JPH07124566A - Electrolysis accelerating tank for ion water making device - Google Patents

Abstract

PURPOSE:To enhance electrical safety by rotatably providing a magnet roll for applying a rotary magnetic field to an electrolysis accelerating tank for an ion water making device for supplying treated water to an electrolytic cell after cluster destruction treatment is performed and controlling the rotation of the magnetic rotor by the supply, of a current to a stator. CONSTITUTION:Tap water flows in a water purifier and the treated water from the water purifier is supplied to an electrolytic cell and a cylindrical electrolysis accelerating part (accelerator tank) 1 made of a resin in provided on the way of the supply passage of the treated water and the doughnut-shaped rotor 2 received in a plastic case is arranged rotatably outside the tank 1. A doughnut-shaped stator 3 having the same shape is arranged to the lower stage of the rotor 2 so as to leave a definite interval to the fixed to the tank 1. By supplying a current to the respective coils a...n of the stator 2 according to the command pulse from a control part 4, the angle of rotation and direction of the rotor are controlled and, with respect to the magnetic flux of the prescribed gauss of the magnet piercing the electrolysis accelerating tank, the piercing direction is hourly changed by the rotation of the rotor and cluster destruction of a water molecule structure is effectively achieved.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrolytic accelerating tank for destroying clusters (strong molecular bonds of a large number of water molecules in a normal state) in an ion water generator, and more specifically, cluster destruction by a rotating magnetic field using a magnet The present invention relates to a magnet type electrolysis promoting tank.

[0002]

2. Description of the Related Art FIG. 2 is a block diagram of a conventional ionized water generator. When tap water from the faucet passes through the water purifier 30 and flows into the accelerator tank (electrolysis accelerating tank section) 31, the control section (microcomputer) 35 turns on the drive circuit 32 and an AC electric field or a high frequency is generated between the electrodes in the accelerator 31. An electric field is applied to break the water molecule bond of the inflow water. The so-called activated inflow water is supplied to the electrolytic cell 33 because the molecular bond is broken and the recombination force is weakened by the electric field fluctuation due to the alternating current or the high frequency vibration. The control unit 35 applies an electrolysis power source 34 having a set electrolysis level between the electrodes of the electrolysis tank 33 to perform electrolysis, and generates alkaline ionized water from the cathode side (-) and acid water from the anode side (+). To do.

[0003]

However, in the prior art shown in FIG. 2, the cluster destruction as the pretreatment for electrolysis is performed by applying an alternating current or a high frequency voltage between the electrodes of the accelerator 31. Although the electrolysis efficiency of the inflow water is improved by the accelerator 31, there is a problem that the voltage application of alternating current or high frequency is limited to the unidirectional electric field between the electrodes.

The present invention has been made in view of the above-mentioned problems, and it enables effective cluster destruction from multiple directions with a simple structure of a rotating magnetic field of a magnet and with easy drive control. It is an object of the present invention to provide an electrolysis promoting tank for an ionized water generator that is electrically safe as compared with voltage application in a water stream.

[0005]

In order to achieve the above object, the present invention provides an electrolytic accelerating tank for an ion water generator, which performs a cluster destruction treatment for weakening the water molecule bond of inflowing water and then supplies the treated water to the electrolytic cell. A magnet rotor that is rotatably mounted in the electrolysis promoting tank and applies a rotating magnetic field to the inflow water,
It is characterized by comprising a stator having a plurality of exciting coils fixedly mounted on the electrolysis promoting tank, and driving means for controlling the rotation of the rotor by an exciting current to the exciting coils of the stator.

[0006]

According to the above structure, the magnetic force generated by the exciting current flowing through the exciting coil of the stator (fixed exciting portion),
The rotor is driven to rotate around the accelerator tank by the torque generated between the rotor (rotating part) and the magnetic force of the magnet (driving means). Due to the rotation of the rotor, the magnetic flux of the specified Gauss of the magnet penetrating the electrolysis promoting tank changes its passing direction every moment. The rotation of this magnetic field is controlled by the drive unit selecting a plurality of exciting coils of the stator and turning on / off the exciting current in response to a command pulse for designating and controlling the rotation angle of the rotor. The specified Gaussian magnetic flux of the magnet applied to water changes the direction of the magnetic flux to enable effective cluster destruction of the water molecule structure.

[0007]

An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a configuration diagram of an electrolysis promoting tank for an ionized water generator according to an embodiment of the present invention.

The embodiment shown in FIG. 1 is located at an intermediate position where the tap water from the water purifier 30 flows in and supplies the treated water to the electrolytic cell 33. An accelerator tank) and a donut-shaped rotor 2 (rotor 2) that is mounted so as to rotate by housing the outside of the accelerator tank 1 in a plastic case (not shown).
Is a permanent magnet magnetized so that a predetermined Gaussian magnetic flux Φ between N and S penetrates through the center of the accelerator tank 1 as shown in the figure), and is fixedly mounted on the lower stage at a constant distance from the rotor 2. A doughnut-shaped stator 3 of the same type as the rotor 2 (the stator 3 is composed of exciting coils a, b, c ... N, which are independently wound around a core as shown in the figure), and a stator 3 An exciting current is applied to each of the coils a, b, c ... N of the rotor 2 in accordance with a command pulse from the controller.
The drive unit 4 controls the rotation angle and direction of the.

Next, the operation will be described. The accelerator tank 1 of the present embodiment shown in FIG. 1 is connected to the position of the accelerator tank 31 of the conventional ionized water generator shown in FIG. 2, and the tap water filtered by the water purifier 30 flows into the accelerator tank 1. . Here, in general, when water passes through a fixed magnetic field by a permanent magnet at a certain speed, hydrogen ions and other contained ions in the water cut the lines of magnetic force, and the water is ionized to cause cluster destruction. It becomes activated water with strong penetrating power (magnetized water). On the contrary, by moving the permanent magnet instead of the fixed magnetic field in water (rotational motion etc.) and moving the magnetic field, the water can be similarly ionized and activated.

Therefore, the tap water that has flowed into the accelerator tank 1 flows through the magnetic field formed by the magnetic flux Φ of the predetermined gauss (for example, magnetic flux density of 1500 gauss) of the rotor 2 which is a permanent magnet, into the hydrogen ions of water or other water. The contained ions are ionized (magnetized) by passing at an inflow velocity to break the water molecule bond, and at the same time, the drive unit 4 which is turned on selects each exciting coil a, b, c ... N of the stator 3. The rotor 2 rotates around the accelerator tank 1 by the torque generated between the magnetic field generated by the stator 3 and the permanent magnetic field of the rotor 2 by applying an exciting current. The magnetic field applied to the inflow water due to the rotation of the rotor 2 also rotates with respect to the water ions, and the inflow water is activated and cluster-destructed. In this way, the dipole moment of water is oscillated by the synergistic effect of the activation caused by the ions cutting the magnetic flux due to the inflow velocity of the inflow water and the activation caused by the rotational movement of the magnetic field with respect to the ions. It enables more effective cluster destruction. Further, the magnetic field itself generated by the stator 3 directly contributes to the cluster destruction to some extent in addition to the drive of the rotor 2.

The rotation angle (rotation speed) and the rotation direction of the rotor 2 are controlled by the drive unit 4 selecting each of the exciting coils a to n and turning on / off the exciting current. Therefore, the coils a-b-c-n are sequentially turned on, or from the regular linear control close to the conventional accelerator such as every 180 degrees, the coils a-b-c-n.
Random rotation control such as c ... can be performed, and it is more effective to randomly shake water ions as a cluster destruction effect. These rotation controls are appropriately selected and input to the control unit (microcomputer) and sent to the drive unit 4 as command pulses.

As described above, in this embodiment, a desired Gaussian permanent magnet can be obtained as the rotor 2 at a low cost. Since the rotation speed of the rotor 2 is not high, there are advantages that the rotation control by the stator 3 is easy, a small amount of electric power is required, and power saving of the device can be achieved. Although the operation has been described so far by providing the accelerator tank 1 with the magnetic field generator, the filter of the water purifier 30 includes the magnetic field generator (the rotor 2, the stator 3).
Etc.) may be provided.

It should be noted that the accelerator tank 1 of the above embodiment may be used as a spiral tube to lengthen the time required for the water flow to pass therethrough so that more clusters are destroyed.

[0014]

As described above, according to the present invention,
A drive means in which a magnet rotor for applying a rotating magnetic field is rotatably mounted in an electrolytic promotion tank, a stator having a plurality of exciting coils is fixedly mounted in the electrolytic promote tank, and the rotor is rotationally controlled by an exciting current to the exciting coil of the stator. Since it is provided with the above structure, cluster destruction from multiple directions by a rotating magnetic field is possible, and there is an effect of having electrical safety that no voltage is applied in a water flow.

[Brief description of drawings]

FIG. 1 is a configuration diagram of an electrolysis promoting tank for an ionized water generator according to an embodiment of the present invention.

FIG. 2 is a configuration diagram of a conventional ionized water generator.

[Explanation of symbols]

 1 Accelerator tank 2 Rotor 3 Stator 4 Drive unit

Claims (1)

[Claims] 1. An electrolytic accelerating tank for an ionized water generator, in which treated water is supplied to an electrolytic cell after a cluster destruction treatment for weakening water molecule bonds of the inflowing water, is rotatably attached to the electrolytic accelerating tank. A magnet rotor for applying a rotating magnetic field, a stator having a plurality of exciting coils fixedly mounted on the electrolysis promoting tank, and a driving means for controlling the rotation of the rotor by an exciting current to the exciting coils of the stator are provided. An electrolytic accelerating tank for an ion water generator, which is characterized in that