JPH0671264A - Electrolytic ionized water generator - Google Patents

Abstract

PURPOSE:To automatically make always constant an alkali degree of alkali ionized water (or an acid degree of acid ionized water) without necessitating correction such as a pH meter, even if water pressure, water quantity temp. and electric conductivity of supplied city water, etc., are changed. CONSTITUTION:The device is provided with an electrolytic cell provided with an anode and a cathode via an ion exchange membrane, and the city water, etc., is supplied to the electrolytic cell and also electrolytic voltages are impressed on the anode and the cathode to produce the acid ionized water and the alkali ionized water from the supplied city water. The device has also a sensor 1 respectively detecting water pressure, water quantity, temp. and electric conductivity of the supplying city water, etc., a fuzzy chip 2 inputted with a detection value from the sensor as a fuzzy variation, and a switching power source 6 inputted with an output of the fuzzy chip. The electrolytic voltages impressed on the anode and the cathode from the switching power source are changed corresponding to the output of the fuzzy chip 2.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention continuously electrolyzes supplied tap water or the like in an electrolytic cell having a positive electrode and a negative electrode arranged via an ion exchange membrane to obtain alkaline ionized water and The present invention relates to an electrolytic ion water generator that generates acidic ion water.

[0002]

2. Description of the Related Art Generally, supplied tap water or the like is continuously electrolyzed in an electrolytic cell having a positive electrode and a negative electrode arranged via an ion exchange membrane to produce alkaline ionized water and acidic ionized water. There is known an electrolytic ionized water producing device for producing. By the way, in order to drink alkaline ionized water, it is necessary to make the alkalinity moderate. Therefore, conventionally, the electrolysis voltage applied to the positive electrode and the negative electrode is manually changed so that the alkalinity of the alkaline ionized water can be changed. The electrolysis voltage was set to be variable so that the alkalinity becomes appropriate while observing the above.

[0003]

The alkalinity as described above varies depending on the tap water supplied, mainly the water pressure, the amount of water (per hour), the temperature and the electrical conductivity. Even if the electrolysis voltage is set by this, the alkalinity does not always become constant. Therefore, it is also possible to convert the alkalinity of alkaline ionized water into an electric signal like a pH meter so as to keep the alkalinity constant and automatically control the electrolysis voltage by the electric signal. However, the one that converts the alkalinity into an electric signal, such as the pH meter, has a large change with time,
For this reason, since it is necessary to calibrate frequently, it is not practical to mount it on an electrolytic ionized water generator that is used for a long period of time.
The present invention eliminates the above-mentioned conventional drawbacks and does not require the above-mentioned calibration, and moreover, even if the water pressure, amount of water, temperature, or electric conductivity of tap water to be supplied is changed, the alkalinity is always automatic. It is an object of the present invention to provide an electrolyzed ionized water producing device that is kept constant.

[0004]

In order to solve the above problems, the electrolytic ionized water producing apparatus of the present invention comprises an electrolytic cell in which a positive electrode and a negative electrode are arranged via an ion exchange membrane,
While supplying tap water or the like to this electrolytic cell, in the electrolytic ion water generator for generating acidic ion water and alkaline ion water from the tap water supplied by applying an electrolytic voltage to the positive electrode and the negative electrode, At least a sensor for detecting water pressure, water amount, temperature, and electric conductivity of supplied tap water, a fuzzy chip in which a detected value from the sensor is input as a fuzzy variable, and the electrolytic voltage according to the output of the fuzzy chip And means for varying the water pressure of the supplied tap water, the amount of water, the alkalinity of the alkaline ionized water or the acidity of the acidic ionized water is substantially constant even if the temperature and the electrical conductivity change. It is characterized in that The means for varying the electrolytic voltage may be constituted by a switching power supply.

[0005]

In the electrolyzed ionized water producing apparatus constructed as described above, the water pressure, water amount, temperature and electric conductivity of the supplied tap water are detected by the sensor, and the detected values are inputted to the fuzzy chip as fuzzy variables. It The electrolytic voltage is controlled by the output of the fuzzy chip, and the alkalinity of the alkaline ionized water (or the acidity of the acidic ionized water) becomes substantially constant.

[0006]

Embodiments of the present invention will be described below with reference to FIG. FIG. 1 is a block diagram showing an outline of a configuration related to the present invention of an electrolytic ionized water generator.
In the figure, reference numeral 1 denotes a plurality of sensors, which detect the water pressure, the amount of water (per hour), the temperature, and the electric conductivity of tap water, etc., respectively, which are known. Reference numeral 2 is a well-known fuzzy chip, which has functions such as fuzzy operation 3, membership function 4, and fuzzy rule 5. The detected value from the sensor 1 is input to the fuzzy chip 2, and the membership function 4 is preset with the detected value as a fuzzy variable.

Reference numeral 6 is a known switching power supply. Reference numeral 7 is a well-known electrolytic cell in which a positive electrode and a negative electrode are arranged via an ion exchange membrane (not shown). Tap water or the like is supplied to the electrolytic cell 7, and an electrolytic voltage is applied to the positive electrode and the negative electrode from the switching power supply 6 to generate alkaline ionized water and acidic ionized water. The output of the fuzzy chip 2 is input to the switching power supply 6,
The electrolysis voltage is controlled so that the alkalinity of the alkaline ionized water is always constant. The water pressure, water amount, temperature and electric conductivity detected by the sensor 1 are displayed by an appropriate display means (not shown).

In the electrolytic ionized water producing apparatus constructed as described above, the alkalinity can always be kept constant even if the water pressure, the amount of water, the temperature and the electric conductivity of the supplied tap water change. In addition, this electrolytic ion water generator
Not only when the above-mentioned water pressure, water amount, temperature and electric conductivity are changed during use, but also when a new electrolytic ion water generator is installed, it is possible to maintain a certain level of alkalinity suitable for drinking without any modification. Alkaline ionized water is obtained.
Further, in the above embodiment, the one in which the alkalinity of the alkaline ionized water is made constant has been described, but the present invention can be applied to the case where the acidity of the acidic ionized water is made constant. In the above embodiment, the detected values of the water pressure, the amount of water, the temperature, and the electric conductivity of the supplied tap water, etc. are inputted to the fuzzy chip 2 as fuzzy variables. You may make it input as a fuzzy variable.

[0009]

EFFECTS OF THE INVENTION Since the present invention is constructed as described above, calibration is not required, and alkaline ionized water is always used even if the water pressure, amount of water, temperature, or electric conductivity of tap water supplied changes. The alkalinity (or the acidity of acidic ionized water) can be automatically made constant.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention.

[Explanation of symbols]

 1 Sensor 2 Fuzzy Chip 6 Switching Power Supply 7 Electrolyzer

Claims (2)

[Claims] 1. An electrolytic cell provided with a positive electrode and a negative electrode via an ion exchange membrane, and tap water or the like is supplied to the electrolytic cell, and an electrolytic voltage is applied to the positive electrode and the negative electrode. In an electrolytic ionized water generator that generates acidic ionized water and alkaline ionized water from tap water, etc., which are supplied, a sensor for detecting at least the water pressure, the amount of water, the temperature and the electrical conductivity of the supplied tap water, respectively, A fuzzy chip into which a detected value from the sensor is input as a fuzzy variable, and means for varying the electrolytic voltage according to the output of the fuzzy chip are provided, and the water pressure, water amount, temperature, and electrical conductivity of the supplied tap water, etc. Even if the degree changes, the alkalinity of the alkaline ionized water,
Alternatively, an electrolyzed ionized water producing device characterized in that the acidity of the acidic ionized water is made substantially constant. 2. The electrolytic ionized water generator according to claim 1, wherein the means for varying the electrolytic voltage is constituted by a switching power supply.