JPH055999Y2 - - Google Patents

Description

[Detailed description of the invention] [Field of industrial application] The present invention is an alkaline ionized water generator that electrolyzes drinking water to produce alkaline ionized water and acidic water. This invention relates to a device that automatically controls the current value.

[Prior art] An alkaline ionized water generator supplies drinking water to an electrolytic cell, applies a DC voltage between the anode and cathode in the electrolytic cell, electrolyzes the drinking water, and removes the anions that collect on the cathode side. It is well known that the system is configured to obtain alkaline ionized water containing a large amount of alkaline ion water and acidic water containing a large amount of anions that gather on the anode side.

However, it has been difficult for this type of alkaline ionized water generator to maintain a constant strength in electrolysis due to changes in the drinking water supplied.

[Problems to be solved by the invention] Therefore, in order to stabilize the strength due to electrolysis, a method has been conventionally used in which the flow rate of water supplied to the electrolytic cell is quantified.

However, when the water quality changes, it is often impossible to stabilize the strength and it is not possible to obtain the electrolytic strength suitable for the purpose.

In addition, when the voltage applied to the electrodes in the electrolytic cell is reversed for scale removal, the applied voltage can be selected using a switch for changing the electrolytic strength, so there is no problem when removing scale from the electrolytic cell. Something happened.

[Object of the invention] Therefore, the object of the present invention is to provide an alkaline ionized water generator that can automatically adjust the intensity of electrolysis in order to solve the above-mentioned problems.

[Means for Solving the Problems] The present invention aims to achieve the above-mentioned purpose.Based on the fact that when a constant voltage is applied between the electrode plates in an electrolytic cell, the electric current flowing and the electrolytic strength are almost proportional, In an alkaline ionized water generator that generates alkaline ionized water and acidic water by electrolyzing drinking water by applying a DC voltage between the electrodes in an electrolytic cell to which the current is supplied, the current supplied between the electrodes is an electrolytic current detecting means for detecting, an electrolytic current adjusting means for setting a predetermined electrolytic current value, and an electrolytic current adjusting means for setting a predetermined electrolytic current value, and a value of the current supplied between the electrodes according to the detected current value and the set electrolytic current value. , and control means for controlling the electrolytic current to the predetermined electrolytic current value.

Furthermore, in a preferred embodiment of the present invention, the electrolysis current adjusting means includes a switch for arbitrarily selecting a predetermined electrolysis current value, and in response to switching of the switch, displays a display corresponding to the selected current value. It is equipped with display means for Further, when the polarity of the voltage applied between the electrodes is reversed for a predetermined time, the control means fixes the current supplied between the electrodes at a predetermined current value for the predetermined time,
Effective in removing scale.

[Operation] When drinking water is supplied to the electrolytic cell and electrolysis is performed, the electrolytic current is detected and adjusted to a predetermined current value.

Furthermore, by stopping the water flow after a certain period of time has elapsed, the current flowing to the electrolytic cell is reversely energized at a certain current value. At this time, the electrolytic current value is fixed and does not interfere with scale removal.

[Embodiment] The present invention will be described below with reference to an embodiment shown in the drawings. The figure shows an electric control mechanism portion of an alkaline ionized water generator.

In the figure, 1 is an AC power source connected to a transformer 2. A rectifier stack 3 is connected to a part of the secondary side of the transformer 2, and the output of the rectifier stack 3 is connected to a polarity reversal relay 7 via a smoothing capacitor 4, a current detection resistor 5, and a current adjustment transistor 6. Contacts 7-1 and 7-2 are connected,
Contacts 7-5, 7-6 of the relay are connected to electrodes (not shown) in the electrolytic cell 8. This relay 7 is adapted to be switched by a control unit 12.

Further, the detection current from the current detection resistor 5 and the base of the transistor 6 are also connected to the control unit 12.

The control unit 12 is connected to a voltage regulator 11 via a smoothing capacitor 10 on the output side of a rectifier stack 9 connected to another part of the secondary side of the transformer 2, and further connected to a water supply switch 13 and a relay 7. , electrolysis strength adjustment switch 14, electrolysis strength display
LED15, 16, 17, 18, cleaning display LED1
9 is connected.

Now, when drinking water is supplied to the electrolytic cell 8, the water flow switch 13 is activated in response to this, and the control unit 12 simultaneously issues a command to cause current to flow through the transistor 6, and electrolysis begins.

When electrolysis starts, the electrolysis current is detected by the current detection resistor 5, and the detected current value is given to the control unit 12 together with the current value arbitrarily selected and set by the electrolysis strength adjustment switch 14, and the control unit 12 The transistor 6 is controlled according to these values so that the value of the electrolytic current becomes the set current value.

Next, when the water flow is stopped, the water flow switch 13 returns to its original state, stopping the current control to the transistor 6 and ending the electrolysis.

Further, the controller unit 12 integrates the electrolysis time, and when the water flow is stopped after reaching a preset time, the relay 7 is activated to reverse the current flowing to the electrolytic cell 8 to remove scale.

At this time, the control unit 12 controls the transistor 6 so that the electrolytic current is fixed at a predetermined current value. Therefore, the electrolysis current cannot be adjusted by the electrolysis intensity adjustment switch 14.

Control unit 1 reversely energizes electrolytic cell 8.
2, the electrolysis is stopped after a certain period of time has elapsed, the relay 7 is also restored, and the electrolytic current adjustment is also restored to its original state.

[Effects of the invention] As is clear from the above explanation, according to the present invention, stable electrolytic strength can be obtained by adjusting the electrolytic strength using the electrolytic current, and the above-mentioned conventional problems can be avoided even during scale removal. has been solved, and the effect is substantial.

[Brief explanation of drawings]

The figure is a schematic diagram showing a control mechanism portion of an embodiment of the present invention. 1... AC power supply, 2... Transformer, 3, 9...
Rectifier stack, 4, 10...Smoothing capacitor, 5
...Resistor for electrolytic current detection, 6... Transistor for adjusting electrolytic current, 7... Reversing relay, 8... Electrolytic cell, 11... Voltage regulator, 12... Control unit, 13... Water flow switch, 14... Electrolysis current adjustment switch, 15-18... Electrolysis current display
LED, 19...Cleaning display LED.

Claims (1)

[Claims for Utility Model Registration] (1) Alkaline ionized water that generates alkaline ionized water and acidic water by electrolyzing drinking water by applying a DC voltage between electrodes in an electrolytic cell to which drinking water is supplied. In the generator, electrolytic current detection means for detecting the current supplied between the electrodes;
an electrolytic current adjusting means for setting a predetermined electrolytic current value; and an electrolytic current adjusting means for setting a predetermined electrolytic current value; and control means for controlling the current supplied between the electrodes for the predetermined time by the control means when reversing the polarity of the voltage applied between the electrodes for a predetermined time. An electrolytic strength adjustment device for an alkaline ionized water generator, characterized in that: (2) The electrolysis current adjusting means includes a switch for arbitrarily selecting a predetermined electrolysis current value, and further includes display means for displaying a display corresponding to the selected current value in response to switching of the switch. The electrolytic strength adjusting device for an alkaline ionized water generator according to claim 1, characterized in that: