KR100478658B1 - Method for controlling water quality of ionic water - Google Patents

Abstract

The present invention relates to a method for controlling the water quality of ionized water, the ion concentration measuring means of measuring the ion concentration of the raw water and applying the measurement to the water quality determination means, the water quality determination means is the raw water for the applied ion concentration measurement value Determining the quality of the water and applying the resultant signal to the pulse width control means, the flow rate measuring means measuring the flow rate of the raw water and applying the measurement value to the pulse width control means, applied by the water quality determination means. The pulse width control means modulates the pulse width applied to the electrolyzer according to the result signal and the measurement value applied by the flow rate measuring means, and the ion concentration of the raw water is higher than or equal to a predetermined reference value in the raw water quality determination step. When the flow rate measured by the flow rate measuring means is less than the set value, the pulse width control means applies a short pulse width, In the raw water quality determination step, if the ion concentration of the raw water is lower than the set reference value or the flow rate measured by the flow measuring means exceeds the set value, the pulse width control means applies a long pulse width so that the water quality of the ion water Regardless, a constant ion concentration can be obtained.

Description

METHOD FOR CONTROLLING WATER QUALITY OF IONIC WATER}

The present invention relates to a method of controlling the water quality of ionized water in an ionized water group that generates alkaline ionized water and acidic ionized water by electrolyzing raw water such as tap water, and controlling the amount of current during electrolysis according to the water quality and the flow rate of raw water. The present invention relates to a method for controlling the water quality of ionized water so as to display a constant PH concentration regardless of a region.

In general, an ionizer is a medical material generator, and generates alkaline ionized water and acidic ionized water by electrolyzing raw water, such as tap water, by applying a DC voltage to an electrode of an anode and a cathode.

Alkaline ionized water is used to improve health by improving the acidic constitution of meat-oriented diet of modern man, and acidic ionized water is mainly used for cleaning the surface of the body as a cosmetic.

The electrolytic capacity of the electrolyzer in the ionizer, i.e. the pH value of the electrolyzed ion water, is usually dependent on the amount of water passed through the electrolyzer, the electrical conductivity of the feed water, or the quality of the water, the temperature of the water, and so on. The control method by the voltage to apply a predetermined voltage in accordance with the ph (PH (hydrogen ion)) index of the raw water supplied, and the control method through the pulse width modulation (PWM) for the pulse signal of the predetermined frequency transmitted from the oscillating means It is used.

However, since the electrolysis method of the conventional ionizer electrolyzer always applies only a predetermined amount of current whether it is a voltage control method or a PWM control method, when the water quality of the raw water changes or the flow rate changes, the PH index changes accordingly. There was a problem that the set PH value does not come out.

In other words, the pH index is higher than the set value in the region of high hardness in the raw water quality, and the pH index is lower than the set value in the region of low hardness because the electrolysis is not made as much as desired. In addition, when the flow rate is small, the PH index is high, and when the flow rate is high, the PH index is relatively low. Therefore, even in the case of the same kind of ionizer product, since the PH index may be different depending on the region, there was a problem that causes confusion in use.

The present invention was developed to solve the above-mentioned conventional problems, by adjusting the amount of current during electrolysis according to the change in the water quality or flow rate of raw water supplied to the ionizer so that the water quality shows a constant PH index regardless of the region. The purpose is to provide a water quality control method of the ionized water.

The present invention for achieving the above object, in the method for controlling the water quality of the ionized water, the ion concentration measuring means for measuring the ion concentration of the raw water and applying the measured value to the water quality determination means, the applied ion concentration Determining, by the water quality determining means, the water quality of the raw water with respect to the measured value, and applying the resultant signal to the pulse width control means, by the flow rate measuring means measuring the flow rate of the raw water and applying the measured value to the pulse width control means; Wherein the pulse width control means modulates the pulse width applied to the electrolyzer according to the result signal applied by the water quality determining means and the measurement value applied by the flow rate measuring means, and ion of raw water in the raw water quality determination step. The pulse width control means when the concentration is higher than the set reference value or the flow rate measured by the flow rate measuring means is less than the set value. When the pulse width is shortened, and the ion concentration of the raw water is lower than the set reference value or the flow rate measured by the flow measuring means exceeds the set value in the raw water quality determination step, the pulse width control means applies the pulse width longer. It provides a method for controlling the water quality of the ionized water, characterized in that the water quality of the ionized water has a constant ion concentration regardless of the region.

 Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

In the present invention, in measuring the water ion concentration of raw water, such as tap water, the ion concentration is detected according to the amount of change from the reference value by detecting the change of the current applied to the electric hash hash electrolyzer 10. For this, the electrolyzer 10 The ion concentration measuring means 20 which detects the amount of change in the current applied to the water and measures the numerical value of the water ion concentration, and the ion concentration of the raw water measured by the ion concentration measuring means 20 in high, medium and low stages. Water judging means 30 for judging and judging, and pulse width control means 50 for controlling the pulse width applied to the electrolytic cell 10 is provided.

In the description of FIG. 1, reference numerals “11” and “12”, which are not described, denote “ion water discharge holes” for discharge of alkaline water or acidic water, and “13” and “14” denote “cathode portions” for electrolysis of raw water. And 'anode', '60' denotes 'filtering means', '70' denotes 'power supply', and '80' denotes 'flow rate measuring means', respectively.

Looking at the operation of the present invention having such a configuration as follows.

First, the ion concentration measuring means 20 measures the water quality ion concentration of raw water supplied to the electrolytic cell 10 and applies the measured value to the water quality determining means 30 (S1). The water quality determining means 30 discriminates and determines the quality of the raw water based on the value of the applied ion concentration, and applies a signal for the result to the pulse width control means 50 (S2). The flow rate measuring means 80 measures the flow rate supplied to the electrolytic cell 10 and applies the measured values to the pulse width control means 50, respectively (S3). In addition, the pulse width control means 50 modulates the pulse width applied to the electrolytic cell according to the result signal applied by the water quality determining means 30 and the measurement value applied by the flow rate measuring means 80 (S4). . In this case, it is preferable to set the ion concentration classification criteria to "medium" in the water quality determining means 30.

On the other hand, when the ion concentration (PH index) of the raw water determined by the water quality determining means 30 is higher than "medium" which is a set reference value or when the flow rate measured by the flow rate measuring means 80 is less than the set value, The pulse width control means 50 applies the pulse width shortly.

On the contrary, when the ion concentration (PH index) of the raw water judged by the water quality determining means 30 is lower than the set reference value "medium" or the flow rate measured by the flow rate measuring means 80 exceeds the set value. The pulse width control means 50 applies a long pulse width.

As such, in the present invention, the electrolysis in the electrolytic cell 10 is kept constant by controlling the amount of current and the pulse width according to the height of the water ion concentration and the flow rate of raw water so that the pH variation of the ionized water can be minimized. do.

Therefore, whether the water quality is high or low in hardness, and whether the flow rate is high or low, the water quality of the ionized water can always exhibit a constant PH index regardless of the region.

On the other hand, the present invention is not limited to the above-described embodiments, those skilled in the art to which the present invention pertains will be carried out in various modified forms within the scope of the technical idea of the present invention described in the claims below. Of course it can.

As described above, the present invention provides a water quality control method of the ionized water by adjusting the pulse width during electrolysis according to the change in the water quality or the flow rate of the raw water supplied to the ionizer electrolyzer, the water quality of the ionized water produced by the ionizer Regardless of the region, it is possible to display a constant PH index.

1 is a system configuration diagram for controlling the water quality of the ionized water according to the present invention

2 is a flow chart illustrating a method for controlling the water quality of the ionized water according to the present invention.

* Description of the symbols for the main parts of the drawings *

10 electrolytic cell 11,12 ion outlet

13 cathode part 14 anode part

20: ion concentration measuring means 30: water determination means

50: pulse width control means 60: filtering means

70: power supply 80: flow measurement means

Claims (1)

In the method of controlling the water quality of the ionized water, Measuring the ion concentration of the raw water by the ion concentration measuring means and applying the measured value to the water quality determining means, Determining, by the water quality determining means, the water quality of the raw water based on the applied ion concentration measurement value, and applying the resultant signal to the pulse width control means; Measuring flow rate of the raw water by the flow rate measuring means and applying the measured value to the pulse width control means; The pulse width control means modulates the pulse width applied to the electrolyzer according to the result signal applied by the water quality determining means and the measured value applied by the flow rate measuring means. In the raw water quality determination step, if the ion concentration of the raw water is higher than the set reference value or the flow rate measured by the flow rate measuring means is less than the set value, the pulse width control means applies a short pulse width, In the raw water quality determination step, if the ion concentration of the raw water is lower than the set reference value or the flow rate measured by the flow measuring means exceeds the set value, the pulse width control means applies a long pulse width so that the water quality of the ionized water is localized. A method for controlling the water quality of an ionized water, characterized by displaying a constant ion concentration regardless of.