipe, the water quality in the pipe, the flow velocity, etc. (NNNN / SSSS), (NSNS / SNSN),
(NSSN / SNNS) is possible. Further, in the first embodiment, the magnets are stacked in three stages,
In the embodiment, the number of magnets is one, but it is also possible to increase or decrease the number of magnets according to the material of the pipe, the water quality in the pipe, the flow velocity and the like.

Although stainless was used as the material of the magnetizing device for water, ceramics, synthetic resin or the like can also be used.

[0022]

As described above, in the method for magnetizing water according to the first aspect of the present invention, the N pole and the S pole of the magnet are arranged facing each other on both sides of the pipe. The magnetism can cross the flow of the pipe at a right angle and efficiently irradiate the magnetism. Further, since the distance between the adjacent magnets is larger than the distance between the opposing magnets, it is difficult to receive repulsion from the adjacent magnets,
Since the magnetism is concentrated between the opposing magnets, the water in the pipe can be efficiently magnetized.

In the water magnetizing device according to the second aspect of the invention, since the pipe is sandwiched between the outer box and the inner box, it can be easily installed if there is a slight gap between the pipe and the installation surface. it can.

In the water magnetizing device according to the third aspect of the present invention, the magnets are arranged at intervals of 28 mm to 45 mm. Therefore, a device having an appropriate interval is selected according to the diameter of the pipe, and the flow in the pipe is selected. It is possible to effectively irradiate magnetism.

[Brief description of drawings]

FIG. 1 is a perspective view showing a magnetizing device according to an embodiment of the present invention.

FIG. 2 is an exploded perspective view of the same.

FIG. 3 is a perspective view of the magnet fixing bracket.

FIG. 4 is an explanatory diagram showing an arrangement state of the magnets.

5 is a sectional view taken along line AA in FIG.

[Explanation of symbols]

 1 Water Magnetizer 2 Outer Box 3 Inner Box 4 M-shaped Magnet Holding Metal Fitting 5 Concave Magnet Holding Metal Fitting 6 Magnet Fixing Metal Fitting 7 Fixing Plate 8 Permanent Magnet 25 Piping

Claims (3)

[Claims] 1. A N-pole and a S-pole of a magnet are arranged on both sides of a pipe so as to face each other, and a plurality of N-pole and S-pole magnets arranged so as to face each other are provided at a predetermined interval in a flow direction of the pipe. A method of magnetizing water, wherein the gap is made larger than the distance between opposed magnets, and the magnetism of the magnets is applied perpendicularly to the flow of the pipe to magnetize the water. 2. A pair of left and right magnet fixtures for fixing a plurality of magnets in series in the flow direction of the pipe, permanent magnets attached to the magnet fixtures, and the magnet fixtures fixed to both sides of the pipe. A water magnetizing device having a pair of left and right fixtures. 3. The permanent magnets have a spacing of 28 mm to 45 m.
3. The fixture is fixed at m intervals, and the fixture comprises a storage case including an outer box and an inner box.
The magnetizing device for water described.