JP2011005434A - Magnetic water treatment apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a magnetic water treatment apparatus having a simple configuration and high efficiency of the magnetic treatment and eliminating the elution of the magnet.SOLUTION: In the magnetic water treatment apparatus 10, water to be treated flowing through a pipe 20 is divided and allowed to flow through a plurality of pipes 12 having a smaller diameter than the pipe 20. The water to be treated undergoes the magnetic treatment by flowing through the pipes 12 intersecting with the direction of magnetic lines of the magnetic field generated by means of a plurality of magnets 14, each pierced with one of the pipes 12 and disposed in the water flow direction of the water to be treated with an interval between each other. The magnetic treatment efficiency can be enhanced because the magnets 14 can approach the water to be treated to strengthen the magnetic field acting on the water. The deterioration due to the corrosion of the magnet, and the elution of the magnet component resulting from the water flowing through the pipes can be prevented because the magnet is out of touch with the water.

Description

The present invention relates to a magnetic water treatment apparatus that performs magnetization treatment on water flowing in a steel pipe and is used to prevent red rust from occurring in the pipe.

Conventionally, a magnetic water treatment device has been used as a measure against red rust generation and scale adhesion in steel pipes used in water supply, hot water supply, air conditioning, plant equipment, and the like.
The magnetic water treatment apparatus is configured such that a magnetic field is generated by a magnet so that water flowing through a pipe crosses the magnetic lines of force, and when the water crosses the magnetic lines of force, an induced current is generated and the water is magnetized.
Magnetically treated water changes red rust (Fe ₂ O ₃ ) to stable black rust (Fe ₃ O ₄ ), thus preventing red water due to the occurrence of red rust in the pipe and further pipe corrosion. Can be suppressed. Moreover, the magnetically treated water can also have the effects of preventing the scale from adhering to the piping and removing the scale.
As a method of applying a magnetic field so that the water flowing in the pipe crosses the magnetic field lines, a magnetic water treatment device with a magnet installed inside the pipe or a magnetic water treatment device with a magnet inside the pipe is installed. There is a method of bringing a magnet into direct contact with water flowing inside the apparatus.
For example, Patent Document 1 discloses a magnetic water treatment apparatus in which a laminated column in which a large number of magnets are stacked with a magnetic metal plate interposed therebetween is incorporated in a cylindrical casing through which water flows.

Japanese Patent No. 2990991

Here, in order to efficiently perform the water magnetic treatment, it is necessary that the magnetic field perpendicular to the water flow direction is strong and the flow rate of the water is high.
In the method of arranging magnets around the pipe, the water flowing through the center of the pipe has a large distance to the magnet, so the magnetic field cannot be increased and it is difficult to improve the efficiency of the magnetic treatment. There was a problem.
Moreover, in the method of bringing a magnet into direct contact with the water flowing inside the magnetic water treatment apparatus as in the invention described in Patent Document 1, the magnet is corroded and deteriorated by the water flowing through the pipe, and the components of the magnet are eluted. There was a problem. In addition, since the laminated pillars with a complicated structure are arranged in the water passage, the water passage resistance in the cylindrical casing increases and the flow velocity decreases, so it is difficult to improve the efficiency of the magnetic treatment. There was also a problem. Moreover, since the structure is complicated, there is also a problem that costs are increased.

Therefore, an object of the present invention is to realize a magnetic water treatment apparatus that has a simple structure, has high efficiency of magnetic treatment, and does not cause elution of magnets.

The present invention is a polishing brush for achieving the above object, and in the invention according to claim 1, in the magnetic water treatment device, the pipe through which the water to be treated flowing in the pipe branches and flows A plurality of pipes having smaller diameters, one end is connected to one end of the plurality of pipes, and the other end is connected to a pipe, and water to be treated introduced from the pipe is branched and introduced into the plurality of pipes A first header portion, one end of which is connected to the other end of the plurality of pipes, and the other end is connected to a pipe, and second water to be treated discharged from the plurality of pipes is introduced into the pipe. And a plurality of magnets that are provided through the pipes and are arranged side by side with a gap in the direction of water flow of the water to be treated. Direction of magnetic field lines generated by the magnetic field and the water to be treated And water direction is arranged to intersect, using technical means that.

According to the first aspect of the present invention, the water to be treated flowing in the pipe is branched into a plurality of pipes having a diameter smaller than that of the pipe, and is passed through each pipe. The water to be treated can be magnetically treated by passing the water to be treated so as to cross the direction of the magnetic field lines of the magnetic field generated by a plurality of magnets arranged side by side with a gap in the direction.
Thereby, since a magnet can be brought close to treated water, the magnetic field which acts on treated water can be strengthened, and the efficiency of magnetic treatment can be improved.
Further, since the magnet does not come into contact with the water to be treated, it is possible to prevent the magnet from being deteriorated by corrosion due to the water flowing through the piping, and the magnet components from being eluted.
In the magnetic water treatment apparatus of the present invention, since the water flow path is a pipe and the flow resistance can be reduced, the flow rate of the water to be treated can be increased, so that the efficiency of the magnetic treatment is improved. Can do.
In addition, in magnetic treatment, it is known that it is effective to improve efficiency to irradiate water to be treated with pulses of magnetic force. However, in the magnetic water treatment apparatus of the present invention, a plurality of magnets have gaps. Since they are arranged side by side, the water to be treated crosses the magnetic field lines each time it passes through a pair of magnets adjacent in the direction of water flow. As a result, the water to be treated is magnetically processed by the magnetic force lines intersecting with the water flow direction acting in a pulse manner, and the efficiency of the magnetic treatment can be improved.
Furthermore, since the structure is simple, the cost can be reduced.

According to a second aspect of the present invention, in the magnetic water treatment apparatus according to the first aspect, a technical means is used in which the plurality of magnets are magnetized in a direction substantially parallel to the water flow direction.

As the invention according to claim 2, a magnet magnetized in a direction substantially parallel to the water flow direction can be used. According to this, the magnetic field in the water flow direction can be strengthened, and the magnetic field in the direction intersecting the water flow direction can also be strengthened by the interaction with the adjacent magnet.

According to a third aspect of the present invention, in the magnetic water treatment apparatus according to the first aspect, a technical means is used in which the plurality of magnets are magnetized in a direction substantially perpendicular to the water flow direction.

As the invention according to claim 3, a magnet magnetized in a direction substantially perpendicular to the water flow direction can be used. According to this, since the magnetic field in the direction substantially perpendicular to the water flow direction can be strengthened, the efficiency of the magnetic treatment can be improved.

According to a fourth aspect of the present invention, in the magnetic water treatment apparatus according to any one of the first to third aspects, the plurality of magnets have polar surfaces facing each other adjacent to each other in the water flow direction. The technical means of being arranged so as to have the same polarity is used.

As in the invention described in claim 4, by arranging a plurality of magnets so that opposing pole faces of magnets adjacent to each other in the direction of water flow are the same pole, the direction of the lines of magnetic force is passed in the direction perpendicular to the water direction. Since it can be deflected, the magnetic field in the direction intersecting the water flow direction can be strengthened, so that the efficiency of the magnetic treatment can be improved.

According to a fifth aspect of the present invention, in the magnetic water treatment device according to the third aspect of the present invention, the plurality of magnets are arranged such that the pole surfaces facing each other adjacent to each other in the direction perpendicular to the water flow direction are the same. The technical means of being arranged is used.

As in the fifth aspect of the invention, a plurality of magnets magnetized in a direction substantially perpendicular to the water flow direction are arranged so that the opposing pole faces of the magnets adjacent to each other in the vertical direction of the water flow direction have the same polarity. Since the magnetic field in the direction intersecting with the water flow direction can be strengthened by arranging in the position, the efficiency of the magnetic treatment can be improved.

It is explanatory drawing of a magnetic water treatment apparatus. 1A is a partial cross-sectional explanatory view of the magnetic water treatment apparatus, and FIG. 1B is a cross-sectional explanatory view taken along the line AA in FIG. 1A. It is a section explanatory view showing arrangement of a magnet. It is sectional explanatory drawing which shows the example of a change of arrangement | positioning of a magnet.

The magnetic water treatment apparatus of the present invention will be described with reference to the drawings. As shown in FIGS. 1 (A) and 1 (B), a magnetic water treatment apparatus 10 is disposed in the middle of a pipe 20 such as water supply, hot water supply, air conditioning, and plant equipment, and is treated water introduced from the pipe 20. The first header section 11 that branches and introduces the plurality of pipes 12, the pipe 12 through which the water to be treated is branched and passed, and the first water that is discharged from the pipes 12 is introduced into the pipe 20. 2 includes a header 13 and a plurality of magnets 14 provided through each pipe. The pipe 12 and the magnet 14 are accommodated in a cylindrical case 15.

The first header portion 11 and the second header portion 13 are hollow members through which treated water having one end connected to the pipe 20 and the other end connected to the pipe 12 is passed. The pipe 20 and the second header portion 13 are connected to the downstream pipe 20 respectively.

The pipe 12 is a circular pipe member made of stainless steel or a non-magnetic material such as polyethylene and having a diameter smaller than that of the pipe 20, one end being the first header portion 11 and the other end being the second header portion 13. Connected and provided in parallel. With the above-described configuration, the water to be treated flowing through the pipe 20 is introduced from the first header portion 11 into the magnetic water treatment device 10, branched into the pipe 12, and passed through the second header portion 13. It is discharged from the water treatment device 10 to the pipe 20. Here, since the pipe 12 is provided in the same direction as the pipe 20, the water permeability is good and the flow rate of the water to be treated can be increased.

In this embodiment, the magnet 14 is formed in a disk shape having a through hole, and a magnet whose magnetization direction is parallel to the water flow direction is used. The inner diameter of the through hole is substantially the same as the outer diameter of the pipe 12, penetrates through each pipe 12, and is fixed by being fitted. The magnet 14 is arrange | positioned along with the clearance gap in the water flow direction of to-be-processed water. According to this, the magnetic field in the water flow direction can be increased, and the magnetic field in the direction intersecting the water flow direction can be increased by the interaction with the adjacent magnet. Here, the magnet 14 is arrange | positioned so that the direction of the magnetic force line of the magnetic field which the magnet 14 generate | occur | produces, and the water flow direction of to-be-processed water may cross | intersect.

In the present embodiment, as shown in FIG. 2, the magnets 14 are arranged such that the opposing magnetic pole surfaces are the same polarity between the magnets 14 adjacent in the longitudinal direction. Thereby, since the direction of a line of magnetic force can be deflected in the direction perpendicular to the water flow direction, the magnetic field in the direction intersecting the water flow direction can be strengthened, so that the efficiency of the magnetic treatment can be improved. Since the magnets 14 are arranged side by side with a gap in the direction of water to be treated, a pair of adjacent magnets 14 can generate magnetic lines of force that intersect the direction of water flow. A plurality of intersecting magnetic field lines can be generated.

Further, in relation to the magnets 14 provided in the adjacent pipes 12, the magnets 14 are adjacent in the direction perpendicular to the water flow direction, and the opposing pole surfaces of the adjacent magnets 14 are arranged so as to have the same polarity. Has been. Also with this configuration, the magnetic field in the direction crossing the water flow direction can be strengthened, so that the efficiency of the magnetic treatment can be improved. However, when the magnet 14 is thin, there is no significant difference from the case where the magnets 14 are arranged so as to have different polarities, and the arrangement is not limited to this arrangement.

The shape of the magnet 14 is not limited to a disk shape, and, for example, a block shape or a square plate shape magnet may be used. Moreover, the fixing method of the magnet 14 is not limited to fitting, For example, it can also fix with an adhesive agent.

When the water to be treated is passed through the magnetic water treatment apparatus 10 having the above-described configuration, the water is branched from the first header portion 11 to the pipe 12 and passed. Since the magnetic lines of force that intersect the water flow direction are generated in the pipe 12 by the magnets 14, the water to be treated crosses the magnetic lines of force each time it passes through a pair of adjacent magnets. As a result, the water to be treated is magnetically treated by the pulse of magnetic lines intersecting the water flow direction.

Magnetically treated water changes red rust (Fe ₂ O ₃ ) to stable black rust (Fe ₃ O ₄ ), thus preventing red water due to the occurrence of red rust in the pipe and further pipe corrosion. Can be suppressed. Also, the magnetically treated water has the effect of preventing the scale from adhering to the piping and removing the scale. Thus, the magnetic water treatment apparatus 10 can be suitably used for preventing red rust generation and scale adhesion of the piping 20 such as water supply, hot water supply, air conditioning, and plant equipment.

(Example of change)
As the magnet 14, a magnet that is magnetized in a direction perpendicular to the water flow direction can also be used. According to this, since the magnetic field in the direction perpendicular to the water flow direction can be strengthened, the efficiency of the magnetic treatment can be improved. For example, as shown in FIG. 3A, the opposing pole faces of the magnets 14 adjacent to each other in the water passage direction are the same, and the opposite pole faces of the magnets adjacent to each other in the vertical direction of the water passage direction. Can be arranged to have the same polarity. According to this, since the magnetic field in the direction intersecting the water flow direction can be strengthened, the efficiency of the magnetic treatment can be improved.
Further, as shown in FIG. 3B, the magnets 14 may be arranged so that the opposing pole faces of adjacent magnets 14 are different in the magnetization direction, or the magnetization direction can be tilted without facing to each other. .

The arrangement of the magnets 14 can be appropriately selected including the number of the magnets 14 as long as they are arranged so that the direction of the magnetic field lines of the magnetic field generated by the magnets 14 intersects the direction of water flow of the water to be treated.
Further, in FIG. 1, a configuration including 12 pipes 12 is disclosed, but the number, diameter, arrangement interval, and the like of the pipes 12 are design matters, and should be set as appropriate using analytical or experimental methods. Can do.

[Effects of embodiments for carrying out the invention]
According to the magnetic water treatment apparatus 10 of the present invention, the water to be treated flowing in the pipe 20 is branched into a plurality of 12 pipes having a diameter smaller than that of the pipe 20, and is provided through each pipe 12. The water to be treated is magnetically treated by passing the water to be treated in a direction intersecting with the direction of the magnetic field lines of the magnetic field generated by the plurality of magnets 14 arranged side by side with a gap in the direction of the water to be treated. can do.
Thereby, since the magnet 14 can be brought close to the water to be treated, the magnetic field acting on the water to be treated can be strengthened, and the efficiency of the magnetic treatment can be improved.
Further, since the magnet does not come into contact with the water to be treated, it is possible to prevent the magnet from being deteriorated by corrosion due to the water flowing through the piping, and the magnet components from being eluted.
In the magnetic water treatment apparatus 10 of the present invention, the water flow path is the pipe 12, and since the water flow resistance can be reduced, the flow rate of the water to be treated can be increased, thereby improving the efficiency of the magnetic treatment. Can be made.
Since the plurality of magnets 14 are arranged side by side with a gap therebetween, the water to be treated crosses the magnetic field lines each time it passes through a pair of magnets 14 adjacent in the water flow direction. As a result, the water to be treated is magnetically processed by the magnetic force lines intersecting with the water flow direction acting in a pulse manner, and the efficiency of the magnetic treatment can be improved.
Furthermore, since the structure is simple, the cost can be reduced.
By setting the magnetization direction, arrangement, and the like of the magnet 14 to preferable conditions, a further excellent effect can be obtained.

10 magnetic water treatment device 11 first header part (first header part)
12 Pipe 13 Second header part (second header part)
14 Magnet 20 Piping

Claims (5)

A plurality of pipes having a diameter smaller than that of the pipe through which the water to be treated flowing in the pipe branches and flows;
One end is connected to one end of the plurality of pipes, the other end is connected to the pipe, and a first header part for branching and introducing the water to be treated introduced from the pipe into the plurality of pipes;
One end is connected to the other end of the plurality of pipes, the other end is connected to the pipe, and a second header part that introduces the water to be treated discharged from the plurality of pipes into the pipe;
A plurality of magnets that are provided through the pipes and arranged side by side with a gap in the direction of water to be treated;
The magnetic water treatment apparatus, wherein the plurality of magnets are arranged so that a direction of a magnetic force line of a magnetic field generated by the magnets intersects a water flow direction of the water to be treated. The magnetic water treatment apparatus according to claim 1, wherein the plurality of magnets are magnetized in a direction substantially parallel to a water flow direction. The magnetic water treatment apparatus according to claim 1, wherein the plurality of magnets are magnetized in a direction substantially perpendicular to the water flow direction. 4. The magnetism according to claim 1, wherein the plurality of magnets are arranged so that opposing pole faces of magnets adjacent to each other in the water flow direction are the same pole. 5. Water treatment equipment. The magnetic water treatment apparatus according to claim 3, wherein the plurality of magnets are arranged such that opposing pole faces of magnets adjacent to each other in a direction perpendicular to the water flow direction are the same.

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