JP2017094226A - Water treatment equipment and water treatment method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide water treatment equipment and a water treatment method capable of obtaining high cluster subdivision performance.SOLUTION: Water treatment equipment A includes a first magnetic generator 60 for applying a magnetic field to water flowing in a pipeline 20 along the pipeline 20 as a passage, an ultrashort-wave generator 70 arranged on the downstream of the first magnetic generator 60 in the pipeline 20, for irradiating the water in the pipeline 20 with an ultrashort wave, and a second magnetic generator 80 arranged on the downstream of the ultrashort-wave generator 70 in the pipeline 20, for applying a magnetic field to the water in the pipeline 20.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a water treatment apparatus and a treatment method for performing treatment including water magnetization.

In general, water such as tap water and groundwater contains several types of ions such as calcium ions and sodium ions, and these ions are usually surrounded by water molecules that are bound together by hydrogen bonds (water). Molecular population).
In addition, it is known that water containing such clusters is magnetized and the clusters are subdivided to increase water dissolving power and penetrating power (see, for example, Patent Document 1).

In this conventional technology, a magnetizing device that includes a pair of magnets and applies a magnetic field to water passing through the flow path is provided at a plurality of constrictions provided along the flow of the water flow path, so as to subdivide the cluster. I am doing so.
And, the treated water with the cluster subdivided in this way can dissolve the red rust adhering to the water pipe and the like, and prevent the corrosion of the iron material. It is said to be delicious.

JP 2000-218277 A

  However, as described above, in a magnetizing device that simply applies a magnetic field to water, in order to subdivide the cluster, it is necessary to arrange a large number of magnets that apply the magnetic field along the flow path. Further, there is a limit to the segmentation of clusters using only the magnetic field of the magnetizing device, and it has been difficult to obtain sufficient segmentation performance.

  The present invention has been made paying attention to the above problems, and an object thereof is to provide a water treatment apparatus and a water treatment method capable of obtaining high cluster fragmentation performance.

  In order to achieve the above object, a water treatment apparatus of the present invention is disposed along a flow path, a magnetic generator that applies a magnetic field to water flowing through the flow path, a downstream of the magnetic generator, A water treatment apparatus comprising: an ultrashort wave generator that irradiates water with ultrashort waves.

In the water treatment apparatus of the present invention, the water flowing through the flow path is accelerated by the magnetic generator, and after the molecular bonds of the water molecular aggregate are weakened by the magnetic potential generator, the molecular aggregate is generated by the ultrashort wave of the ultrahigh frequency generator. It is subdivided by the collision of each other.
In this way, since the molecular assembly is subdivided by colliding with the ultrashort wave of the ultrashort wave generator, the finer subdivision can be performed more efficiently and efficiently than in the case of subdividing only by the magnetic field of the magnetic generator. Can be planned.

It is a perspective view which shows the external appearance of the water treatment apparatus of Embodiment 1. FIG. It is structure explanatory drawing which shows the internal structure of the water treatment apparatus of Embodiment 1. FIG. It is an effect explanatory view showing an operation of the water treatment device of Embodiment 1.

  Hereinafter, the best mode for realizing the water treatment apparatus of the present invention will be described based on Embodiment 1 shown in the drawings.

(Configuration of the embodiment)
First, the structure of the water treatment apparatus A of Embodiment 1 is demonstrated.
1 is a perspective view showing a water treatment apparatus A according to Embodiment 1. FIG.

  The water treatment apparatus A supplies, for example, a main body 10 covered with a metal cover 11, an introduction pipe 12 that introduces pre-treatment water such as tap water into the main body 10, and treated water that is treated water. And a faucet 13.

  Next, the internal structure of the main body 10 will be described based on a structural explanatory diagram conceptually showing the internal structure of the main body 10 in FIG.

  Inside the main body 10, a pipe line 20 that forms a flow path from the introduction pipe 12 to the faucet 13 is provided. A flow switch 30, a filter 40, an ultraviolet sterilizer 50, a first magnetic generator 60, an ultrahigh frequency generator 70, and a second magnetic generator 80 are provided along the pipeline 20 in order from the upstream side. The pipe 20 can secure a flow rate of about 30 L / min with the faucet 13 opened to the maximum.

  The flow switch 30 is a switch that opens when the faucet 13 is opened and closes when the water flow is generated in the pipe line 20 and can be energized, and closes the faucet 13 and opens when the water flow in the pipe line 20 is stopped to cut off the power supply. . The flow switch 30 is interposed between the AC power source E and an ultraviolet sterilizer 50 and an ultrashort wave generator 70, which will be described later. The flow switch 30 is closed when a water flow in the pipe 20 is generated, and the ultraviolet sterilizer 50 and the ultrashort wave are generated. The apparatus 70 is automatically operated and opened when the water flow in the pipe line 20 is stopped, and the ultraviolet sterilizer 50 and the ultrashort wave generator 70 are automatically stopped.

The filter 40 is a filter formed of a nonwoven fabric or the like disposed across the pipe line 20 and removes coarse dust.
The ultraviolet sterilizer 50 is disposed immediately after the filter 40 and sterilizes by irradiating the water in the pipe line 20 with ultraviolet rays.

The first magnetism generator 60 is composed of, for example, a pair or a plurality of pairs of magnets (permanent magnets) in which the N pole and the S pole, or the N pole and the N pole are arranged so as to face each other with the duct 20 interposed therebetween. Three magnetic generators 61, 62, and 63 are arranged in series. An electromagnet can also be used as the magnet.
By applying a magnetic field generated by the first magnetism generator 60 to the water flow, the water molecules in the pipe line 20 are ionized, and positive ions and negative ions form dipoles to accelerate the potential movement of the ions. It weakens the bond of (molecular group of water).

  The ultrahigh frequency generator 70 is an apparatus that generates an ultrahigh frequency within a range of 430 to 2450 MHz when energized. In the first embodiment, an ultrahigh frequency of 2450 MHz is generated. Furthermore, in the first embodiment, the ultrashort wave generator 70 irradiates the ultrashort wave toward the inside of the case 71. The case 71 is made of a metal such as iron, and is formed by joining a pair of bottomed cylindrical members 71a and 71a having an elliptical cone shape on the large diameter side.

  Further, a spiral portion 21 in which the conduit 20 is spirally arranged is accommodated in the case 71. That is, the ultrahigh frequency generator 70 irradiates the water in the spiral portion 21 with the above-described ultrahigh frequency of 2450 MHz when energized.

  The second magnetic generator 80 is constituted by a magnetic generator similar to that used in the first magnetic generator 60 described above, and is used as a charge imparting device that gives charges to water molecules in the pipe line 20.

(Operation of the embodiment)
Next, the operation of the water treatment apparatus of the embodiment will be described.
When the faucet 13 is opened, water flows in the direction of the arrow F in FIG.
And the flow switch 30 is closed by this water flow generation, and the ultraviolet sterilizer 50 and the ultra-short wave generator 70 start operation.
Thus, the water flowing through the pipe line 20 is first sterilized by removing ultraviolet dust from the filter 40 and then sterilized by being irradiated with ultraviolet rays from an ultraviolet sterilizer 50 disposed immediately after the filter 40.

  Thereafter, the water flowing through the pipe line 20 is magnetized by the first magnetism generator 60 so that the molecules form a dipole with positive ions and negative ions as shown in FIG. Thus, the potential transfer is accelerated and the coupling is weakened.

In this way, the water in a state where the molecular bonds in the cluster (molecular group of water) are weakened is irradiated with the ultra high frequency by the ultra high frequency generator 70.
At this time, the water molecules irradiated with the ultrashort wave rotate in the negative direction when the wavelength is positive, and rotate in the positive direction when the wavelength is negative. The direction of the wavelength (plus or minus) changes 2,450 million times per second, so the molecules of water (the molecular group of water) break up when the molecules of ionic water rotate and collide with each other. , The number of water molecules that make up the molecular population will be significantly reduced and nanosized.

Further, at this time, in the case 71 of the ultrahigh frequency generator 70, the pipe line 20 is provided with the spiral portion 21, and the direction of water flow in the pipe line 20 changes relative to the irradiation direction of the ultra high frequency wave by changing 360 degrees. Rotational motion of the water molecules and mutual collision are promoted.
In addition, in the spiral portion 21, compared to the case of the straight pipe shape, the time that the water flowing through the pipe line 20 stays in the irradiation range of the ultrashort wave of the ultrashort wave generating device 70 becomes longer, and the above-described cluster collisions Subdivision is further promoted.

In addition, when bacteria are contained in the water due to the irradiation of the ultra-short wave with respect to the water in the pipe line 20, the protein in the bacterial body is decomposed (polar rotation motion and nonpolar thermal motion), thereby changing the properties of the protein. Losing activity as a living thing. Thereby, water can be sterilized. Also in this sterilization, since water flows through the spiral part 21, the irradiation time of the ultra-short wave becomes long, and the sterilization effect is enhanced.
As described above, since the fragmentation performance and the sterilization performance are enhanced in the spiral portion 21, even if a maximum water flow of 30 L / min flows through the pipe line 20 as in the present embodiment, the above segmentation is performed. Performance and sterilization performance can be obtained.

  Thereafter, the water molecules exiting the case 71 of the ultrahigh frequency generator 70 are given a charge by the second magnetism generator 80, thereby stabilizing the charge of the water molecules, thereby subdividing the above water molecule population. The nanonized state can be stably maintained.

  In addition, since the treated water by the water treatment apparatus A in which the water molecular group is subdivided into nano-sizes as described above is excellent in permeability, it is excellent in absorption effect in animals and plants, and is also free of bacteria by the sterilization action. The effect of suppressing the breeding of is obtained.

According to the experiment conducted by the applicant of the present application, when the treated water described above was administered to plants as agricultural water, the growth rate of the plants was significantly improved compared to tap water. Also, for animals, penetration into cells and blood is accelerated, and metabolism is activated.
Moreover, when the above-mentioned treated water was used for washing or washing water, the degree of dirt removal was improved as compared with tap water.
Further, when the treated water was used for tea, coffee, soup, etc., the extraction amount of tea, coffee, soup was improved as compared with tap water.

(Effect of Embodiment 1)
In the water treatment apparatus of the first embodiment, the effects listed below can be obtained.
1) The water treatment apparatus of Embodiment 1 is
Along the pipeline 20,
A first magnetic generator 60 for applying a magnetic field to water flowing in the pipe line 20;
An ultrahigh frequency generator 70 disposed downstream of the first magnetic generator 60 and irradiating the water of the pipe line 20 with the ultrahigh frequency;
It is characterized by providing.
Therefore, the water flowing through the pipe line 20 is accelerated by the magnetic field of the first magnetic generator 60 and the molecular bond of the water molecular aggregate is weakened. Is subdivided by molecular collision.
As described above, since the molecular aggregates of water are made to collide by the ultrashort wave of the ultrashort wave generation device 70 and the water molecular aggregate is subdivided, the subdivision can be performed more efficiently and finely than the case of subdividing only by the magnetic generation device. be able to.
Thereby, even if it is a comparatively large amount of water of 30 L / min, the molecular assembly of water can be reliably subdivided.

2) The water treatment method of Embodiment 1 is
It is characterized by irradiating the ultra-short wave after applying a magnetic field to the water flowing through the pipe line 20.
Therefore, as in 1) above, the molecular aggregate of water can be subdivided more efficiently and efficiently than in the case of subdividing only by the magnetic generator.

3) The water treatment apparatus of Embodiment 1 is
A second magnetic generator 80 for applying a magnetic field to the water in the pipe 20 is further provided downstream of the ultrashort wave generator 70 in the pipe 20.
The charge of water molecules is stabilized by the charge applied by the second magnetism generator 80, so that the nanonized state in which the molecular group of water is subdivided can be stably maintained.
In general, when the water molecular group is subdivided and then the water is boiled, it is said that the subdivided molecular groups recombine with each other. However, the water subjected to the treatment of Embodiment 1 is boiled. Was able to maintain a fragmented state.

4) The water treatment apparatus of Embodiment 1
A case 71 that covers the irradiation region of the ultrashort wave of the ultrashort wave generator 70;
The pipe line 20 is characterized in that a spiral part 21 having a spiral shape with the direction along the irradiation direction of the ultrashort wave as an axis is provided in the case 71.
Therefore, for example, compared with what irradiates an ultrashort wave so that it may cross the pipe line 20 from the orthogonal direction of the pipe line 20, the irradiation time of an ultrashort wave can be lengthened.
Therefore, it is possible to ensure the fragmentation performance and sterilization performance of the water molecular aggregate, which is the effect of irradiating the ultrashort wave, while using the small ultrashort wave generator 70.

5) The water treatment apparatus of Embodiment 1
Since the ultraviolet ray sterilization apparatus 50 is provided in the pipe line 20, the water in the pipe line 20 can be sterilized by irradiating the ultraviolet ray.

6) The water treatment apparatus of Embodiment 1
The flow switch 30 is provided in the pipeline 20, and the ultraviolet sterilizer 50 and the ultrashort wave generator 70 are automatically operated when the faucet 13 is opened.
Therefore, a switching operation by a person is unnecessary, and it is easy to use.

As mentioned above, although the water treatment apparatus of this invention has been demonstrated based on embodiment, about a concrete structure, it is not restricted to this embodiment, The summary of the invention which concerns on each claim of a claim As long as they do not deviate, design changes and additions are permitted.
For example, in the embodiment, the filter 20, the ultraviolet sterilizer 50, the first magnetism generator 60, the ultrashort wave generator 70, and the second magnetism generator 80 are arranged in this order in the pipe line 20. If the first magnetism generator 60 and the ultrashort wave generator 70 are provided, the desired effect of subdividing the water molecular aggregate can be achieved.

  Further, in the embodiment, in the ultrashort wave generating device, the ultrashort wave is irradiated to the spiral portion of the pipe line, but the structure of the pipe line in this part is not limited to this. For example, in place of the spiral portion, the pipe line may have a plurality of folded structures such as a radiator, so that the irradiation time can be lengthened and the irradiation direction of the ultrashort wave with respect to water molecules can be relatively displaced. . Or it is not limited to what has a structure which lengthens a path so that the irradiation time of such an ultrashort wave may be lengthened to a pipe line, and similarly to each magnetism generator, it irradiates an ultrashort wave from a direction perpendicular to a pipe line You may make it do.

  Moreover, in embodiment, although the water treatment apparatus was taken as the structure provided with the main body which opens the faucet 13 and flows water, it is not limited to this. For example, it is good also as a structure which attached the magnetic generator and the ultrashort wave generator, or another structure to the other water pipes for households.

20 Pipe 21 Spiral part 30 Flow switch 40 Filter 50 Ultraviolet sterilizer 60 First magnet generator 70 Ultra-short wave generator 71 Case 80 Second magnet generator A Water treatment device

Claims (4)

Along the water flow path
A magnetic generator for applying a magnetic field to water flowing through the flow path;
An ultra-high frequency generator that is arranged downstream of the magnetic generator and irradiates the water of the flow path with ultra-high frequency;
A water treatment apparatus comprising: The water treatment apparatus according to claim 1,
A water treatment apparatus, further comprising a second magnetic generator for applying a magnetic field to the water in the flow path downstream of the ultrahigh frequency generator in the flow path. In the water treatment apparatus according to claim 1 or 2,
A case that covers the irradiation region of the ultrashort wave of the ultrashort wave generator;
The said flow path is provided with the spiral part which comprises the spiral shape centering on the direction in alignment with the irradiation direction of the said ultrashort wave in the said case, The water treatment apparatus characterized by the above-mentioned.   A water treatment method comprising irradiating water flowing in a flow path with a super-short wave after applying a magnetic field.