KR200354136Y1 - Creation apparatus of ion water - Google Patents

Abstract

The present invention relates to an ion reduction water and an oxidation water generating device using electrolysis, and to maintain a constant pH concentration by controlling the current according to the temperature of the water through the temperature and flow compensation circuit unit, as well as the pulse width according to the PWM voltage The purpose of this is to reduce the redox potential (ORP) by controlling the average current and frequency by changing. The present invention constituted for this purpose is a power supply unit for supplying power to generate ionized and oxidized water through electrolysis, a rectifying unit for converting the supplied AC voltage into a DC voltage, and a stepped pH concentration at a predetermined voltage so as to be maintained within a predetermined range. Current control unit for controlling current, output unit for outputting current to generate ionized water and oxidized water through electrolysis, and electrolysis of water passing through supply of electrolytic cell to electrolytically controlled current Central processing unit to control the current so that it is separated into ion-reduced water and acidic ionized water, the flow sensing unit to detect the water supply to turn on and off and the amount of water, the current supplied through the central processing unit and the electrolytic cell The display unit displays the amount of water and overheating of the electrolyzer. Voice output unit notifies when the state of the electrolyzer is in danger and the current state of the electrolyzer operation, storage unit for storing all data made through the central processing unit, temperature controlling the average current according to the temperature and flow rate of the water supplied It consists of a flow compensation circuit unit and a frequency modulator controlling a frequency modulation through a current control unit by changing the pulse width according to the PWM method of a constant DC voltage.

Description

Ion Reduced Water and Oxidized Water Generator Using Electrolysis {Creation apparatus of ion water}

The present invention relates to ion-reduced water and oxidation water generation technology using electrolysis, and more specifically, to maintain a constant pH concentration by controlling the current according to the temperature of the water through the temperature and flow compensation circuit unit as well as direct current voltage PWM (Pluse The present invention relates to an ion reduction water and an oxidation water generating device using electrolysis, which can generate a low redox potential (ORP) by controlling an average current and a frequency by changing a pulse width according to a width modulation method.

In general, all human beings have a basic desire for disease-free long life, and generally invest generously for their health. Efforts to use clean water are also a way to meet the basic need for disease-free longevity. One of the developments in the effort to use such clean water is ion reduction water and oxidized water generating device for generating ionized water through electrolysis to obtain sterilization and cleaning effect.

The ion-reducing water and the oxidation-water generating device as described above are good for alkaline ionized water and sterilization and skin care, which neutralize acidity by electrolyzing water containing electrolyte and eliminating active oxygen which is a cause of aging and various modern adult diseases. Produces acidic ionized water.

On the other hand, it is well known that environmental pollution caused by various pollutions has recently emerged as the most important social problem. Various environmental pollutions such as air pollution, land pollution, and water pollution caused by various pollutions, in particular, pollution of river water, seawater, and hot spring water cause serious problems that restrict the use of drinking water. Therefore, the installation of water purifiers and alkaline ionizers is expanding at homes, schools, workplaces, and public offices without drinking tap water.

In modern medicine, the cause of various adult diseases such as high blood pressure, diabetes, heart disease, etc. is found to be acidification of the constitution due to excessive intake of acidic foods, and it is also revealed that oxidative causes of aging and immune system are active oxygen. In order to improve the acidic constitution into alkaline constitution, drinking water is produced by drinking alkaline ion reduced water using alkaline ionized water and oxidation water generating device using electrolysis device.

However, in the conventional ion reducing water and the oxidation water generating device as described above, the pH concentration and the redox potential of the alkaline ionized water and the acidic ionized water are not constant according to the flow rate according to the water pressure and the temperature of the used water. And the redox water is changed to its original potential value within a few seconds when exposed to air, so that the medical effect is not constant.

In general, the pH concentration of the ion production and the redox potential (ORP) is proportional to the voltage applied, and the basic principle is to increase the voltage or increase or decrease the amount to increase the pH concentration in inverse proportion to the amount (flow rate). However, due to the increase and decrease of voltage and quantity, the proper pH concentration and redox potential (ORP) ion generation are limited and inconvenient to use.

The present invention has been proposed to solve all the problems of the prior art, the current according to the temperature and flow rate of the water through the temperature and flow compensation circuit unit so that the ion-reduced water and the oxidized water at a constant pH concentration is generated even if the flow rate and water temperature fluctuations according to the water pressure It is an object of the present invention to provide an ion reduction water and oxidation water generating apparatus using electrolysis to control the pH concentration and the oxidation reduction potential (ORP) to be constant.

In addition, another object of the present invention is to change the pulse width according to the PWM (Pluse Width Modulation) method to control the average current and frequency to generate a high redox potential (ORP) value, while oxidizing The present invention provides an apparatus for generating ion reduced water and oxidized water using electrolysis that maximizes the use effect by maintaining a reduction potential (+ mV, -mV) for several hours.

1 is a block diagram showing the configuration of the ion-reduced water and oxidation water generating apparatus using electrolysis according to the present invention.

Figure 2 is a block diagram showing the operation relationship through the ion-reduced water and oxidized water generation method using electrolysis according to the present invention.

[Description of Symbols for Main Parts of Drawing]

1: electrolyzer 1a: output stage

10: power supply unit 20: rectification unit

30: current control unit 40: output unit

50: central processing unit 60: flow rate detection unit

70: display unit 80: audio output unit

90: storage unit 100: temperature, flow compensation circuit unit

110. Frequency modulator

The present invention configured to achieve the above object is as follows. That is, the ion reduction water and the oxidation water generating device using the electrolysis according to the present invention is a power supply for supplying a normal power to generate ionized water by electrolysis, a rectifier for converting the AC voltage supplied through the power supply to a DC voltage, step-by-step pH Current control unit for controlling the average current at a predetermined voltage so that the concentration can be maintained within a certain range, current to generate ionized water through electrolysis through a rectifying unit and a current control unit for converting the voltage of AC supplied through the power supply unit into a DC voltage Function to control the function and current so that the water passed through the supply to the both ends of the electrolytic cell electrolysis through the control current through the current control unit, and separated into alkaline ionized water and acidic ionized water The central processing unit detects the amount of water supplied to the electrolytic cell and sends it to the central processing unit. Flow rate sensing unit to control the current and control the electric current by sending a call, display unit displaying the current supplied through the central processing unit, the amount of water supplied to the electrolytic cell, and the overheating of the electrolytic cell. In the ion-reduced water generating device using the electrolysis comprising a voice output unit for indicating each function operating state and the current operating state displayed through the and a storage unit for storing all data made through the central processing unit, the temperature and flow rate of the water supplied A temperature / flow compensation circuit unit for controlling the average current through the current control unit to maintain a constant pH concentration and redox potential of the ionized water; And redox reduction by pH step by controlling the average current and frequency through the current control unit by changing the pulse width according to PWM (Pluse Width Modulation) method while maintaining a constant pH concentration despite the fluctuation of flow rate due to water pressure. And a frequency modulator for generating a high value of the potential ORP.

In the above-described configuration, the temperature / flow compensation circuit unit controls the current low through the current control unit when the water temperature is high and the flow rate is low. On the other hand, when the water temperature is low and the flow rate is high, the temperature / flow compensation circuit unit controls the current through the current controller. Is done.

At this time, the pH concentration value of the ionized water which is kept constant under the control of the temperature / flow compensation circuit unit in the above-described configuration is pH 8.0 to 10.0, more preferably pH 8.5 to 9.5. In addition, it is preferable that the value of the reduction potential is designed so that the value of -mV is indicated higher than -100mV, and the value of the oxidation potential is designed so that the value of + mV is indicated higher than + 400mV.

Hereinafter will be described in detail with respect to the ion-reduced water and oxidized water generating apparatus using electrolysis according to a preferred embodiment of the present invention.

First, ORP (Oxidation-Reduction Potential) described in the description of the present invention refers to an index indicating the abundance ratio of the oxidizer and the reducer of the substance. At this time, the theoretical explanation for the oxidation and reduction to explain the ORP is as follows. Oxidation refers to the loss of hydrogen by combining with oxygen, that is, the loss of electrons in chemical change. Oxidation is rust, decay, and aging. On the other hand, reduction refers to the loss of oxygen by combining with hydrogen, that is, the change in which electrons are obtained in chemical change is called reduction, and reduction can be considered to be fresh, healthy and youthful.

The units of ORP (oxidation reduction potential) as described above are expressed in mV and oxidize the counterpart in the case of (+) mark, and are reduced in itself, while in the case of (-) mark, the counterpart is reduced and itself is oxidized. The larger the value of this ORP, the stronger the redox force, and the higher the redox value.

On the other hand, according to the data, water having a reducing power of ORP of -50 mV or more (pH 8.0 ~ 10.0) is known to have a power to remove free radicals, which is the source of all diseases. Weak energy flows in the blood of healthy people, and it is known that healthy people usually have -50mV to -100mV, whereas water with oxidizing power of + 10mV or more can rust and oxidize in the human body, causing each adult disease. It is known to be one. In addition, oxidizing water of more than + 600mV has the function to sterilize and disinfect bacteria.

1 is a block diagram showing the configuration of the ion-reduced water and oxidation water generating apparatus using electrolysis according to the present invention.

As shown in FIG. 1, the ion reduction water and oxidation water generating device using electrolysis according to the present invention includes a power supply unit 10 for supplying power to generate ion reduction water and oxidation water through electrolysis, and the supplied AC voltage as a DC voltage. The rectifier 20 for converting, the current control unit 30 for controlling the average current to a predetermined voltage so that the pH concentration step by step by the applied current is maintained in a predetermined range, the rectifier 20 for converting the voltage of the supplied AC into a DC voltage And an output unit 40 for outputting current so as to generate ionized and oxidized water through electrolysis through the current control unit 30, and supplying the controlled current to both ends of the electrolyzer 1 for electrolysis. It is supplied to the central processing unit (50) and the electrolytic cell (1) for controlling the current so that the water passed through is electrolyzed and separated into alkaline ionized water and acidic ionized water. It detects water and turns on and off the power, and detects the amount of water flow rate unit 60, the current supplied through the central processing unit 50 and the amount of water supplied to the electrolytic cell (1) and overheating of the electrolytic cell (1) The voice output unit 80 and the central processing unit 50 indicating when the danger occurs in the state of the electrolytic cell 1 generated through the display unit 70 and the display unit 70 to be displayed and the state in which the current electrolytic cell 1 is operated. In addition to the prior art consisting of a storage unit 90 for storing all the data made through the temperature and flow compensation circuit unit 100 for controlling the average current according to the temperature and flow rate of the supplied water and a constant DC voltage PWM (Pluse A frequency modulator 110 is configured to control an average frequency through the current controller 30 by changing a pulse width according to a width modulation method.

The temperature / flow compensation circuit unit 100 and the frequency modulator 110 configured as described above may maintain the pH concentrations of the ion-reduced water and the oxidized water generated even when the flow rate changes due to the water pressure of the supplied water. In addition, the reducing potential (-mV) of the generated ion-reduced water and the oxidation potential (+ mV) of the ion-oxidized water are generated to be high. At this time, the pH concentration value of the ion-reduced water kept constant under the control of the temperature / flow compensation circuit unit 100 is 8.0 to 10.0, more preferably pH 8.5 to 9.5. In addition, the reduction potential of the -mV value is higher than -200mV, the pH concentration value of the ionized water is 6.0 ~ 3.5 and the oxidation potential is higher than + 40mV.

In more detail, first, in the configuration of the ion-reduced water and the oxidized water generating device using electrolysis according to the present invention, the temperature / flow compensation circuit unit 100 has an average current through the current control unit 30 according to the temperature and flow rate of the supplied water. By controlling the pH concentration of the ion-reduced water and oxidized water to be kept constant. At this time, the temperature and flow compensation circuit unit 100 controls the current through the current control unit 30 when the temperature of the water supplied is high and the flow rate is low, while the current control unit 30 when the temperature of the supplied water is low and the flow rate is large By controlling the current through high), the pH concentration and the redox potential (ORP) of the ion-reduced and oxidized water generated can be kept constant.

On the other hand, in the configuration of the ion-reduced water and oxidized water generating device using the electrolysis according to the present invention, the frequency modulator 110 is operated by the function of the temperature and flow compensation circuit unit 100 in spite of the variation of the flow rate according to the water pressure of the supplied water. The ion reduction water and the redox potential (ORP) of the oxidized water generated through the change of the pulse width in a state where a constant pH concentration is maintained are generated to be high, and the potential value is maintained for several hours at a high state. In other words, the frequency modulator 110 changes the pulse width according to the PWM (Pluse Width Modulation) method to control the average current and the frequency through the current controller 30 to control the redox potential (ORP) for each pH step. Increase the ORP values (+ mV, -mV) to produce redox water that lasts for hours.

2 is a block diagram showing the operation relationship through the ion-reduced water and oxidation water generation method using the electrolysis according to the present invention.

As shown in FIG. 2, the average voltage and the frequency are controlled by varying the pulse width using the PWM method, and the flow rate of the flow rate sensing unit 60 is adjusted when the pH concentration (redox potential) is adjusted step by step. A sensor (not shown) checks the flow rate to apply a pulse signal to the central processing unit 50, and outputs the terminal (terminal: 1a) through the current control circuit by the calculation of the central processing unit 50 by the applied signal. ) To control the current applied to generate ionized water and oxidized water (alkaline ionized water or acidic ionized water).

In addition, when electricity is applied to the ion reducing water and the oxidation water generating device and the electrolytic cell 1 to generate the ionized water, power is applied through the power supply unit 10, and when the user sets the pH concentration (redox potential), the central processing unit 50 The signal is applied to supply the water to the electrolytic cell 1 to generate ionized and oxidized water at the set pH concentration, and the supplied water is detected by the flow rate sensor of the flow rate sensing unit 60. Then, the power applied through the rectifying unit 20 and the current control unit 30 is applied to the electrolytic cell 1 to generate ion reduced water and oxidized water.

At this time, the temperature and flow compensation circuit unit 100 controls the average current through the current control unit 30 according to the temperature and flow rate of the supplied water, that is, the temperature and flow compensation circuit unit 100 has a high temperature and low flow rate of the supplied water. In the case of controlling the current low through the current control unit 30, on the other hand, when the temperature of the supplied water is low and the flow rate is high, the pH concentration of the ion-reduced water and ionized water generated by controlling the current high through the current control unit 30 To keep it constant.

In addition, the frequency modulator 110 pulses a predetermined DC voltage according to the PWM (Pluse Width Modulation) method in a state where pH concentrations of ion-reduced water and oxidized water generated by the temperature / flow compensation circuit unit 100 are kept constant. By changing the width to control the average current and the frequency through the current control unit 30 to generate a high value of the redox potential (ORP) for each pH step despite the change in the flow rate according to the water pressure.

Then, after the predetermined amount passes through the filter mode displayed through the display unit 70 displaying the amount of filter used by the flow rate and the amount of water introduced into the electrolytic cell 1, the input of water is blocked, and the water introduced into the electrolytic cell 1 is discharged. If an error (problem) occurs in the process of generating the ion reduction water and the oxidation water through the cleaning mode for cleaning the electrolytic cell 1 and the central processing unit 50, the error is displayed on the display unit 70 so that the user can check it. The mode produces the best ion reduced and oxidized water by controlling the system for ion reducing and oxidized water generating devices on and off.

When generating alkaline ionized water, the user selects one of pH concentrations of 10.0, 9.5, 9.0, 8.5, and 7.5, applies the signal to the central processing unit 50, and sets the pH concentration. Create On the other hand, in the case of generating the acidic ionized water, the user selects one of the pH concentrations of 5.5 and 3.5 and applies the concentration value to the central processing unit 50 to generate the acidic ionized water according to the set pH concentration.

Looking at the effect of the ion-reduced water and oxidation water generating device using the electrolysis according to the present invention configured as described above are as follows.

First, when a user applies power to the ion reduction water and the oxidation water generating device using electrolysis to generate ion reduction water and oxidation water, the normal AC power is supplied through the power supply unit 10, the power supplied through the power supply unit 10 In turn, the AC power is converted into a DC power source through the rectifying unit 20 so that the average current is supplied at a predetermined voltage through the current control unit 30.

At this time, the ion-reduced water and the oxidized water generating device controls the average current through the current control unit 30 of the temperature / flow compensation circuit unit 100 and the control of the current control unit 30 by changing the pulse width of the frequency modulator 110. While maintaining the pH concentration of the ion-reduced water and oxidized water generated through the constant, it is possible to generate a high potential value (+ mV, -mV) of the redox potential (ORP) for each pH step of the ion-reduced water and oxidized water generated .

When a predetermined average current is supplied through the current control unit 30, the central concentration unit 50 stores the pH concentration preset by the user, and the current flows into the electrolytic cell 1 such that ion-reduced water and oxidized water can be generated at the stored pH concentration. Is supplied.

When water is irregularly supplied, the central processing unit 50 controls and supplies a current to the output terminal (terminal: 1a) of the electrolytic cell 1 through the current control unit 30, thereby electrolyzing the water in the electrolytic cell 1 To generate ion-reduced water according to the pH concentration set by the user.

Before generating ionized water, the user selects in advance whether to generate alkaline ionized water or acidic ionized water, and then resets the required pH concentration to generate ionized water and oxidized water corresponding thereto.

In order to determine the state of the ion reducing water and the oxidation water generating device when generating the ion reduced water, the display unit (if the abnormality occurs in relation to the filter mode, the cleaning mode, the draining mode, and the error mode as described in the above configuration) is automatically displayed. 70).

In the filter mode, the flow rate through the filter is counted and accumulated, so that the user can know through the display unit 70, and the cleaning mode is a cleaning function in the electrolytic cell 1, in which 10 l or more of water has passed through the electrolytic cell. Only when the electrolytic cell 1 can be cleaned at this time, the water is passed through the electrolytic cell 1 does not operate during the electrolysis, the cleaning action is operated only at the flow rate stop so that the cleanliness can be maintained at all times.

And, in the drainage mode, the drained washed person in the electrolytic cell 1 is drained and displayed on the display unit 70 so that the current state of the electrolytic cell 1 can be grasped, and the error mode does not operate normally. The abbreviation is set in advance through the display unit 70 so that the user can grasp this.

For example, Er-1, Er-2, Er-3, Er-7, and Er-of are displayed on the display unit 70. Er-1 displayed through the display unit 70 is displayed when the rated voltage of the current supplied to the electrolytic cell 1 is low voltage, and the low voltage is displayed when it is about 10% lower than the rated voltage.

Er-2 displayed through the display unit 70 is displayed when the rated voltage of the voltage supplied to the electrolytic cell 1 is high, and is displayed when it is about 10% higher than the rated voltage.

In addition, in the case of Er-3 displayed through the display unit 70, it is displayed when the electrolytic cell 1 is overheated, in the case of Er-of, it is displayed when the flow rate exceeds 3L per minute, and in the case of Er-7, It is displayed when there is a failure, in which case it is displayed when passing water during the cleaning so that the user can grasp the state of the electrolytic cell 1.

As described above, the water passing through the filter is ion-separated from the electrolytic cell by electrolysis while passing through the electrolytic cell 1 so that the user can generate and use the desired alkaline ionized water and acidic ionized water.

The present invention is not limited to the above-described embodiments and can be carried out in various modifications within the range allowed by the technical idea of the present invention.

As described above, according to the present invention, the current is controlled according to the temperature and flow rate of the water through the temperature / flow compensation circuit unit so that the ionized water and the oxidized water at a constant pH concentration are generated by controlling the current even in the fluctuation of the flow rate according to the water temperature and water pressure. The effect of maintaining a constant pH concentration and redox potential (ORP) is generated.

In addition, the present invention controls the average current and frequency by changing the pulse width according to the PWM (Pluse Width Modulation) method, so that the oxidation reduction potential (ORP), that is, the oxidation potential + mV, the reduction potential -mV + 400mV, There is an effect that can be generated higher than -100mV. Therefore, there is an effect that lasts for a considerable time (more than 1 hour) even when exposed to the air, it is possible to obtain ionized water with a strong force to remove the active oxygen which is the root of cell aging and DNA mutation than conventional ion redox.

Claims (3)

A power supply unit for supplying normal power to produce ion-reduced water and oxidized water by electrolysis, a rectifying unit for converting an AC voltage supplied through the power supply unit to a DC voltage, and a predetermined voltage to maintain the pH concentration step by step within a certain range A current control unit for controlling the average current, an output unit for outputting a current to generate ion-reduced water and oxidized water through electrolysis through a rectifying unit and a current control unit for converting the voltage of AC supplied through the power supply unit to a DC voltage, the current control unit Central processing unit for controlling the function and current to be discharged by separating the alkaline ionized water and the acidic ionized water by electrolyzing the water passing through the supply of the electrolytic cell to the electrolytic cell for controlling the current through the electrolysis, which is supplied to the electrolytic cell Detects the amount of water and sends a signal to the central processing unit A flow rate sensing unit for controlling an on / off function and a current, a display unit for displaying the current supplied through the central processing unit, the amount of water supplied to the electrolytic cell, and the overheating of the electrolytic cell; In the ion-reduced water and oxidized water generating device using electrolysis comprising a voice output unit for each function operating state and the current operating state and a storage unit for storing all data made through the central processing unit, A temperature / flow compensation circuit unit configured to maintain a constant pH concentration of ion-reduced water and oxidized water generated by controlling an average current through the current control unit according to the temperature and flow rate of the supplied water; And A constant DC voltage is changed in a pulse width according to PWM (Pluse Width Modulation) method in a flow change compensation circuit state in which a constant pH concentration is maintained even when the flow rate is changed according to the water pressure of the supplied water. An ion reduction water generating device using electrolysis, characterized in that it comprises a frequency modulator to generate a high redox potential (ORP) for each pH step by controlling the frequency. According to claim 1, wherein the temperature and flow compensation circuit portion when the water temperature is high and the flow rate is low to control the current through the current control unit, while when the water temperature is low and the flow rate is high the current through the current control unit high Ion reduced water generating apparatus using electrolysis, characterized in that for controlling. The reduction potential of the redox potential (ORP) of claim 1 or 2 is greater than -50 mV at a concentration value of pH 8.0 to 10.0 of ion-reduced water that is kept constant by the control of the temperature / flow compensation circuit portion. The ion reduction water generating device using electrolysis, characterized in that the high value to -800mV, the oxidation potential is higher than + 400mV at a concentration value of pH 6.0-3.5.