JP2009220037A - Reduction apparatus, and method of making magnetic water using the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a reduction apparatus used for reducing a target substance, and a method of making magnetic water using the same. <P>SOLUTION: The reducing apparatus is equipped with a placing stand 20 for placing a PET bottle 30 and a rotary magnetic field-generating part 10 for reducing the water A in the PET bottle by a rotary magnetic field. The rotary magnetic field-generating part has the respective phase coils 11a and 11b fixed on the placing stand in two stages upper and lower and a power supply 12 for generating the respective currents flowing through the respective phase coils for the purpose of generating the rotary magnetic field in the respective phase coils. Water being the target substance is reduced using the reducing apparatus to make magnetic water. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a reduction apparatus used for reducing an object and a magnetic water production method using the apparatus.

  By magnetically treating tap water, the cluster value decreases, activation increases, permeability, fluidity and solubility increase, red rust prevention of water pipes, human health promotion by using as drinking water, It is well known that many other effects can be obtained, such as improving the taste of food and reducing the amount of detergent used during washing.

  The magnetic water having such an effect is generally generated using a permanent magnet (for example, there is Patent Document 1).

JP 11-253961 A

  However, in the case of the above conventional example, a strong reduction action cannot be obtained with a general permanent magnet. Therefore, magnetic water (reduced water) having an oxidation reduction potential (ORP) of 250 mV or less is generated. Is difficult. Moreover, depending on the mineral components contained in the tap water, it is essential to adjust the magnetic force of the permanent magnet, but it is difficult to make this adjustment easily, which is a major factor in increasing costs. .

  The present invention was created under the above-described background, and the object of the present invention is to provide a reduction device that can provide a powerful reduction action and can be easily adjusted, and a magnetic device using the same. It is to provide a water production method.

  A reduction device according to the present invention includes a rotating magnetic field generation unit that generates a rotating magnetic field for reducing an object, and the rotating magnetic field generation unit flows in a tank or an object in which the object is placed. Each phase coil is arranged in an annular shape around the tube, and a power source that generates each current flowing in the coil to generate a rotating magnetic field by each phase coil.

  Preferably, with respect to the rotating magnetic field generator, the paired coil groups formed of opposed phase coils are excited so that the magnetic poles are opposite to each other, and then one side of the paired coil group is energized. It is preferable that the adjacent coil group is excited in the same manner, and thereafter the excitation of the coil group is sequentially switched repeatedly.

  According to such an invention, a rotating magnetic field generated by each phase coil causes vibration of composition molecules of the object or collision between clusters, and a strong reduction action is obtained accordingly. In addition, it is possible to easily adjust the reducing action on the object by changing the magnitude, frequency, waveform, etc. of the current flowing through each phase coil, the magnitude of the voltage applied to each phase coil, and the like.

  Preferably, the rotating magnetic field generation unit may further include a mounting table for mounting the tank surrounded by the phase coils.

  According to the present invention, when the rotating magnetic field generation unit is operated with the tank placed on the mounting table, the object placed in the tank is reduced. In other words, the object in the tank is reduced as it is, and it is not necessary to take the object in and out of the tank. Therefore, the reduction work can be performed efficiently, and further cost reduction can be achieved in this respect. It becomes possible to plan.

  A method for producing magnetic water according to the present invention is a method of changing magnetic water by magnetically treating water, wherein the magnetic water is produced by reducing water as an object using the reducing device. .

  According to the present invention, the rotating magnetic field generated by each phase coil causes vibrations of water molecules, collisions between clusters, etc., and the degree of clustering is reduced, and accordingly, a strong reducing action is obtained. The water in the tube turns into magnetic water. Further, as described above, the reducing action can be easily adjusted, and the cost of magnetic water can be reduced.

  Hereinafter, embodiments of the present invention will be described with reference to FIGS. 1 is a schematic side view of the reduction device, FIG. 2 is a partial plan view of the device, FIG. 3 is a perspective view of a phase coil of the device, FIG. 4 is a block configuration diagram of a power source of a rotating magnetic field generation unit of the device, FIG. 5 is a circuit diagram of a drive circuit unit of the same power source, FIG. 6 is a timing chart of a pulse signal output from the pulse generation unit of the same power source, and FIG. 7 is a diagram of each phase coil for explaining an excitation sequence of each phase coil. FIG. 8 is a graph showing a temporal change in the oxidation-reduction potential of magnetic water generated by the apparatus.

  As shown in FIG. 1, the reduction device exemplified here is a device that produces magnetic water by reducing water A as an object, and generates a rotating magnetic field for reducing water A. A magnetic field generator 10 and a mounting table 20 for mounting a plastic bottle 30 as a tank for containing water A are provided.

  In the present embodiment, the mounting table 20 is a printed circuit board, and the phase coils 11a and 11b of the rotating magnetic field generator 10 are mounted on the top and bottom in two stages. A central position α on the surface of the mounting table 20 is a portion on which the plastic bottle 30 is mounted. When the plastic bottle 30 is placed at the center position α of the placing table 20, the side surface is surrounded by the phase coils 11a and 11b.

  The rotating magnetic field generator 10 generates a rotating magnetic field by the phase coils 11a and 11b attached on the surface of the mounting table 20 as shown in FIG. 2 and the phase coils 11a and 11b as shown in FIG. And a power source 12 for generating currents flowing through the phase coils 11a and 11b.

  Each phase coil 11a is an electromagnet group having a total of twelve phase coils 111a to 122a, and is annularly arranged at a pitch interval of 30 degrees with reference to the plastic bottle 30 placed at the center position α of the placement table 20. Each tip side is directed toward the upper side of the side surface of the plastic bottle 30.

  For the phase coil 111a, as shown in FIG. 3, a coil 1111a in which a coil wire is wound in a cylindrical shape, a core 112a that is an iron core attached to the rear end side of the coil 1111a, and a bobbin 1113a for attachment are provided. It has a structure. The phase coils 112a to 122a have the same structure as the phase coil 111a.

  Each phase coil 11b has the same configuration as each phase coil 11a. That is, each phase coil 11b is an electromagnet group having a total of twelve phase coils 111b to 122b, and is arranged on the surface of the mounting table 20 in an annular shape with the same phase as each phase coil 11a. The side is directed to the lower side of the side surface of the plastic bottle 30.

  As shown in FIG. 4, the power supply 12 includes a switch unit 121 such as a push button, a pulse generation unit 122 having a function of generating pulse signals OUT1, 2, 3 (see FIG. 6), and a pulse generation unit 122. And a drive circuit unit 123 that generates the respective currents for exciting the respective phase coils 11a and 11b by switching with the pulse outputs OUT1, 2, and 3 output from.

  In the figure, reference numeral 124 denotes a display for displaying the pulse width T (see FIG. 6) of the pulse signals OUT1, 2, 3 connected to the pulse generator 122.

  The switch unit 121 includes an on / off switch, an up / down switch for setting the pulse width T of the pulse signals OUT 1, 2, 3, and the like, and is connected to the input side of the pulse generator 122.

  The pulse generator 122 is a microcomputer in which software necessary for periodically outputting pulse signals OUT1, 2, and 3 having phases as shown in FIG. The function of changing the pulse width T of the pulse signals OUT 1, 2, 3 in accordance with the setting of, and the function of outputting the set value to the display 124 are included.

  As shown in FIG. 5, the drive circuit unit 123 includes FETs 1, 2, 3 that are switched using pulse signals OUT 1, 2, 3 as input, and FETs 1, 2, 3 and the DC coils connected to the phase coils 11 a, b. A voltage power supply PS1;

  Phase coils 111a and 111b, phase coils 114a and 114b, phase coils 117a and 117b, and phase coils 120a and 120b are connected to the drain side of the FET1, respectively. For convenience, these coils will be referred to as a pair coil group A. The phase coils 111a, b and the phase coils 117a, b are opposed to each other, and the phase coils 114a, b and the phase coils 120a, b are connected so that their polarities are opposite to each other. That is, when the FET 1 is turned on, the anti-coil group A is excited, but the magnetic poles are opposite to each other between the opposed phase coils (see FIG. 7).

  Phase coils 112a and 112b, phase coils 115a and 115b, phase coils 118a and 118b, and phase coils 121a and 121b are connected to the drain side of FET2. For convenience, these coils will be referred to as a pair coil group B. The phase coils 112a and b and the phase coils 118a and 118b, which are opposed to each other, and the phase coils 115a and 115b and the phase coils 121a and 121b are connected so as to have opposite polarities. That is, when the FET 2 is turned on, the anti-coil group B is excited, but the magnetic poles are opposite to each other between the phase coils facing each other.

  Phase coils 113a and 113b, phase coils 116a and 116b, phase coils 119a and 119b, and phase coils 122a and 122b are connected to the drain side of the FET 3, respectively. For convenience, these coils will be referred to as a pair coil group C. The phase coils 113a, b and the phase coils 119a, b are opposed to each other, and the phase coils 116a, b and the phase coils 122a, b are connected so that their polarities are opposite to each other. That is, when the FET 3 is turned on, the anti-coil group C is excited, but the magnetic poles are opposite to each other between the facing phase coils.

  When turned on through the switch unit 121, the pulse generator 122 operates to sequentially generate pulse signals OUT1, 2, 3 as shown in FIG. Are sequentially input, and pulsed currents sequentially flow through the phase coils 11a and 11b to be excited. As a result, in each phase coil 11a, 11b, after the pair coil group A is excited, the pair coil group B located next to one side of the pair coil group A is excited, and then the one side of the pair coil group b is excited. The adjacent coil group C is excited. Thereafter, the excitation of the pair coil groups A, B, and C is sequentially and repeatedly switched as described above.

  Thus, the excitation sequence of each phase coil 11a, 11b is as shown in FIG. 7, and the rotating magnetic field generated by each phase coil 11a, 11b rotates in the β direction in the figure, and through this rotating magnetic field, water A The energy for reducing is given.

  When turned off through the switch unit 121, the switching operation of the pulse generator 122 is stopped, the output of the pulse signals OUT1, 2, 3 is stopped, and the generation of the rotating magnetic field by the phase coils 11a, 11b is also stopped.

  Further, when the pulse width T of the pulse signals OUT1, 2, 3 is adjusted through the switch unit 21, the on / off ratio of the pulse signals OUT1, 2, 3 is adjusted, and through this, the excitation time of the phase coils 11a, 11b is adjusted. As a result, the energy for reducing the water A is adjusted.

  In the case of the reducing device configured as described above, the rotating magnetic field generated by the phase coils 11a and 11b causes vibrations of water molecules constituting the water A in the PET bottle 30, collisions between clusters, and the like. Along with this, a strong reducing action is obtained and magnetically processed.

  In particular, when the pair coil groups A, B, and C of the phase coils 11a and 11b are sequentially excited, the opposite magnetic poles of the opposed phase coils have the same polarity (N pole in this embodiment), and the PET bottle 30 Since a large repulsive force is generated in the vicinity of, it is presumed that this point is also an important point for obtaining a strong reducing action.

  When the experiment was actually performed using the same apparatus, the following results were obtained. That is, when tap water (pH: 6.8, oxidation-reduction potential (ORP): 575 to 600 mV) was used as a raw material and magnetic water was generated by continuously operating the apparatus for 30 minutes, no change in pH was observed. After 30 minutes, the ORP dropped to 259 mV as shown in FIG. After that, it is confirmed that the state is stopped up to 249 mV and no significant change is observed in this state. The magnetic force on the center of each phase coil 11a, 11b was set to 1000 gauss, and the rotational speed of the rotating magnetic field was set to 700 rpm.

  Since such an experimental result has been obtained, if adjustments such as changing the magnitude of the voltage or current applied to each phase coil 11a, 11b or changing its frequency or waveform are made, ORP of water is performed. It can be considered that it is sufficiently feasible to make the value minus.

  Further, since the continuous operation time, the energy of the rotating magnetic field and the like can be set through the switch unit 121, the reduction action can be easily adjusted, which is very convenient in this respect. Furthermore, since a rotating magnetic field can be obtained with three FETs, the configuration of the apparatus can be simplified.

  In the reduction device and the magnetic water production method according to the present invention, not only is the water changed to magnetized water in a state where the water is stored in the tank, but also each phase coil is arranged around the pipe through which the water flows, It may be changed to magnetized water in a state where the water flows. Further, the object to be reduced can be similarly applied not only to water but also to wine and miso. Further, the number and arrangement of the phase coils may be appropriately changed in design, and the rotating magnetic field generator may be an alternating current instead of a direct current. In order to generate a rotating magnetic field by each phase coil, the same coil may be used. Any configuration may be used as long as each current to be generated is generated.

It is a figure for demonstrating embodiment of this invention, Comprising: It is a typical side view of a reduction | restoration apparatus. It is a partial top view of the same apparatus. It is a perspective view of the phase coil of the apparatus. It is a block block diagram of the power supply of the rotating magnetic field generation part of the same apparatus. It is a circuit diagram of the drive circuit part of the same power supply. It is a timing chart of the pulse signal output by the pulse generation part of the same power supply. It is a schematic diagram of each phase coil for demonstrating the excitation sequence of each phase coil. It is a graph which shows the time change of the oxidation reduction potential of the magnetic water produced | generated by the same apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Rotating magnetic field generating part 11a 11b Each phase coil 12 Power supply 121 Switch part 122 Pulse generating part 123 Drive circuit part 20 Mounting base
30 PET bottles (tanks)
A water (object)

Claims (4)

A rotating magnetic field generating unit that generates a rotating magnetic field for reducing the object is provided, and the rotating magnetic field generating unit is arranged in an annular shape around a tank containing the object or a pipe through which the object flows. A reduction device comprising: a phase coil; and a power source that generates currents that flow through the coils in order to generate a rotating magnetic field by the phase coils. 2. The reduction device according to claim 1, wherein the rotating magnetic field generation unit excites a pair of coil groups composed of phase coils arranged to face each other so that the magnetic poles are opposite to each other, and then A reduction device characterized in that a pair of coil groups located adjacent to one side of the coil group are excited in the same manner, and thereafter the excitation of the pair of coil groups is sequentially and repeatedly switched. The reduction apparatus according to claim 1, wherein the rotating magnetic field generation unit further includes a mounting table for mounting the tank surrounded by the phase coils. In the magnetic water production method of changing magnetic water by magnetically treating water, magnetic water is produced by reducing water as an object using the reducing device according to claim 1, 2 or 3. Magnetic water production method.

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