JP3942412B2 - Portable electrolyzed water generator - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electrolyzed water generating device that electrolyzes water in a container to produce acidic or alkaline electrolyzed water. More specifically, the present invention relates to a portable electrolyzed water generating apparatus that can generate acidic or alkaline electrolyzed water batchwise by electrolyzing water in a container and can be easily transported.
[0002]
[Prior art]
Conventionally, this type of electrolyzed water generating apparatus is known as an apparatus that can generate acidic or alkaline electrolyzed water by mixing a small amount of a chlorine-based electrolytic substance in water and electrolyzing the water.
Such an electrolyzed water generating apparatus forms an anode tank and a cathode tank by partitioning the inside of the container with a diaphragm, and arranges an anode plate in the anode tank and a cathode plate in the cathode tank. A device in which acidic electrolytic water is obtained from the anode tank and alkaline electrolytic water can be obtained from the cathode tank by supplying water in which a small amount of electrolytic substance is dissolved to the anode and flowing direct current into the anode and cathode. (Japanese Patent Laid-Open No. 2000-246249).
According to such a conventional electrolyzed water generating apparatus, although depending on electrolysis conditions, acidic electrolyzed water having a hydrogen ion concentration of 2.0 to 3.5 is converted to alkaline having a hydrogen ion concentration of 10.5 to 12.0. Electrolyzed water can be obtained.
[0003]
[Problems to be solved by the invention]
However, according to the conventional electrolyzed water generating apparatus described above, since it is not basically configured to be portable, there is a drawback in that electrolyzed water cannot be easily obtained anywhere.
Moreover, the conventional electrolyzed water generating apparatus described above has a drawback that the apparatus is large, has a large number of parts, and is expensive.
Furthermore, the conventional electrolyzed water generating apparatus described above has a drawback that complicated operation and control are required to obtain electrolyzed water.
The present invention has been made in view of the above-described drawbacks, and an object of the present invention is to provide a portable electrolyzed water generating device that can be easily carried and can be used conveniently.
[0004]
[Means for Solving the Problems]
In order to achieve the above object, the portable electrolyzed water generating device according to the first aspect of the present invention is portable so as to generate acidic or alkaline electrolyzed water in a batch manner by electrolyzing water in the container. An electrolyzed water generating device, wherein the inside of a container is partitioned by a diaphragm fixing plate to which a diaphragm is fixed to form two large and small tanks, and an electrode is disposed in each tank, and the bottom side of the two tanks The electrolytic tank provided with a small communication hole for communicating the two tanks, a drain tank that can be attached to or removed from the mounting part, and the electrolyzed water generated in the small tank of the electrolytic tank A first drainage system capable of draining into a drainage tank, a second drainage system capable of taking the electrolyzed water generated in a large tank of the electrolytic tank to the outside, and a current that takes in power from a DC power source and flows to both electrodes The amount can be adjusted and the electrolysis Is characterized in that the electrolytic water of the first said smaller vessel operated drainage system of a control unit for the control to be drained into the drainage tank when the completion.
In invention of Claim 2, in the portable electrolyzed water generating apparatus of Claim 1, the said control part can adjust the electric current sent to the said both electrode parts by adjusting energization time. It is a feature.
According to a third aspect of the present invention, in the portable electrolyzed water generating device according to the first aspect, in the electrolytic tank, the small tank is configured to have a volume of about one-half to one-fifth of the large tank. It is characterized by being.
According to a fourth aspect of the present invention, in the portable electrolyzed water generating device according to the first aspect, the electrolytic tank has a small communication hole that communicates the two large and small tanks at the bottom, and the amount of water discharged by the first drainage system is 3 The aperture is set so that a flow rate of 1 minute or less can flow.
According to a fifth aspect of the present invention, in the portable electrolyzed water generating device according to the first aspect, the strong acid drainage system is provided with a strong acid water pipe in a strong acid water tank, and the strong acid water pipe has an upper part. A suction port and a lower suction port are provided so that the upper water in the strong acid water tank can be sucked from the upper suction port, and the lower water in the strong acid water tank can be sucked from the lower suction port in a predetermined mixing ratio. It is characterized by that.
[0005]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 to 12 are views for explaining a portable electrolyzed water generating apparatus according to an embodiment of the present invention. FIG. 1 is a perspective view showing the appearance of the portable electrolyzed water generating apparatus according to the embodiment of the present invention. FIG. 2 is a perspective view showing the appearance of the portable electrolyzed water generating device according to the embodiment of the present invention and showing a state in which the strong alkaline water drainage tank is removed from the main body mounting portion. FIG. 3 is a front view showing the appearance of the portable electrolyzed water generating device according to the embodiment of the present invention. FIG. 4 is a side view showing the appearance of the portable electrolyzed water generating device according to the embodiment of the present invention. FIG. 5 is a plan view showing the external appearance of the portable electrolyzed water generating apparatus according to the embodiment of the present invention.
[0006]
In these drawings, a portable electrolyzed water generating device 1 according to an embodiment of the present invention is configured to electrolyze water in a container to generate acidic or alkaline electrolyzed water in a batch manner and to be portable. It has become. In this portable electrolyzed water generating device 1, the external appearance of the electrolyzed water generating device main body 2 has a prismatic shape, and a recess having a predetermined volume is formed on the right side of the front surface of the electrolyzed water generating device main body 2 in the figure. Thus, the mounting portion 3 is formed. A drainage tank 4 (strong alkaline water) can be attached to and detached from the mounting portion 3.
[0007]
Moreover, the upper cover 5 is provided in the upper part of the electrolyzed water generating apparatus main body 2 so that opening and closing is possible. An operation / display unit 6 is provided on the front front side of the upper part of the electrolyzed water generating apparatus main body 2. A water sampling port 7 is provided on the further front side of the operation / display unit 6 of the electrolyzed water generating apparatus main body 2. An electrical system storage unit 8 is provided at the rear of the mounting portion 3 of the electrolyzed water generator main body 3 in the figure, and a control unit for controlling the generation of electrolyzed water is built in the electrical system storage unit 8. Moreover, the handle 9 used when carrying the electrolyzed water generating apparatus main body 3 is provided in the upper side of the electrolyzed water generating apparatus main body 3 so that rotation is possible.
[0008]
FIG. 6 is a diagram for explaining the configuration of the portable electrolyzed water generating device according to the embodiment of the present invention. In FIG. 6, the portable electrolyzed water generator 1 is roughly divided into an electrolytic cell 10, a (strong alkaline water) drain tank 4, a first drainage system (strong alkali drainage system) 20, and a first A drainage system (strong acid drainage system) 30 and a control unit 40 are provided and configured as follows.
[0009]
First, the electrolytic cell 10 divides the inside of the container 11 by a diaphragm fixing plate 13 to which a diaphragm 12 is fixed to form two large and small tanks (a large volume strongly acidic water tank 14 and a small volume strong alkaline water tank 15). A positive electrode 16 and a negative electrode 17 are arranged in the two large and small tanks (a strong acid water tank 14 having a large volume and a strong alkaline water tank 15 having a small volume), respectively, and the two tanks (strong acid water tank 14 and strong alkali water tank 15). 15), a small communication hole 18 for communicating the two tanks (strong acid water tank 14, strong alkaline water tank 15) is provided. An overflow 19 is provided in the upper part of the strong alkaline water tank 15, and water above the water level of the overflow 19 is drained from the overflow 19 into the strong alkaline water drain tank 4.
[0010]
Here, the said small tank (strong alkaline water tank 15) is comprised so that it may become a volume of about 1/2 to 1/5 of the said large tank (strongly acidic water tank 14).
Further, in the electrolytic cell 10, the small communication hole 18 that communicates the strong acid water tank 14 and the strong alkaline water tank 15 has a flow rate equal to or less than one third of the amount of water discharged by the first drainage system (strong alkaline drainage system) 20. Is set to such a diameter that can flow. Further, the (strong alkaline water) drainage tank 4 can be attached to or removed from the attachment part 3.
[0011]
The first drainage system (strong alkaline drainage system) 20 is a (strong alkaline water) in which strong alkaline water generated in a small tank (strong alkaline water tank 15) of the electrolytic cell 10 is mounted on the mounting portion 3. The apparatus is capable of draining into the drain tank 4 and comprises a strong alkaline water drain pump 21 and a pipe 22.
The suction part of the strong alkaline water drain pump 21 communicates with the bottom of the strong alkaline water tank 15. The discharge portion of the strong alkaline water drain pump 21 is communicated with the upper portion of the strong alkaline water drain tank 4 through the pipe 22.
[0012]
The first drainage system (strong acid drainage system) 30 is an apparatus capable of collecting strongly acidic water generated in a large tank (strong acid water tank 14) of the electrolytic cell 10 from the sampling port 7 to the outside. Yes, consisting of a strong acid water pump 31, a strong acid water pipe 32 and a discharge pipe 33.
[0013]
The strongly acidic water feed pipe 32 is provided in the strong acid water tank 14, and the strong acid water feed pipe 32 is provided with an upper suction port 32u and a lower suction port 32d, and is strongly acidic from the upper suction port 32u. The upper water in the water tank 14 and the lower water in the strong acid water tank 14 from the lower suction port 32d are respectively sucked at a predetermined mixing ratio. The other end of the suction pipe 32 is connected to the suction part of the strong acid water pump 31. One end of the discharge pipe 33 is connected to the discharge portion of the strong acid water pump 31 and the other end of the discharge pipe 33 is connected to the water sampling port 7, and the strong acid water is discharged from the water sampling port 7 to the outside. It has been made possible.
[0014]
As will be described in detail later, the control unit 40 has an electrolyzed water generation voltage output terminal electrically connected to the positive electrode 16 and the negative electrode 17 and takes in power from a DC power source (the positive electrodes 16, In this device, the amount of current flowing to the negative electrode 17) can be adjusted by adjusting the energization time. The control unit 40 can adjust the energization time to the both electrodes (plus electrode 16, minus electrode 17) based on the setting operation by the operation / display unit 6, and can operate the necessary display signals such as the operation result. It can be given to the display unit 6 and displayed. The control unit 40 takes in detection signals from the various sensors 50 and performs processing according to the detection signals from the various sensors 50 (details will be described later).
[0015]
Here, the various sensors 50 include a raw water electrical conductivity sensor 51, an electrolyzed water presence / absence sensor 52, a drainage presence / absence switch 53, a strong alkaline water drainage tank presence / absence switch 54, and an upper lid presence / absence switch 55.
The raw water electrical conductivity sensor 51 is provided at the bottom of the strong acid water tank 14, detects the electrical conductivity of water inside the strong acid water tank 14, and gives a detection signal to the control unit 40.
[0016]
The presence / absence sensor 52 of the electrolyzed water is provided in the upper part of the strong acid water tank 14, detects the presence / absence of water inside the strong acid water tank 14, and provides a detection signal to the control unit 40.
The drainage presence / absence switch 53 detects the presence / absence of drainage in the strong alkaline water drainage tank 4 and supplies a detection signal to the control unit 40.
The strong alkaline water drain tank presence / absence switch 54 detects whether or not the strong alkaline water drain tank 4 is mounted on the mounting portion 3, and gives the detection result to the control unit 40.
[0017]
The upper lid presence / absence switch 55 detects whether or not the upper lid 5 is open, and gives the detection result to the control unit 40.
The control unit 40 is electrically connected to the motor of the strong alkaline water drain pump 21 and the motor of the strong acid water pump 31, and the strong alkaline water according to the operation command from the operation / display unit 6. The drain pump 21 or the strong acid water pump 31 can be driven.
[0018]
FIG. 7 is a block diagram showing an electric system including a control unit of the portable electrolyzed water generating apparatus according to the embodiment of the present invention.
In FIG. 5, the control unit 40 includes a DC5V circuit unit (processing unit) 41, a sensor circuit unit 42, and a DC12V circuit unit 43. The control unit 41 operates by receiving a direct current (DC) 5V supply from the first power supply 45. The DC12V circuit unit 43 operates by receiving a direct current (DC) 12V supply from the second power supply 46. The first power supply 45 and the second power supply 46 convert AC power from a commercial power supply into DC power of each voltage.
[0019]
The sensor circuit unit 42 operates by receiving supply of DC power via the DC12V circuit unit 43. The sensor circuit unit 42 takes in detection signals from the raw water electrical conductivity sensor 51 and the electrolyzed water presence / absence sensor 52, converts them into detection signals of a predetermined signal level, and gives the detection signals to the control unit 41.
[0020]
The control unit 41 can receive detection signals from the drainage presence / absence switch 53, the strong alkaline water drainage tank presence / absence switch 54, and the upper lid presence / absence switch 55. Further, the control unit 41 captures an operation signal from the operation / display unit 6 and gives a necessary display signal to the operation / display unit 6. Further, the control unit 41 controls the amount of electric power supplied to the plus electrode 16 and the minus electrode 17 by controlling the DC12V circuit unit 43, or the strong alkaline water drainage pump 21 of the strong alkaline drainage system 20 is controlled. Operation / stop control is performed, or operation / stop control of the strong acid water pump 31 of the strong acid drainage system 30 is performed.
[0021]
The operation / display unit 6 includes a selection button 61, an operation button 62, and a water sampling button 63 for operation, and a standard lamp 65, a strong lamp 66, a weak lamp 67, and generation lamps 68 and 7 for display. There is a segmented LED display 69. The selection button 61 is a switch for selecting one of standard (the standard lamp 65 is lit), strong (the strong lamp 66 is lit), and weak (the weak lamp 67 is lit). The operation button 62 is a switch for starting electrolysis, and when the button is pressed, the control unit 41 operates the program timer to select the strength (for example, 10 minutes) selected by the selection button 61, standard (for example, 8 minutes). Alternatively, DC power is applied to the plus electrode 16 and the minus electrode 17 from the DC12V circuit unit 43 for a weak time (for example, 5 minutes).
[0022]
The water sampling button 63 is a switch for collecting strongly acidic water from the strong acid water tank 14 through the water sampling port 7. When the drain button 64 is pressed, the control unit 41 controls the DC12V circuit unit 43. The strong acid water pump 31 is operated and controlled.
The generation lamp 68 is a lamp for informing that electrolytic water has been generated.
The LED display 69 is a warning means that notifies a warning by an electronic sound and an error segment display, and is displayed by a display signal from the control unit 41.
[0023]
When the controller 41 detects that the upper lid 5 is opened by the upper lid presence / absence switch 55, the controller 41 displays an error segment E1 on the LED display 69 and emits an electronic sound to warn that the upper lid 5 is opened. .
When the controller 41 detects that the strong alkaline water drain tank 4 is not attached to the attachment part 3 by the strong alkaline water drain tank presence switch 54, the controller 41 displays an error segment E2 on the LED display 69 and emits an electronic sound. It warns that the strong alkaline water drainage tank 4 is not set to the attachment part 3.
[0024]
When the controller 41 detects that there is residual water in the strong alkaline water drainage tank 4 by the drainage presence / absence switch 53, the controller 41 displays an error segment E3 on the LED display 69 and emits an electronic sound. Warn you that there is residual water.
When the controller 41 detects that the electrolyte (water) in the electrolytic cell 10 is not in an appropriate amount by the presence / absence sensor 52 of the electrolytic water, the controller 41 displays an error segment E4 on the LED display 69 and emits an electronic sound. Warning that the electrolyte (water) is not the right amount.
[0025]
When the raw water electrical conductivity sensor 51 detects that the electrolyte (water) in the electrolytic cell 10 does not have an appropriate electrical conductivity, the control unit 41 displays an error segment E5 on the LED display 69 and emits an electronic sound. To warn that the electrolyte (water) is not of proper electrical conductivity.
When the control unit 41 detects that the electrolytic current does not flow through the positive electrode 16 and the negative electrode 17, it lights up the error segment E6 on the LED display 69 and emits an electronic sound to warn that the electrolytic current is not flowing. To do.
[0026]
How to use the portable electrolyzed water generating apparatus described above will be described with reference to FIGS. 8 to 12 based on FIGS.
FIG. 8 is a view for explaining a state in which water is put into the portable electrolyzed water generating apparatus according to the embodiment of the present invention. FIG. 9 is a diagram for explaining a state in which electrolysis is performed by the portable electrolyzed water generating device according to the embodiment of the present invention. FIG. 10 is a diagram for explaining a state in which strong alkaline water is drained from the strong alkaline water tank to the strong alkaline water drain tank in the portable electrolyzed water generating apparatus according to the embodiment of the present invention.
[0027]
FIG. 11 is a view for explaining a state in which the drainage of strong alkaline water to the strong alkaline water drainage tank in the portable electrolyzed water generating apparatus according to the embodiment of the present invention is stopped. FIG. 12 is a view for explaining a state in which strongly acidic water is drained from the strongly acidic water tank in the portable electrolyzed water generating device according to the embodiment of the present invention.
First, water whose electric conductivity is adjusted to, for example, 1500 [μS / cm] by adding a small amount of sodium chloride is prepared.
[0028]
Next, the upper lid 5 of the electrolyzed water generator main body 2 is opened, and the water is put into the strong acid water tank 14 as shown by an arrow a in FIG. Then, this water passes through the communicating hole 18 provided on the bottom side of the strong acid water tank 14 and enters the strong alkaline water tank 15 side as shown by an arrow b in FIG.
Next, in order to obtain desired electrolyzed water, the selection button 61 is operated to select strong (10 minutes), standard (8 minutes), or weak (5 minutes). When the operation of the selection button 61 is completed, the operation button 62 is pressed.
[0029]
Then, the control unit 41 controls the DC 12 V circuit unit 43 and supplies direct current to the plus electrode 16 and the minus electrode 17 for the time selected by the selection button 61. As a result, water is electrolyzed around the positive electrode 16 and the negative electrode 17. The control unit 41 takes in a detection signal from the raw water electrical conductivity sensor 51 and detects whether or not the electrical conductivity selected by the selection button 61 has been reached.
[0030]
When the time selected by the selection button 61 ends, the control unit 41 stops the display on the LED display 69 and turns on the generation lamp 68.
After the electrolysis, if strong acid water is kept in the strong acid water tank 14 and strong alkaline water is kept in the strong alkali water tank 15, it will be neutralized over time. In order to prevent this, when the time selected by the selection button 61 has elapsed, the control unit 41 automatically operates the strong alkaline water drainage pump 21 and causes the strong alkaline drainage system 20 to indicate as indicated by an arrow c in FIG. In addition, the strong alkaline water in the strong alkaline water tank 15 is transferred to the strong alkaline water drainage tank 4.
[0031]
At this time, strong acid water in the strong acid water tank 14 flows through the communication hole 18 as shown by an arrow d in FIG. 10, but the drainage capacity of the strong alkaline water drain pump 21 is larger than the amount of water passing through the communication hole 18. Is high, so the amount is small.
And if the control part 41 detects that the drainage to the strong alkaline water drainage tank 4 was complete | finished by the detection signal from the timer or the drainage presence / absence switch 53, for example, it will control the DC12V circuit part 43 and the strong alkaline drainage system 20 The operation of the strong alkaline water drain pump 21 is stopped.
[0032]
Then, the strong acid water in the strong acid water tank 14 passes through the communication hole 18 and enters the strong alkaline water tank 15 as indicated by an arrow e in FIG. Thereby, the inside of the electrolytic cell 10 (strongly acidic water tank 14 and strong alkaline water tank 15) becomes strong acidic water. The strong acid water can remove the scale attached to the strong alkaline water tank 15. Further, the level of the strongly acidic water in the electrolytic cell 10 is a level at which the plus electrode 16 and the minus electrode 17 are immersed in the strongly acidic water.
[0033]
And when collecting strongly acidic water, the control part 41 controls the DC12V circuit part 43 by putting a container in the water sampling port 7 and continuing to push the water collection button 63, and the strong acid water feed pump 31. By continuing to operate the strong acid water pump 31 by supplying electric power, strong acid water can be sampled from the sampling port 7 through the strong acid drainage system 30.
[0034]
Note that the strongly acidic water in the strongly acidic water tank 14 has a lower upper pH (PH) and a lower lower pH (PH), so that the strong acid water is indicated by an arrow f in FIG. As shown in FIG. 12, the lower strong acid water is sucked in from the lower suction port of the strong acid water pipe 32 while sucking a predetermined amount of the upper strong acid water, and the suction amount is adjusted by adjusting the suction amount. The mixture is discharged through the discharge pipe 33 as shown by the arrow h in FIG. At this time, the strong acid water in the strong alkaline water tank 15 also flows into the strong acid water tank 14 through the communication hole 18 as shown by an arrow i in FIG.
[0035]
According to such an embodiment, the electrolytic acid water is generated inside the strong acid water tank 14, and thus has the following advantages.
(1) Strongly acidic water having a bactericidal effect, strong alkaline water having proteolysis, and health drink alkaline ionized water can be generated.
(2) Since the structure is such that the amount of water in the strong alkaline water tank 15 is reduced, the amount of discarded water is small.
(3) Since the electrolytic cell 10 plays a role as a storage container at the same time and the capacity of the strong alkaline water tank 15 is reduced, the entire apparatus can be reduced in size and weight, and production costs can be easily suppressed. it can.
(4) Since the hose of the water sampling port 7 is easily inserted into the narrow mouth bottle, the sampling into the narrow mouth bottle can be easily performed, and the water sampling operation can be performed simply by pressing a button.
(5) Since the handle 9 is provided, it is easy to carry, can be operated anywhere, and does not require special construction.
[0036]
(6) The construction of general water supply and drainage facilities is unnecessary, and operation is possible anywhere with only a commercial power source.
(7) It is not necessary to adjust the device, and operation, electrolysis time setting and water sampling can be easily operated by simply pressing each button.
(8) The display can be confirmed.
(9) Since the water in the strong alkaline water tank 15 is drained after electrolysis, the pH of the electrolyzed water is stably maintained.
(10) Since the strong acidic water in the strong acidic water tank 14 flows into the strong alkaline water tank 15 and the scale in the strong alkaline water tank 15 is removed after the electrolysis is completed, the scale is prevented from accumulating in the strong alkaline water tank 15.
(11) The various sensors 50 can detect an inconvenient state for driving, display the segment on the LED display 69, and warn with an electronic sound, so that it can be used safely.
[0037]
In the above-described embodiment, the positive potential is applied to the positive electrode 16 and the negative potential is applied to the negative electrode 17. However, the present invention is not limited to this, and the negative potential is applied to the positive electrode 16 and the negative electrode 17. By applying a positive potential, a large amount of strong alkaline water can be collected inside a large tank (strongly acidic water tank 14).
Further, weak alkaline water (for beverages) can be collected by reducing the addition of sodium chloride and applying the same to the positive electrode 16 and the negative electrode 17 with the polarity reversed as described above.
[0038]
【The invention's effect】
As described above, according to the portable electrolyzed water generating device according to the present invention, the inside of the container is partitioned by the diaphragm fixing plate to which the diaphragm is fixed to form two large and small tanks, and the electrodes are respectively provided in the respective tanks. An electrolytic cell comprising a small communication hole that communicates the two tanks on the bottom side of the two tanks, a drainage tank that can be attached to or removed from the attachment part, and the electrolysis A first drainage system capable of draining the electrolyzed water generated in a small tank to the drainage tank, a second drainage system capable of taking the electrolyzed water generated in the large tank of the electrolyzer to the outside, and direct current Control for taking in electric power from a power source and adjusting the amount of current flowing to both electrodes, and controlling the drainage of the small tank electrolyzed water to the drainage tank by operating the first drainage system when electrolysis is completed So that the following There is Una effect.
[0039]
(1) Strongly acidic water having a bactericidal effect, strong alkaline water having proteolysis, and health drink alkaline ionized water can be generated.
(2) Since the structure is such that the amount of water in the tank smaller than the larger tank is reduced, less waste water is required.
(3) Since the electrolytic cell plays a role as a storage container at the same time, and the capacity of the small tank is reduced, the entire apparatus is reduced in size and weight, and production costs can be easily suppressed.
(4) Since a handle is provided, it is easy to carry, can be operated anywhere, and does not require special construction.
(5) The construction of general water supply and drainage facilities is unnecessary, and operation is possible anywhere with only a commercial power source.
(6) Since the water in the small tank is drained after the electrolysis, the pH of the electrolytic water remaining in the electrolytic tank is stably maintained.
(10) After the electrolysis is completed, the strong acid water in the strong acid water tank flows into the strong alkaline water tank and the scale in the strong alkaline water tank is removed, so that the scale is prevented from accumulating in the strong alkaline water tank.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an appearance of a portable electrolyzed water generating device according to an embodiment of the present invention.
FIG. 2 is a perspective view showing an external appearance of the portable electrolyzed water generating device according to the embodiment of the present invention and showing a state in which a strong alkaline water drainage tank is removed from a main body mounting portion.
FIG. 3 is a front view showing an appearance of a portable electrolyzed water generating device according to an embodiment of the present invention.
FIG. 4 is a side view showing an appearance of a portable electrolyzed water generating device according to an embodiment of the present invention.
FIG. 5 is a plan view showing an external appearance of a portable electrolyzed water generating apparatus according to an embodiment of the present invention.
FIG. 6 is a diagram for explaining a configuration of a portable electrolyzed water generating apparatus according to an embodiment of the present invention.
FIG. 7 is a block diagram showing an electric system including a control unit of the portable electrolyzed water generating device according to the embodiment of the present invention.
FIG. 8 is a diagram for explaining a state in which water is put into the portable electrolyzed water generating apparatus according to the embodiment of the present invention.
FIG. 9 is a diagram for explaining a state in which electrolysis is performed by the portable electrolyzed water generating device according to the embodiment of the present invention.
FIG. 10 is a diagram for explaining a state in which strong alkaline water is drained from a strong alkaline water tank to a strong alkaline water drain tank in the portable electrolyzed water generating device according to the embodiment of the present invention.
FIG. 11 is a diagram for explaining a state where drainage of strong alkaline water to the strong alkaline water drainage tank in the portable electrolyzed water generating device according to the embodiment of the present invention is stopped.
FIG. 12 is a diagram for explaining a state in which strongly acidic water is drained from the strongly acidic water tank in the portable electrolyzed water generating device according to the embodiment of the present invention.
[Explanation of symbols]
1 Portable electrolyzed water generator
2 Electrolyzed water generator
3 wearing part
4 Strong alkaline water drainage tank (drainage tank)
5 Upper lid
6 Operation / display section
7 sampling port
8 Electrical system storage
9 Toride
10 Electrolysis tank
11 containers
12 Diaphragm
13 Diaphragm fixation plate
14 Strongly acidic water tank (large tank)
15 Strong alkaline water tank (small tank)
16 Positive electrode
17 Negative electrode
18 communication hole
19 Overflow
20 Strong alkaline drainage system (first drainage system)
21 Strong alkaline water drainage pump
22 Piping
30 Strong acid drainage system (second drainage system)
31 Strong acid water pump
32 Strong acid water pipe
32u Upper suction port
32d Lower inlet
33 Discharge piping
40 Control unit
41 Control unit (DC5V circuit unit)
42 Sensor circuit
43 DC12V circuit part

Claims (5)

A portable electrolyzed water generating device that electrolyzes water in a container to generate acidic or alkaline electrolyzed water in a batch manner,
The inside of the container is divided by a diaphragm fixing plate to which a diaphragm is fixed to form two large and small tanks, electrodes are arranged in each tank, and the two tanks communicate with each other on the bottom side of the two tanks. An electrolytic cell provided with small communication holes;
A drainage tank that can be attached to or removed from the attachment part;
A first drainage system capable of draining electrolyzed water generated in a small tank of the electrolytic tank to the drainage tank;
A second drainage system capable of taking the electrolyzed water generated in a large tank of the electrolytic tank to the outside;
The amount of current flowing into both electrodes can be adjusted by taking in power from a DC power supply, and when the electrolysis is completed, the first drainage system is operated to control the drainage tank to drain the electrolyzed water from the small tank. A portable electrolyzed water generating apparatus comprising a control unit. In the portable electrolyzed water generating apparatus according to claim 1,
The portable electrolyzed water generating apparatus according to claim 1, wherein the control unit performs an amount of current flowing to both the electrode units by adjusting a current supply time. In the portable electrolyzed water generating apparatus according to claim 1,
The portable electrolyzed water generating apparatus according to claim 1, wherein the electrolytic cell is configured such that the small tank has a volume of about one-half to one-fifth of the large tank. In the portable electrolyzed water generating apparatus according to claim 1,
The electrolytic cell is characterized in that the small communication hole that communicates the two large and small cells at the bottom is set to a diameter that allows a flow rate equal to or less than one third of the amount of water discharged by the first drainage system to flow. Portable electrolyzed water generator. In the portable electrolyzed water generating apparatus according to claim 1,
The strong acid drainage system is provided with a strong acid water water pipe in a strong acid water tank, the strong acid water water pipe is provided with an upper suction port and a lower suction port, and the upper part of the strong acid water tank from the upper suction port. A portable electrolyzed water generating apparatus characterized in that the lower water in the strongly acidic water tank can be sucked in at a predetermined mixing ratio from the lower suction port.

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