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  • 专利说明
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    • 专利摘要:
    The present invention relates to an ion reduction water generating device using electrolysis, by controlling the current according to the temperature of the water through the temperature compensation circuit unit to maintain a constant pH concentration, as well as changing the pulse width according to the DC voltage PWM method average current The purpose of this is to control the frequency and the frequency to reduce the reduction potential (ORP). The present invention configured for this purpose is determined by the power supply unit for supplying power to generate the ion-reduced water through electrolysis, the rectifying unit for converting the supplied AC voltage into a DC voltage, the pH concentration step by step by the applied current is maintained within a certain range Current control unit for controlling the average current by voltage, output unit for outputting current to generate ionized water through electrolysis through rectifying unit and current control unit to convert the voltage of the supplied AC to DC voltage, electric current controlled Central processing unit which controls electric current to separate water into alkaline ionized water and acidic water by electrolyzing water passing through both ends of electrolyzer to decompose, and turning on / off power by sensing water supplied Flow sensing unit for sensing, current supplied through the central processing unit and supplied to the electrolytic cell A display unit for displaying the amount and overheating of the electrolyzer, a voice output unit for indicating the danger of the state of the electrolyzer generated through the display unit and the operation of the current electrolyzer, and a storage unit for storing all data made through the central processing unit. It consists of a temperature compensation circuit unit for controlling the average current according to the temperature of the water supplied, and a frequency modulator for controlling the frequency modulation through the current control unit by changing the pulse width according to the PWM method of a constant DC voltage.
    公开号:KR20040030760A
    申请号:KR1020040016605
    申请日:2004-03-11
    公开日:2004-04-09
    发明作者:조규대
    申请人:주식회사 바이온텍;
    IPC主号:
    专利说明:

    Ion reduced water generator using electrolysis {Creation apparatus of ion water}
    [11] The present invention relates to ion reduction water generation technology using electrolysis, and more particularly, by controlling the current in accordance with the temperature of the water through the temperature compensation circuit unit to maintain a constant pH concentration, as well as DC voltage PWM (Pluse Width Modulation) method The present invention relates to an ion-reduced water generating apparatus using electrolysis, which can generate a low reduction potential (ORP) by controlling an average current and a frequency by changing a pulse width.
    [12] 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 an ion reduction water generating device for generating ionized water through electrolysis to obtain a sterilization and cleaning effect.
    [13] The ion reducing water generating device as described above has strong acidity by electrolyzing water containing electrolytes, and has strong sterilizing power. Alkaline ionized water is produced.
    [14] 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 kinds of pollutions, in particular, pollution of river water, seawater, and hot spring water cause serious problems that limit the use of drinking water. Therefore, in public places such as homes, schools, workplaces, and public offices without drinking tap water, cold and warm water purifiers are installed so that cold water and hot water can be selected according to the taste of people who want to drink water.
    [15] 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. Alkaline ionized water is produced and produced by the generator.
    [16] However, the conventional ionized water generating device as described above has a drawback that the pH of the alkaline ionized water and the acidic ionized water is not constant but changed according to the flow rate change according to the water pressure.
    [17] Typically, the pH concentration of the ionized water production is proportional to the voltage applied, and the basic principle is to increase the voltage or increase or decrease the amount of water to increase the pH concentration in inverse proportion to the amount of water (flow rate). However, there is a limit to the voltage and the amount of water increase and decrease the generation of the appropriate pH concentration of the ionized water is inconvenient to use.
    [18] The present invention has been proposed to solve all the problems of the prior art, the pH concentration is constant by controlling the current in accordance with the temperature of the water through the temperature compensation circuit unit so that the ion-reduced water of a constant pH concentration even in the fluctuation of the flow rate according to the water pressure It is an object of the present invention to provide an ion reduction water generating device using electrolysis that can be maintained.
    [19] 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 reduce the reduction potential (ORP) by using ions using electrolysis It is to provide a reducing water generating device.
    [1] 1 is a block diagram showing the configuration of the ion-reduced water generating device using electrolysis according to the present invention.
    [2] Figure 2 is a block diagram showing the operation relationship through the ion-reduced water generation method using electrolysis according to the present invention.
    [3] [Description of Symbols for Main Parts of Drawing]
    [4] 1: electrolyzer 1a: output stage
    [5] 10: power supply unit 20: rectification unit
    [6] 30: current control unit 40: output unit
    [7] 50: central processing unit 60: flow rate detection unit
    [8] 70: display unit 80: audio output unit
    [9] 90: storage unit 100: temperature compensation circuit unit
    [10] 110. Frequency modulator
    [20] The present invention configured to achieve the above object is as follows. That is, the ion reduction water generating device using electrolysis according to the present invention has a power supply unit for supplying a normal power to generate ionized water by electrolysis, a rectifying unit for converting the AC voltage supplied through the power supply unit to a DC voltage, step by step pH concentration Current control unit for controlling the average current to a predetermined voltage to maintain within a certain range, the rectifier for converting the voltage of the AC supplied through the power supply to a direct current voltage and a current control unit through the current control unit to output the current to generate ionized water through electrolysis Central processing unit for controlling the function and current so that the water passed through the supply to the both ends of the electrolytic cell electrolysis to the current controlled by the output control unit, the current control unit separated into alkaline ionized water and acidic ionized water, It detects the amount of water supplied to the electrolytic cell and sends a signal to the central processing unit. The flow rate sensing unit for controlling the power on and off and the current control, the display unit for displaying the current supplied through the central processing unit and the amount of water supplied to the electrolytic cell and the overheating of the electrolytic cell, In the ion reduction water generating device using electrolysis comprising a voice output unit for each function operation state and the current operation state and a storage unit for storing all data made through the central processing unit, according to the temperature of the water supplied through the current control unit A temperature compensation circuit unit for controlling the average current to maintain a constant pH concentration of the generated ionized water; Reducing potential for each pH phase 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 even when the flow rate changes due to water pressure. It includes a frequency modulator for generating a low (ORP).
    [21] In the above-described configuration, the temperature compensation circuit unit controls the current low through the current control unit when the water temperature is high, whereas the temperature compensation circuit unit controls the current high through the current control unit when the water temperature is low.
    [22] At this time, the pH concentration value of the ion-reduced water kept constant under the control of the temperature compensation circuit portion in the above-described configuration is pH 8.0-10.0, more preferably pH 8.5-9.5. In addition, the value of the reduction potential (ORP) is preferably designed so that the -mV value of the reduction potential (ORP) is indicated higher than -200mV.
    [23] Hereinafter will be described in detail with respect to the ion reduction water generating device using electrolysis according to a preferred embodiment of the present invention.
    [24] 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.
    [25] 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.
    [26] On the other hand, according to the data, water with ORP indicating water freshness of -50mV or more (pH 8.0 ~ 10.0) has a power to remove free radicals which is the source of all diseases. Weak energy flows in the blood of healthy people, but in healthy people, it is known to be about -50mV to -100mV. On the other hand, oxidizing water of more than + 10mV rusts and oxidizes in the human body, causing each adult disease. It is known to be one.
    [27] 1 is a block diagram showing the configuration of an ion reduction water generating device using electrolysis according to the present invention.
    [28] As shown in FIG. 1, the ion reduction water generating apparatus using electrolysis according to the present invention includes a power supply unit 10 for supplying power to generate ion reduced water through electrolysis, and a rectifying unit for converting the supplied AC voltage into a DC voltage. 20), the current control unit 30 for controlling the average current to a predetermined voltage so that the pH concentration for each step is maintained within a predetermined range by the applied current, the rectifier 20 and the current control unit for converting the voltage of the supplied AC to DC voltage Electrolysis of the water passed through the supply to the both ends of the output unit 40 for outputting the current to generate the ion-reduced water through electrolysis through the electrolysis (30), the electrolytic cell (1) for the electrolysis of the controlled current Reversely detects the water supplied to the central processing unit 50, the electrolytic cell (1) to control the current to be separated into alkaline ionized water and acidic ionized water to reverse the power to turn on and off Flow rate detection unit 60 for detecting the amount of water and water, the display unit 70, the display unit to display 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, Stores all data made through the voice output unit 80 and the central processing unit 50 informing the state of the operation of the electrolyzer 1 and the state of the current operation of the electrolyzer 1 generated through the 70. In addition to the prior art consisting of the storage unit 90 to the temperature compensation circuit unit 100 for controlling the average current according to the temperature of the water supplied and a constant DC voltage by changing the pulse width according to the PWM (Pluse Width Modulation) method The frequency modulator 110 is configured to control the average frequency through the controller 30.
    [29] The temperature compensation circuit unit 100 and the frequency modulator 110 configured as described above may maintain the pH concentration of the ion-reduced water that is generated even when the flow rate is changed according to the water pressure of the supplied water, while the generated ions It serves to make the reducing potential (ORP) of the reducing water low. At this time, the pH concentration value of the ion-reduced water kept constant under the control of the temperature compensation circuit unit 100 is 8.0 to 10.0, more preferably pH 8.5 to 9.5. In addition, the reduction potential (ORP) is higher in the -mV value of the reduction potential than -200mV.
    [30] In more detail, first, in the configuration of the ion reduction water generating device using electrolysis according to the present invention, the temperature compensation circuit unit 100 controls the average current generated through the current control unit 30 according to the temperature of the supplied water. Keep the pH level of the reduced water constant. At this time, the temperature compensation circuit unit 100 controls the current low through the current control unit 30 when the temperature of the water supplied is high, while controlling the current high through the current control unit 30 when the temperature of the supplied water is low. The pH concentration of the generated ion-reduced water can be kept constant.
    [31] On the other hand, in the configuration of the ion-reduction water generating device using the electrolysis according to the present invention, the frequency modulator 110 has a constant pH concentration due to the function of the temperature compensation circuit unit 100 in spite of the variation of the flow rate according to the water pressure of the supplied water. In the maintained state, the reduction potential of the ion-reduced water generated by changing the pulse width is made low. That is, 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 reduce the reduction potential (ORP) for each pH step. To make it low.
    [32] 2 is a block diagram showing an operation relationship through the ion-reduced water generation method using electrolysis according to the present invention.
    [33] As shown in FIG. 2, the DC voltage is changed using a PWM method to control the average current and the frequency by changing the pulse width, and when the pH concentration is adjusted step by step, the flow rate sensor 60 of the flow sensor 60 (not shown) Checks the flow rate and applies a pulse signal to the central processing unit 50, and the current applied to the output terminal (terminal 1a) through the current control circuit by the calculation of the central processing unit 50 by the applied signal. Controlling produces ionized water (alkaline ionized water or acidic ionized water).
    [34] In addition, when electricity is applied to the ion reduction water generating device and the electrolytic cell 1 to generate ion reduced water, power is applied through the power supply unit 10, and when the user sets the pH concentration, the signal is applied to the central processing unit 50. And supply water to the electrolytic cell 1 to generate ion-reduced water at a set pH concentration, and the supplied water has a flow rate detected through the flow rate sensor of the flow rate sensing unit 60 to determine the rectifying unit 20 and the current control unit. Power applied through the 30 is applied to the electrolytic cell 1 to generate ion reduced water.
    [35] At this time, the temperature compensation circuit unit 100 controls the average current through the current control unit 30 according to the temperature of the water supplied, that is, the temperature compensation circuit unit 100 is the current through the current control unit 30 when the temperature of the supplied water is high. When the temperature of the supplied water is low, on the other hand, when the temperature of the supplied water is controlled by the high current control unit 30 to control the current so that the pH concentration of the ion-reduced water is kept constant.
    [36] In addition, the frequency modulator 110 changes the pulse width according to the PWM (Pluse Width Modulation) method by changing a predetermined DC voltage in a state where the pH concentration of the ion-reduced water generated by the temperature compensation circuit unit 100 is kept constant. By controlling the average current and frequency through the current control unit 30 it is possible to generate a low reduction potential (ORP) for each pH step generated in spite of the variation in the flow rate according to the water pressure.
    [37] Then, after the predetermined amount of water flows into the filter mode and the electrolytic cell 1 displayed through the display unit 70 displaying the amount of filter used by the flow rate detection, the input of water is blocked, and the water injected into the electrolytic cell 1 is closed. When the error (problem) occurs in the process of generating the ion-reduced water through the cleaning mode for cleaning the electrolytic cell 1 and the central processing unit 50 through the display unit 70 to display the error mode Through the control on / off the system for the ion reducing water generating device to produce the best ion reducing water.
    [38] 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.
    [39] Looking at the effect of the ion-reduced water generating device using the electrolysis according to the present invention configured as described above are as follows.
    [40] First, when a user applies power to an ion reduction water generating device using electrolysis to generate ion reduction water, normal AC power is supplied through the power supply unit 10, and power supplied through the power supply unit 10 is again rectified unit ( Through 20), the conventional AC power source is changed into a DC power source so that the average current is supplied at a predetermined voltage through the current control unit 30.
    [41] At this time, the ion reduction water generating device is generated through the control of the current control unit 30 through the control of the average current through the current control unit 30 of the temperature compensation circuit unit 100 and the change in the pulse width of the frequency modulator 110. While maintaining the pH concentration of the ion-reduced water constant, it is possible to generate a low reduction potential for each pH step of the ion-reduced water generated.
    [42] When a predetermined average current is supplied through the current control unit 30, the central processing unit 50 stores the pH concentration preset by the user, and a current is supplied to the electrolytic cell 1 so that ion-reduced water can be generated at the stored pH concentration. do.
    [43] 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 to electrolyze the water in the electrolytic cell 1 so that the user Generates ion-reduced water according to the set pH.
    [44] Before generating the 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 corresponding thereto.
    [45] As described in the above configuration, when the user generates the ion-reduced water, the user automatically recognizes the abnormality related to the filter mode, the cleaning mode, the drainage mode, and the error mode.
    [46] In the filter mode, the flow rate through the filter is counted and accumulated, so that the user can know it through the display unit 70. The cleaning mode is a cleaning function in the electrolytic cell 1, and at least 10 liters of the electrolytic cell 1 are used. In this case, the water is passed through the electrolytic cell 1 and is not operated when being electrolyzed, and the cleaning operation is performed only when the flow rate is stopped so that the cleanliness is always maintained.
    [47] 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.
    [48] For example, Er-1, Er-2, Er-3, Er-7, and Er-of are displayed on the display unit 70. It 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.
    [49] When Er-2 is displayed through the display unit 70, it 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.
    [50] In addition, if Er-3 is displayed through the display unit 70, it is displayed when the electrolytic cell 1 is overheated, and when Er-OF is displayed, it is displayed when the flow rate exceeds 3L per minute, and Er-7 displays the display unit 70. If the display is displayed when the cleaning failure, it is displayed when passing the water during the cleaning so that the user can determine the state of the electrolytic cell (1).
    [51] 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.
    [52] The present invention is not limited to the above embodiments, and various modifications can be made within the scope of the technical idea of the present invention.
    [53] As described above, according to the present invention, an effect of maintaining a constant pH concentration by controlling a current according to the temperature of water through the temperature compensation circuit unit is generated so that ion-reduced water having a constant pH concentration is generated even when the flow rate is changed according to the water pressure.
    [54] In addition, the present invention has the effect of generating a low reduction potential (ORP) by controlling the average current and frequency by changing the pulse width according to the PWM (Pluse Width Modulation) method.
    权利要求:
    Claims (3)
    [1" claim-type="Currently amended] Power supply unit for supplying normal power to produce ion-reduced water by electrolysis, rectification unit for converting the AC voltage supplied through the power supply unit to DC voltage, average current at a predetermined voltage so that the pH concentration for each step can be maintained within a certain range A current control unit for controlling the output unit for outputting the current to generate the ion-reduced water through the electrolysis through the rectifying unit and the current control unit for converting the voltage of the AC supplied through the power supply unit, the current control unit A central processing unit that controls the function and current so that the water passed through the supply to the both ends of the electrolytic cell electrolytic current to be separated into alkaline ionized water and acidic ionized water, and detects the amount of water supplied to the electrolytic cell A device that sends a signal to the central processing unit to turn on / off circuit power. Flow rate sensing unit for controlling the over-current, the display unit for displaying the current supplied through the central processing unit and the amount of water supplied to the electrolytic cell and the overheating of the electrolytic cell, each function operating state and the current operating state displayed through the display unit In the ion reduction water generating apparatus using electrolysis comprising a voice output unit for notifying and a storage unit for storing all data made through the central processing unit,
    A temperature compensation circuit unit configured to maintain a constant pH concentration of the ion-reduced water generated by controlling the average current through the current control unit according to the temperature of the supplied water; And
    By controlling the average current and frequency through the current control unit by changing the pulse width according to the PWM (Pluse Width Modulation) method in a state in which a constant pH concentration is maintained even in the fluctuation of the flow rate according to the water pressure of the supplied water Ion reduced water generating apparatus using electrolysis, characterized in that it comprises a frequency modulator for generating a low reduction potential (ORP) for each pH step.
    [2" claim-type="Currently amended] The electrolysis of claim 1, wherein the temperature compensation circuit unit controls a low current through the current control unit when the temperature of water is high, while controlling a high current through the current control unit when the temperature of water is low. Ion reduced water generating device using.
    [3" claim-type="Currently amended] The method of claim 1 or 2, wherein the reduction potential (ORP) at a concentration value of pH 8.0 ~ 10.0 of the ion-reduced water kept constant by the control of the temperature compensation circuit portion appears that the value of -50 mV ~ -1000mV high Ion reduced water generating device using the electrolysis characterized in that.
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    同族专利:
    公开号 | 公开日
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    2004-03-11|Application filed by 주식회사 바이온텍
    2004-03-11|Priority to KR1020040016605A
    2004-04-09|Publication of KR20040030760A
    优先权:
    申请号 | 申请日 | 专利标题
    KR1020040016605A|KR20040030760A|2004-03-11|2004-03-11|Creation apparatus of ion water|
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