JP3319791B2 - Electrolyzed water generator - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrolyzed water generating apparatus for electrolyzing tap water, separating alkaline water and acidic water and discharging them separately.

[0002]

2. Description of the Related Art Conventionally, after purifying tap water through a water purifier such as a hollow fiber membrane or activated carbon, the tap water is guided to an electrolytic cell to conduct electrolysis, thereby continuously producing alkaline water and acidic water. A generation device is provided. This type of electrolyzed water generator is configured to obtain alkaline water and acidic water by applying a DC voltage between electrodes provided in an electrolytic cell.

[0003]

Therefore, the conductivity between the electrodes changes according to the concentration of various ions (calcium ion, magnesium ion, chloride ion, sulfate ion, etc.) contained in tap water. When the concentration is high, a current easily flows between the electrodes and the electrolysis speed increases, so that the hydrogen ion concentration index of the alkaline water becomes larger than a desired value and the hydrogen ion concentration index of the acidic water (hereinafter abbreviated as pH value). Is smaller than a desired value (that is, alkalinity and acidity increase). Further, the same problem occurs when the water purifier is clogged or the amount of water per unit time passing through the electrolytic cell is reduced by squeezing a water tap connected to the water purifier. In the conventional electrolyzed water generating apparatus, there is provided one in which a user can adjust the voltage applied between the electrodes provided in the electrolytic cell, but the applied voltage between the electrodes is kept at a constant voltage selected by the user. After all, if the water quality and usage conditions in the area where you use it change,
The pH value of the extracted alkaline water or acidic water varies. In this case, p which is not suitable for drinking
Alkaline water having a high H value may be taken out.

An object of the present invention is to solve the above-mentioned problems, and to prevent the production of electrolytic water having a pH value that is unsuitable for use even if the components of tap water or the use conditions change. Another object of the present invention is to provide an electrolyzed water generating apparatus that suppresses variation in pH value of electrolyzed water.

[0005]

According to the first aspect of the present invention, in order to achieve the above object, an electrolytic cell for electrolyzing water, separating alkaline water and acidic water and discharging the separated water, and an electrolytic cell provided in the electrolytic cell. Voltage selection means for selecting a voltage to be applied between the electrodes, voltage control means for detecting a current flowing between the electrodes, and changing the voltage applied between the electrodes in a direction to decrease when the current value reaches a predetermined upper limit , Displays the selection made by the voltage selection
Even if the applied voltage between the electrodes is changed by the voltage control means,
Display means that does not change the content is provided.

In the invention of claim 2, water is electrolyzed and alkali
An electrolytic cell that separates water and acidic water and discharges them separately,
Voltage selection means for selecting the voltage to be applied between the electrodes provided in the tank
Detects the current flowing between the step and the electrode, and the current value reaches the specified upper limit
When the value is reached, the voltage applied between the electrodes decreases
The voltage control means for causing
Apply voltage between and select by voltage selection means
Rapidly applying a voltage between the electrodes that is higher than the highest possible voltage
Electrolysis means, selection by voltage selection means and rapid electrolysis means
The selection is displayed and the applied voltage between the electrodes is controlled by the voltage control means.
Display means that does not change the display content even if it changes,
The voltage control means operates according to the voltage selected by the voltage selection means.
The first upper limit is set for normal electrolysis,
The first corresponding to the rapid electrolysis by the voltage set by the solution means
A second upper limit that is higher than the upper limit is defined,
During normal electrolysis, when the current value reaches the first upper limit,
The voltage applied to
Is the voltage applied between the electrodes when the current value reaches the second upper limit.
The pressure is changed in the direction of decreasing .

[0007]

[0008]

[0009]

According to the first aspect of the present invention, there is provided the voltage control means for detecting the current flowing between the electrodes and changing the voltage applied between the electrodes in a direction to decrease when the current value reaches a predetermined upper limit. When the amount of water passing through the electrolytic cell per unit time is small or the concentration of ions contained in the water is high and the current flowing between the electrodes increases to the upper limit, the voltage is applied between the electrodes. By lowering the voltage, the electrolysis speed is reduced, and as a result, alkaline water having a high pH value that is not suitable for drinking can be prevented from being discharged from the electrolytic cell. That is, the variation of the pH value with respect to the desired pH value set by the voltage setting means is reduced.

In addition, since the display means does not indicate the actual voltage applied between the electrodes but displays the contents selected by the voltage selection means, the voltage applied between the electrodes is changed by the operation of the voltage control means. Since the display of the display means does not change, the display means can give an indication of the pH value of the electrolyzed water discharged from the electrolytic cell.

[0011]

According to the configuration of claim 2, the voltage selection means and
Is a than are only set the rapid electrolysis means for applying a high voltage between the electrodes than the maximum voltage that can be selected by the voltage selection means to apply a voltage between the alternatively electrodes, in water to be electrolysis Use rapid electrolysis means when the pH value of alkaline water does not increase even after electrolysis because it contains a lot of carbon dioxide roots, or when the amount of water per unit time passing through the electrolytic cell is too large. By pH
Valuable alkaline water can be obtained. In addition, when the water quality and the amount of water are normal, the pH value of the alkaline water becomes so high that it is not suitable for drinking, and the pH value of the acidic water becomes extremely low and becomes strongly acidic. Water is effective when used for desiccation of vegetables, and it can be used for disinfection of acidic water. In addition
Therefore, the rapid electrolysis means is provided between the electrodes as an alternative to the voltage selection means.
Since the voltage is applied , no matter what voltage is selected by the voltage selection means, the rapid electrolysis by the rapid electrolysis means can be started immediately.

Further, the voltage control means includes a voltage selection means.
The first upper limit value corresponds to the normal electrolysis with the selected voltage
Rapid electrolysis with the voltage set by the predetermined and rapid electrolysis means
The second upper limit that is higher than the first upper limit is predetermined
And the current value during normal electrolysis is the first upper limit
When the voltage reaches, the voltage applied between the electrodes decreases.
During rapid electrolysis, when the current value reaches the second upper limit,
Since the voltage applied between the poles is changed in a downward direction,
When the amount of water passing through the thawing tank per unit time is small,
When the concentration of ions contained in water is high,
When the current flowing through the
The electrolysis speed by lowering the voltage
In addition, it is possible to prevent alkaline water having a high pH value that is not suitable for drinking during normal electrolysis from being discharged from the electrolytic cell, and during rapid electrolysis, the pH value becomes high or low to a degree harmful to the human body There is an advantage that it can be prevented from becoming dull . That is, the voltage selection means
Variation of the pH value relative to the desired pH value
It is gone. In addition, the display means is applied between the electrodes.
Voltage selection procedure instead of displaying the actual voltage
Displays the selection by step and rapid electrolysis means,
The voltage applied between the electrodes changes due to the operation of the voltage control means.
The display of the display means does not change even if
Gives an indication of the pH value of the electrolyzed water discharged from the electrolytic cell.
Can be obtained.

[0014]

FIG. 1 shows the overall configuration of this embodiment. Tap water is supplied to a water purifier 1 through a manifold 12 connected to a faucet 11.
3 is introduced. The manifold 12 is provided for selecting whether to pass the tap water to the water purifier 13 or to discharge the tap water without passing through the water purifier 13. (Not shown). The output of the pressure switch is controlled by a controller 2 described later.
Input to 0. The water purifier 13 removes odor and insoluble impurities using activated carbon or a hollow fiber membrane. The activated carbon or the hollow fiber membrane is detachably mounted on the water purifier 13 as a cartridge. The purified water discharged from the water purifier 13 is introduced into the electrolytic cell 14. The electrolytic cell 14 includes two types of electrodes 15a and 15b immersed in purified water introduced into the cell, and includes a diaphragm made of a porous film or the like that partitions the electrodes 15a and 15b approximately 3: 1. . In addition, each electrode 15a, 15
The water in the vicinity of b is discharged to the outside of the electrolytic cell 14 through discharge pipes 16a and 16b, respectively. Electrode 15a
The water discharged through the discharge pipe 16a from the vicinity of the container is mainly used, and the water discharged through the discharge pipe 16b is drained. That is, electrons are supplied to the chamber on the cathode side of the electrodes 15a and 15b, so that cations are
Is collected in the vicinity of the electrode 15 and alkaline water is obtained. In the chamber on the anode side, electrons are deprived and anions are collected in the vicinity of the electrode 15b to obtain acidic water.

The DC voltage applied to both electrodes 15a and 15b is obtained by rectifying and smoothing a commercial AC power supplied through a plug 21 and a fuse 22 by a power supply circuit 23. The power supply circuit 23 has two electrodes 15a,
A switching circuit 23a is provided as polarity switching means for selecting which of 15b is to be the anode. The controller 20 is connected to a switch such as a tactile-type switch (a push button switch having a small stroke) as an operation unit and an operation display unit 24 including a light emitting diode and the like as a display unit. An auxiliary setting unit 25 for setting the usage time of the device is connected.

The operation display section 24 includes a power switch SW _{1 for} turning on / off the circuit power, a changeover switch SW ₂ for operating the changeover circuit 23a so as to reverse the polarity of the voltage applied to the electrodes 15a and 15b, A rapid electrolysis switch SW ₃ for selecting an electrolysis operation, and a p for selecting a voltage to be applied between the electrodes 15a and 15b in a normal electrolysis operation.
H selection switch SW ₄ is provided as an operation means. Further, the operation display unit 24, a power lamp L ₁ to display the on-off of the circuit power by the power switch SW _1, the changeover switch S
Electrodes 15a and controls the switching circuit 23a by the operation of W ₂
The includes an alkali lamp L ₂ which lights when discharging the alkaline water from the discharge pipe 16a is set to a cathode, and an acidic lamp L ₃ which lights when discharging the acidic water from the discharge pipe 16a.
Further, the operation display unit 24 includes a quick electrolytic switch SW _3.
The rapid electrolysis lamp L ₄ which lights when operating the, and five pH indicator L ₅ ~L ₉ to cyclically lighting is provided each time the operating pH the selection switch SW ₄ to 1 Kai押. Rapid and electrolyte lamp L ₄ and pH indicator L ₅ ~L ₉ is a than only one is lit, in a state in which the rapid electrolysis lamp L ₄ is not lit effective operation of pH selection switch SW ₄ is there are, pH indicator L ₅ ~L ₉ is sequentially turned on every press operation once. Here, in the vicinity of pH indicator L ₅ ~L ₉ is P
Characters H0~PH4 are denoted, when the pH indicator L ₉ corresponding to PH0 is lit, it discharges the purified water from the discharge pipe 16a, 16b without electrolysis. Also,
Between PH1 and PH4, the voltage applied to the electrodes 15a and 15b increases so that the electrolytic capacity increases stepwise.

When the faucet 11 is closed and water stops, the controller 20 controls the power supply circuit 23 so as to stop electrolysis by the output of the pressure switch. That is, when the water stops, the voltage applied to the electrodes 15a and 15b becomes 0V. In the auxiliary setting unit 25, an integrated value setting switch SW for setting an integrated value of the usage time of the cartridge of the water purifier 13
Includes a _5, a sound informing selection switch SW ₆ in which either the discharge pipe 16a of the alkaline water and acidic water for selecting whether or not to notify by sounds or are discharged. In the state in which to select the notification by sound in a sound informing selection switch SW _6, it is in the water supply of alkaline water flow is music, is in the water supply of the acidic water flows through a warning sound such as "beep beep". The means for generating a sound and the means for generating a sound signal are not shown but are provided in the controller 20. When the pressure switch detects the stop of water supply, the sound notification stops. Integrated value setting switch SW ₅ is for example "30 hours", "45 hours", a settable 3 stages of "60 hours", compared with the set time and the elapsed time after the mounting of the cartridge into the water purifier 13 and notifies the replacement timing of the cartridge by turning on the cartridge lamp L ₁₁ near the operation display unit 24 to the set time. Time to replace the cartridge notifies by flashing the cartridge light L ₁₁ from 5 hours before the time set. The integrated value of the usage time of the cartridge is the integrated value of the time during which water flow is detected by the output of the pressure switch.
To whether to perform electrolysis by 4 it is accumulated irrespective power switch SW ₁ is integrated even off. Further, the integrated value is held at the time of a power failure or when the plug is unplugged from the outlet.

This will be described in more detail. As shown in FIG. 2, the plug 21, the fuse 22, the primary winding of the transformer T ₁ through line filter 26 is connected to a commercial AC power source. The power supply path to the primary winding of the transformer T ₁ is inserted and the contact r ₁ and the thermal switch Th of the relay Ry ₁ to be described later, when the temperature of the transformer T ₁ is increased to more than the specified value the thermal switch Th is activated It is adapted to stop power supply to the transformer T ₁ Te. Moreover, the tap so as to be able to select the secondary voltage to the five stages is provided on the secondary winding of the transformer T _1. That is, the transformer T
₁ of 5V from the secondary winding, 10V, 15V, 20V, 3
A secondary voltage of five stages of 0 V can be obtained. Which secondary voltage is used is determined by five relays Ry ₂
ＹRy ₆ are selected by a selection circuit 27 which also serves as a voltage selection means consisting of contacts r _{2 to} r ₆ and a rapid electrolysis means.

The transformer T selected by the selection circuit 27
₁ secondary voltage, the capacitor C ₁ for full-wave rectifying circuit 23b and a smoothing such as a diode bridge and the relay Ry _7, R
is input is rectified and smoothed to contact r _7, r ₈ power supply circuit 23 constituted by the switching circuit 23a consisting of y _8. The switching circuit 23a can invert the polarity of the output voltage of the power supply circuit 23. The output voltage of the power supply circuit 23 is applied between the electrodes 15a and 15b of the electrolytic cell 14, and a voltage proportional to the voltage selected by the selection circuit 27 is applied between the electrodes 15a and 15b. Become.

Further, the resistance R ₁ for detecting a current flowing between the electrodes 15a, 15b are inserted between the capacitor C ₁ and the switching circuit 23a for smoothing, voltage across the resistor R ₁ the adapted by inputting to both inputs of the comparator CP _1, compared to the magnitude of the energizing current and predetermined upper limit in accordance with the voltage drop at the resistor R _1. The comparator CP ₁ outputs an overcurrent detection signal to the controller 20 having a microprocessor as a main component when the voltage across the resistor R ₁ reaches a predetermined upper limit value in accordance with the voltage applied to the electrodes 15 a and 15 b. I do. Here, the resistor R ₁ is using a manganin wire 0.005
It has a low resistance of about 0.2 Ω. The upper limit in the comparator CP ₁ is, pH selecting switch S
W ₄ by the electrode 15a, and the normal electrolysis conditions of selecting the voltage applied to 15b, the electrodes 15a by rapid electrolytic switch SW _3, respectively set in two stages for the rapid electrolysis of the state of selecting the voltage applied to 15b Has become. It goes without saying that the upper limit for normal electrolysis is used for normal electrolysis and the upper limit for rapid electrolysis is used for rapid electrolysis. The upper limit for rapid electrolysis is set higher than the upper limit for normal electrolysis.

On the other hand, the power supply of the relays Ry _{2 to} Ry ₈ is output from the stabilized power supply circuit 28 so as to be 12 V in this embodiment, and the input voltage to the stabilized power supply circuit 28 is a transformer T
_One secondary winding is obtained from a 15V tap. One end of each relay Ry ₂ to Ry ₈ is connected to one end of the stabilized power supply circuit 28 are commonly connected, the relay Ry
The other end of the ₂ to Ry ₈ is connected to the corresponding port of the controller 20. Therefore, power is supplied to the relay Ry ₂ to Ry ₈ the output of any port of the controller 20 corresponding to the L level, the corresponding contact r ₂ ~r ₆
Is turned on, and the contacts r ₇ and r ₈ are switched.

The power supply to the controller 20 is a transformer T
₁ is obtained by passing the output voltage of a transformer T ₂ provided separately from the stabilizing power supply circuit 29 to the stabilized power supply circuit 29.
The output voltage of No. 9 is set to 5 V in this embodiment. The output terminal of the stabilized power supply circuit 29 is connected to one end of the relay Ry _1, relay Ry ₁ turns on the contact point r ₁ and conducts the ON signal output from the controller 20. As described above, the controller 20 has the operation display unit 24
And the auxiliary setting unit 25 are connected.

The operation will be described below. First, plug 21
Is connected to the outlet of the commercial AC power supply, the controller 20 is energized through the stabilized power supply circuit 29, and the controller 20 starts operation after being reset. Next, when the power switch SW ₁ of the operation display unit 24 to press operation, the power lamp L ₁ is turned, also the contact r ₁ is energized is output on signal from the controller 20 to the relay Ry ₁ is turned on. Contact r ₁ is fed to the transformer T ₁ if on. At this time, since the controller 20 has been initialized, the selection circuit 27 selects all the contacts r _{2 to} r _6.
There are turned off, pH indicator lamp L ₉ is the electrolytic cell electrodes 15a and lit, 15b is not performed electrolyte not applied voltage is. Alkali lights L ₂ and acidic lamp L ₃ is also turned off.

Next, the rapid electrolytic switch SW ₃ or the pH
When the water supply is confirmed by the output of the pressure switch when the selection switch SW ₄ is pressed, the rapid electrolytic lamps L ₄ , p
Either H indicator L ₅ ~L ₈ is lit, the electrodes 15a,
A voltage is applied to 15b to start electrolysis. That is,
Each time the pH selection switch SW ₄ is pressed once, L ₉ →
Cyclically lights in the order of _{L 8 → L 7 → L 6} → L 5 → L 9,
Corresponding contacts r ₃ ~r ₆ of the relay Ry ₃ to Ry ₆ is sequentially alternatively selected. pH indicator L ₅ ~L ₈ lit is selected by the pH selected switch SW ₄ is lit continuously be water stop to close the faucet 11. When the quick electrolysis switch SW ₃ is pressed, the pH selection switch SW ₄ is operated.
Relay R regardless of the applied voltage selected by
y ₂ is turned on, rapid electrolytic lamp L ₄ is lighted. This state of rapid electrolysis continues for a maximum of 10 minutes, and after 10 minutes, rapid electrolysis is automatically canceled. By the time 10 minutes have passed, the rapid electrolytic switch SW ₃ is pressed again, the pH selection switch SW ₄ is operated, and the faucet 1 is turned off.
Even if 1 is closed and water is stopped, rapid electrolysis is canceled. When the rapid electrolysis is released, the state returns to the state in which the applied voltage selected before the release is applied to the electrodes 15a and 15b.
Using time also rapidly electrolysis during the operation of the rapid electrolysis by operating the changeover switch SW ₂ is timed in total. When the rapid electrolysis is canceled, the switching circuit 23a sets the electrode 15
A is set to be a cathode, and a state in which the alkaline water is discharged from the discharge pipe 16a is selected.

[0025] In this case, the voltage across during the electrolytic resistance R ₁ is not more of that is monitored by a comparator CP _1, both ends of the normal electrolysis and rapid electrolyte and resistance than the upper limit value set respectively for R ₁ when the voltage rises, the overcurrent detection signal is inputted from the comparator CP ₁ to the controller 20, this time, the controller 20
The relay Ry ₃ the applied voltage so as to reduce one step ~Ry
Select ₆ . That is, when the pH value of the alkaline water generated in the electrolytic cell 14 becomes excessive compared to a desired value due to the water quality and the amount of water, the pH value is lowered by lowering the voltage applied to the electrodes 15a and 15b by one step. Thus, the pH value is kept almost at a desired value. Also, when the even lower the applied voltage the voltage across the resistor R ₁ exceeds the reference value for the first selected applied voltage remains because the overcurrent detection signal is to be output, the electrode 15a, the voltage applied to 15b Will be further reduced. If the operation by the press operation of the rapid electrolysis switch SW ₃ is the lowest voltage to be applied is 20V, if an operation by press operation of pH selection switch SW ₄ is the lowest voltage becomes 0V is applied. Further, when the operation by the press operation of the rapid electrolysis switch SW _3, the electrode 1
5a, in a state that both exceeds a reference value the voltage applied to 15b as 20V, thermal switch Th is turned off with a built by the temperature rise of the transformer T _1, the electrode 1
The application of the voltage to 5a and 15b stops. Power lamp L ₁ is informed flashes during operation of the thermal switch Th.

[0026] When normal electrolysis applies a voltage selected by pH selection switch SW ₄ electrodes 15a, and 15b is, pH value of the alkaline water is kept below 10, pH value of acid water in 3-5 above It will be controlled to be maintained. On the other hand, rapid electrolytic switch SW ₃ voltage electrodes 15a selected by, when the rapid electrolysis is applied to 15b is, pH value of the alkaline water is about 11, pH of the acidic water
The value will be about 2.7. Although this alkaline water is not suitable for drinking, it can be used for desiccation of vegetables and the like, and it can be used for sterilization and the like of acidic water.

[0027] Any of the pH indicator L ₅ ~L ₉ is lit when selecting the applied voltage by pH selection switch SW _4, rapid electrolytic lamp L ₄ is turned on when setting the application voltage by rapid electrolytic switch SW ₃ From, in the state where alkaline water of pH value not suitable for drinking is discharged,
It is possible to call attention by lighting of the rapid electrolysis lamp L _4.

The electrodes 15a, 15
When the voltage applied to b is lowered rapidly electrolytic lamp L _4, change in the lighting state of pH indicator L ₅ ~L ₉ is not,
Rapid electrolytic lamp L _4, pH indicator L ₅ ~L ₉ is as shown only selected state by rapid electrolytic switches SW ₃ and pH selection switch SW _4. That is, rapid electrolytic lamp L _4, pH indicator L ₅ ~L ₉ electrodes 15a, regardless of the actual voltage applied to 15b, the discharge pipe 16a, 16
This almost corresponds to the pH value of the alkaline water and acidic water discharged from b. Even if instantaneous overcurrent detection signal from the comparator CP ₁ the voltage across the resistor R ₁ is beyond the momentarily reference value is generated, reduction in the controller 20 in the applied voltage is not performed, the overcurrent detection signal 0.5
If the voltage is continued for a time equal to or more than mS and equal to or less than 10S, the applied voltage is reduced to prevent malfunction due to noise.

The controller 20 has a pH selection switch SW
₄ is provided with a storage unit composed of an E ² PROM for storing the selection state according to ( _{4). In the} event of a power failure or when the plug is disconnected from the outlet, the integrated value of the usage time of the cartridge and the usage time of the electrolytic cell 14 within the instantaneous power failure time of 40 mS are provided. The integrated value is stored in the storage unit. Therefore, if the flow of water is resumed after the energization is resumed, the integration starts from the integrated value before the stop of the energization.
When the cartridge is replaced or the electrodes 15a and 15b are replaced, the integrated value is reset.

By the way, if the electrolysis is continued, the electrode 15
Scales are formed on a and 15b by ion precipitation. In order to remove such scales, the present embodiment is provided with a reverse-current cleaning function. That is, when the faucet 11 is closed and water is stopped in a normal use state in which tap water is passed through the electrolytic cell 14, the water in the electrolytic cell 14 is automatically discharged, and the electrodes 15a, 15b
The polarity of the voltage applied to is reversed. By reversing the voltage in this manner, the electrode 15
scales deposited on the electrodes 15a, 15b
b, and the electrodes 15a and 15b are cleaned. During their opposite electrostatic cleaning continues to monitor the voltage across the resistor R _1, it is adapted to lower the applied voltage exceeds the reference value. At the time of the reverse voltage cleaning, the voltage is initially set to 15 V, and when the applied voltage is reduced, it becomes 10 V, but no further reduction is performed.

It should be noted, the voltage of the tapped transformer T ₁ in the above embodiment, 5V, 10V, 15V, 20V, 30
Although it is set to V, it is not necessarily limited to this, and 5-10 V, 10-15 V, 15-2
It can be set appropriately within the range of 0 V, 20 to 25 V, and 30 to 40 V.

[0032]

According to the first aspect of the present invention, there is provided a voltage control means for detecting a current flowing between the electrodes and changing the voltage applied between the electrodes to a lower direction when the current value reaches a predetermined upper limit value. If the amount of water passing through the electrolytic cell per unit time is small or the concentration of ions contained in the water is high, and the current flowing between the electrodes increases to the upper limit,
By reducing the voltage applied between the electrodes, the electrolysis speed is reduced, and consequently p
There is an advantage that discharge of alkaline water having a high H value can be prevented. That is, the variation of the pH value with respect to the desired pH value set by the voltage setting means is reduced.

In addition, since the display means displays the contents selected by the voltage selection means, the display means does not display the actual voltage applied between the electrodes, but the voltage applied between the electrodes by the operation of the voltage control means. The display of the display means does not change even if the value changes, and the display means has an effect that the pH value of the electrolyzed water discharged from the electrolytic cell is a measure of the pH value.

According to a second aspect of the present invention, the voltage selecting means is an alternative.
Manner since setting only a rapid electrolysis means for applying a high voltage between the electrodes than the maximum voltage that can be selected by the voltage selection means to apply a voltage between the electrodes, carbon dioxide roots and the like in the water to be electrolysis When the pH value of alkaline water does not increase even after electrolysis because it is contained in a large amount, or when the amount of water per unit time passing through the electrolytic cell is too large, the pH value is increased by using rapid electrolysis means. There is an advantage that alkaline water can be obtained. Also,
When the water quality and amount of water are normal, the pH value of the alkaline water becomes so high that it is not suitable for drinking, and the pH value of the acidic water becomes extremely low and becomes strongly acidic. It is effective when used to remove lye from vegetables, and can be used for disinfection of acidic water.
In addition, rapid electrolysis means is an alternative to voltage selection means
Since the voltage is applied during the period, no matter what voltage is selected by the voltage selection means, there is an effect that the rapid electrolysis by the rapid electrolysis means can be started immediately.

Further, in the voltage control means, the voltage selection means
The first upper limit value corresponds to the normal electrolysis with the selected voltage
Rapid electrolysis with the voltage set by the predetermined and rapid electrolysis means
The second upper limit that is higher than the first upper limit is predetermined
And the current value during normal electrolysis is the first upper limit
When the voltage reaches, the voltage applied between the electrodes decreases.
During rapid electrolysis, when the current value reaches the second upper limit,
Since the voltage applied between the poles is changed in a downward direction,
When the amount of water passing through the thawing tank per unit time is small,
When the concentration of ions contained in water is high,
When the current flowing through the
The electrolysis speed by lowering the voltage
In addition, it is possible to prevent alkaline water having a high pH value that is not suitable for drinking during normal electrolysis from being discharged from the electrolytic cell, and during rapid electrolysis, the pH value becomes high or low to a degree harmful to the human body This has the effect of preventing it from becoming dull. That is, the voltage selection means
Of the pH value relative to the desired pH value
It is less. In addition, the display means is applied between the electrodes
Voltage selection instead of displaying the actual voltage
Display the selection by means and rapid electrolysis means
The voltage applied between the electrodes changes due to the operation of the voltage control means.
Display does not change even if
The measure is a measure of the pH value of the electrolyzed water discharged from the electrolytic cell.
Can be given.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram showing an embodiment.

FIG. 2 is a circuit diagram of an embodiment.

[Explanation of symbols]

14 electrolyzer 15a electrode 15b electrode 20 controller 23a switching circuit 24 the operation display unit CP ₁ comparator L ₂ alkaline lamp L ₃ acidic lamp L ₄ rapidly electrolyte lamp L ₅ ~L ₉ pH indicator R ₁ resistor SW ₂ changeover switch SW ₃ rapidly Electrolytic switch SW ₄ pH selection switch

Continuing on the front page (72) Inventor Hiroyuki Noguchi 1048 Kadoma, Kazuma, Osaka Prefecture Matsushita Electric Works, Ltd. Reference JP-A-5-329479 (JP, A) JP-A-1-163494 (JP, U) JP-A-55-144591 (JP, U) (58) Fields investigated (Int. Cl. ⁷ , DB name) C02F 1/46

Claims (2)

(57) [Claims] 1. An electrolytic cell for electrolyzing water to separate and separate alkaline water and acidic water from each other, a voltage selecting means for selecting a voltage applied between electrodes provided in the electrolytic cell, and a voltage flowing between the electrodes. Voltage control means for detecting a current and changing the voltage applied between the electrodes in a direction to decrease when the current value reaches a predetermined upper limit value
And display the selection contents by the voltage selection means and apply the voltage between the electrodes.
Even if the voltage is changed by the voltage control means, the display contents will not change.
An electrolyzed water generating apparatus, comprising: a display means for preventing the generation of electrolyzed water. 2. Electrolyzing water to separate alkaline water and acidic water.
Between the electrolytic cell and the electrodes provided in the electrolytic cell
A voltage selection means for selecting a voltage to be applied and a flow between the electrodes
Between the electrodes when the current value reaches the specified upper limit.
Voltage control means for changing the voltage applied to
And the voltage selecting means alternatively applies a voltage between the electrodes
Together with the highest voltage selectable by the voltage selection means
Electrolytic means for applying a high voltage between the electrodes and voltage selection
Display the contents of selection by the selection means and rapid electrolysis means
Display contents even if the applied voltage changes by the voltage control means
Display means that does not change the voltage control means,
Corresponds to normal electrolysis with the voltage selected by the voltage selection means.
The first upper limit is set by the
Pressure higher than the first upper limit in response to rapid electrolysis by pressure.
The upper limit of 2 is specified, and the current during normal electrolysis is
When the value reaches the first upper limit, the voltage applied between the electrodes decreases.
The current value during the rapid electrolysis.
When the limit is reached, the voltage applied between the electrodes
An electrolyzed water generating apparatus characterized in that it is made into an electrolyte .