TW201026610A - Electrolyzed water generation apparatus - Google Patents

Abstract

An electrolyzed water generation apparatus is provided, wherein stagnant water in an electrolytic tank is not used for generation of alkali ion water and sanitary alkali ion water can be generated. After alkali water generation treatment, a controller 15 turns off a pump 5, a supply-water path on/off valve 6 and a discharge-water path on/off valve 9, and a raw water-supply to the electrolytic tank 3 is stopped, so discharging water from a cathode room 3a to a water-storage portion 1 is stopped, and thereby a natural discharge-water state due to the gravity of the residual stagnant water in the electrolytic tank 3 is formed. Then, in the natural discharge-water state, the controller 15 supplies a reverse voltage to the electrolytic tank 3. By means of this reverse voltage, a cathode plate 13 becomes in a positive potential relative to an anode plate 14, and when the alkali water is generated, the scale having a calcium component or a magnesium component attached to the cathode plate 13 is dissolved and is discharged along with the stagnant water.

Description

201026610 -----Γ~~ π, praise explanation: [Technical field to which the invention belongs] Electrolysis passes through a water generating device. Circulating electrolysis to the water storage department [Prior Art] ❹ ❹. By supplying water from a storage tank that is detachable from the main body, the installation place is not limited to the known as the L domain, such as the L domain. In the free storage place of the office or the workshop, the water can be used to detect the amount of water in the water storage type 1 in the conventional storage type electrolyzed water generating device. When the amount of water _ === is reversed, the cleaning is performed = And the scale on the seesaw (the water recorded in the water in the ship or the town is injured and the solid is precipitated in the form of carbonated dance, magnesium carbonate). In the electrolyzed water generating device at the beginning of the Japanese Patent Publication No. 2004_22331, the use of electrolyzed water is discharged from the water outlet, and the water is smeared. The present invention aims to provide a kind of electrolyzed water in which the electrolyzed water and the retained water in the tank are not used for the generation of electrolyzed water, and can be made into a sanitary water of 201026610. The purpose of each of the two solutions is to provide an electrolyzed water generating device, the stagnation of the stagnation = the scale on the sonic plate, the outlet of the electric water unit connected to the body water supply port == water guide Π = 1_ water supply to The raw water of the main body water supply port is applied to the water supply port. The water is supplied to the water storage unit. The mechanism switches between the raw water supplied from the main body water supply port and the water discharged from the main water supply port to the drain portion; the water discharge opening and closing mechanism, the opposite body, the p- discharge water in the electrolytic cell, or the direction The drain portion discharges the water inlet and outlet in the electrolytic cell; and the control mechanism controls the energization of the electrolytic cell, and controls the supply rhyme, the water supply, and the water outlet mechanism. Moreover, the 'control surface is cleaned, and the riding operation is: controlling the supply mechanism and the water supply path_mechanism, supplying raw water from the water storage unit to the electrolytic cell' and controlling the water passage opening and closing mechanism to discharge the water in the electrolytic cell to the discharge portion. The voltage applied to the electrolytic cell and the voltage reversed when the electrolyzed water is generated are used to perform the cleaning operation. Further, 'in the present invention, 'may be' further provided with an operating mechanism that inputs an operation; and after the operation of generating electrolyzed water is input from the operation unit, the control unit 201026610 controls the supply mechanism and the water supply path opening and closing mechanism for a predetermined period of time. The raw water is supplied to the electrolytic cell, and after the water passage opening and closing mechanism is controlled to drain the water from the electrolytic cell to the drain portion, the control unit performs control for causing the electrolytic cell to start generating electrolyzed water. Further, in the present invention, after the generation of the electrolyzed water in the electrolytic cell is completed, the control means may apply a voltage having a polarity opposite to that during the electrolysis to the electrolytic cell, and the inside of the electrolytic cell may be placed in the electrolytic cell. The water remaining in Φ is discharged to the drain. Further, in the invention, it is preferable to further include a display means for displaying an operation state of the apparatus; and when the electrolyzed water generation has reached a predetermined number of times, the control means causes the display means to display the display of the cleaning instruction input. In the machine: in the middle, it can be 'there is also an operating mechanism, the operating mechanism is input #作; in the operation of the machine, the control mechanism carries out the u shield ring, the main, the detour 仃 / / month 冼 heart It is not necessary to input. The raw water supplied from the water storage unit to the first cycle cleaning unit and supplied to the electrolytically inserted water is introduced into the electrolytic cell, and the washing water of ?? = is operated by the main body water outlet == 'There is also an operating mechanism, and the input unit supplies the body to the water supply port. The washing process is: water storage: The effect of the invention is as follows: According to the present invention, it is possible to obtain an effect that it is possible to provide a water generating device in which the water is generated. The above and other objects of the present invention will become apparent from the following detailed description of the preferred embodiments of the present invention. [Embodiment] Hereinafter, embodiments of the present invention will be described in detail with reference to _. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing the structure of a nanocapsule of an embodiment of an electrolyzed water generating apparatus of the present invention. In the electrolyzed water generating apparatus, the water-storing unit 1 for storing potable raw water such as water is stored, and the main body portion 2 of the water storage unit is detachably placed. The water storage unit 1 is provided with an outlet la and an inlet lb. The body portion 2 is provided with a body water supply port 2a connected to the outlet la of the water storage portion 1 and a body water outlet 2b connected to the inlet lb of the water portion 1. The main body water supply port 2a is connected to the inlet of the pump 5 as a supply means through the water supply path 4a, and the raw water of the water storage portion 11 is supplied to the pump 5. The outlet of the pump 5 is connected to the water supply passage opening and closing valve 6 through the water supply passage 4b. Further, the water supply passage opening and closing valve 6 is connected to the water supply passage 4c that communicates with the electrolytic cell 3 and the drainage passage 7 that communicates with the drainage portion 8. The water supply opening and closing width 6 is a state in which the water supply passage 牝 is connected to 4c and the drainage passage 7 is closed as shown in Fig. 2(a) (hereinafter, this state is the state in which the water supply passage opening and closing valve 6 is opened (ON)) and In the state in which the water supply path 2 is closed and the water supply path 4c is in communication with the drain line 7 (hereinafter referred to as the state in which the water supply path opening and closing valve 6 is closed (OFF)). Correspondingly, when the spring 5 201026610 is closed from the water supply road side of the water storage part to the second row, the water in the electrolytic cell 3 passes through the two rows, and the electrolysis I3 is divided into the cathode chamber % and the anode chamber 3b through the diaphragm 12 = 5 Electrolytic unit: During normal operation, a positive straight plate 13 is supplied from the rear weir 14 to supply a negative DC voltage, and a positive DC voltage is supplied to the anode plate to make the water become hetero-ionized water. Further, in the following description, the inspecting water and the acidic water are introduced into the slit ion water and the acidic ions. f I 4C is branched into two paths, and each of the cathode chamber 3& and the anode chamber 3b is provided, and the outlet of the cathode chamber 3a and the water outlet opening and closing valve 9 are connected to the outlet of the main body water outlet 2b. A drain path η connected to the drain portion 8. Second, the drainage path u is started from the water outlet opening and closing 阙9 to the drainage portion. The first pole is called the drainage passage n'. The drainage passage U' is called the drainage passage Ua from the outlet passage opening and closing valve 9 to the y-machine portion with the ejector. The merging portion is referred to as the drain passage 11b until it reaches the drain portion 8. The draining water passage opening and closing valve 9 is a state in which the cathode chamber % and the line ί are communicated as shown in Fig. 2 (4), and the drain passage 11a is closed (hereinafter, this state is called the water outlet opening and closing 9 open state) and as shown in Fig. 2 (6). In the state in which the outlet water 10 is closed and the cathode chamber 3a is in communication with the drain passage 11a (hereinafter referred to as 201026610, the state is the state in which the outlet passage opening and closing valve 9 is closed). When the water is generated in the electrolytic cell 3, the controller u causes the pump 5 to open the water supply path opening and closing valve 6 and the water outlet opening and closing valve 9, and applies a negative voltage to the cathode plate ’ to apply a positive voltage to the anode plate 14. Thus, the raw water in the water storage portion is supplied to the electrolytic cell 3 through the main body water supply port 2a, the water supply path 4a, the pump 5, the water supply path 4b, the water supply path, the valve 6, and the water supply path 4c. Authentic water is generated in the cathode to 3a, and acidic water is generated in the anode chamber %. In the following description, a case where a negative pressure is applied to the cathode plate 13 and a positive voltage is applied to the anode plate (4) is referred to as supplying a positive voltage to the electrolytic cell 3; on the contrary, a positive voltage is applied to the cathode plate 13 to be applied to the anode plate 14. The case of a negative voltage ^ is to supply a reverse voltage to the electrolytic cell 3. The test water generated in the cathode chamber 3a passes through the water outlet opening and closing valve 9, the outlet water = 10, and the main body water outlet 2b, and returns from the inlet lb to the water storage portion 1 to be circulated. Thus, as time passes, the water storage portion 丨The internal water is raised and the PH value is increased. The acidic water generated in the anode chamber 3b is discharged to the drain portion 8 through the drain passage 11b. The controller 15 controls the entire electrolyzed water generating apparatus, and controls the polarity of the DC voltage applied to the cathode plate 3 and the anode plate 14 and the voltage and current, and controls the electrolysis of the electrolytic cell 3 and the cleaning of the electrolytic cell 3. Moreover, the controller 15 also controls the pump 5, the water supply path opening and closing valve 6, and the water outlet opening and closing valve 9, and controls the supply of raw water from the water storage unit 1 to the electrolytic cell 3, and discharges from the electrolytic cell 3 to the drainage unit 8, and controls theft. The operation of the user is input from the operation panel 17, and the operation state of the electrolyzed water generating device is displayed by various display lamps of the operation panel 17. Further, the controller 15 has a built-in power supply 201026610 which is not shown in the figure. When the AC power is generated from the power source plug 16 and the source AC is generated, the voltage and the direct current supplied to the controller 15 are supplied, and the controller 15 performs a cleaning operation, the raw pump 5 and the water supply path. The opening and closing valve 6 is operated/operated to the electrolytic cell. The water outlet is controlled to open the water channel to the inside of the electrolytic cell, and the water is turned to and the control electrode 15 is controlled to reverse the pressure. When the operation of opening and closing is completed, the controlled electrolytic cell 3 supplies the raw water, and the control of the discharge of the draining valve 9 to the draining portion 8 after the draining of the draining portion 3 is controlled to generate electricity from the electric water. In the following, = discharge; f through the electrolytic cell 3 to start electrolysis. In the stopped state, the controller 15 controls to: = 极性 the polarity and the voltage reversed during the electrolysis (providing a reverse voltage), and the water remaining in the electrolytic cell 3 is directed to the row of Huanqiu Shoushan and the electric shovel; The water treatment is treated by water treatment. σ. When the so-called discharge, the main discharge, and the electrolyzed water are generated a predetermined number of times, the controller 15 causes the display for prompting the wash and not input to be displayed on the operation panel 17. When the cleaning instruction is carried out from the operation panel 17, the control is a first cycle cleaning process, and the first cycle cleaning process is the original series electrolysis supplied from the water storage unit i to the water inlet 2a. a tank, and "and a voltage of reverse polarity (providing a reverse voltage) is applied to the electrolytic cell 3 to order the cleaning of the electrolytic cell 3, so that the washing water discharged from the electrolytic cell 3 is circulated from the water outlet 2b of the body 201026610 to the water storage portion. When the cleaning instruction input W ^ is performed from the operation panel 17, the second cycle cleaning process is performed, and the second cycle is cleaned, and the raw water supplied from the water storage unit 1 to the main water supply port 2a is introduced into the washing water i is too washed. The cleaning of the electrolysis cell 3 is discharged and the 〖% ιΓ, 21? is circulated to the water storage part. The second cycle cleaning is pressed and the pressure is reduced. The cleaning agent is not dissolved in the raw water due to the application of the reverse electric charge= The water storage part 1 and the tank and the water path connecting them can be circulated and cleaned. The partial = male controller 15 is not particularly limited, and in the present embodiment, the program coffee, the job _, the input and output media

The main control of the controller 15 is implemented by the CPU executing the program stored on the program ROM. =3 is a diagram showing an example of the appearance of the operation panel 17. As shown in Fig. 3, the panel 17 includes four indicators 30 to 33 indicating the state of the electrolyzed water generating device, and the operation of the electrolyzed water generating device.于 In the row “Cleaning the water tank to confirm/fill the water”, the light 21 is on, indicating that the container has been filled. ^= (4) The water tank of the sinking tank is not correct or the water tank is cleaned. The installed water storage portion 1 is not properly installed. ^ Wash, know "3523 bright means that when the number of generations of water-producing water reaches the regulation, it is indicated that the operation/month/end of the cycle cleaning process is required, and the end lamp 24 is turned on or lighted by one lamp 12 201026610. Or flash = to indicate the cycle cleaning process or the end of the cleaning. A weak light 25 is bright to indicate a weak water generation mode; a "strong" light 26 is a strong water generation mode. In the water generation; "The end of the generation, the light 28 lights up to indicate the end of alkaline water production. Further, in Fig. 3, "cleaning" is a switch for causing the electrolyzed water generating device to start the cycle cleaning process after the user has finished the predetermined preparation operation for cleaning. The "alkaline" switch 31' is a switch for selecting whether to generate weakly alkaline water or to generate strong = sexual water. Each time the "alkaline, switch 31, controller 15 makes weak" indicator light 25 and "strong," the display lamp 26 alternately illuminates, indicating that it is a mode of generating some form of water in the strength and weakness. The start switch 32' is an on-off that causes weak or strong water to start to be generated. The "cancel" switch 33 is a switch for canceling an operation input from the "cleaning, switch 30 or generation start" switch 32. The operation of the controller 15 in the present embodiment will be described below with reference to a flowchart. Fig. 4 is a schematic flow chart for explaining the operation of the controller 15 in the electrolyzed water generating apparatus of the present embodiment. The power plug 16 is connected to the socket. For example, after starting to input 100V AC power, the controller 15 is initialized to enter a state of waiting for input from the operation panel 17. As for the initial state, the value of the "strong flag" of the control flag used as the control state 15 In the case of 〇, the value of the number N of generations of the numerical value of the number of times of the water-producing water generation is also set to 〇. First, in step S10 of Fig. 4, the controller 15 determines whether or not the input from the alkaline switch 31 is present. . If there is no input, go to 13 201026610. Step 2 'The controller 15 judges whether there is input from the "generate opening". If the technology starts the switch 32 15 θ,", the input enters step S36, the controller疋 No from the "cleaning", the wheel of the switch 30 is carried out == back to the step fine. The above steps _, 822, the heart cycle is the input waiting state. In the judgment of the input, if there is "from the nature of the test, the switch 31 = enter, then proceeds to step S12, the controller 15 judges "strongly labeled, the value of ❹ S14, i raw" if "strongly labeled, the value of 1" then the step #15 will be " The value of the strong flag, " is set to 〇, in step S106, the _ strong light 26 is turned off, and "weak, the light 25 is turned on, returning to the step in the judgment of step S12, if the value of "strong standard," Instead of the second, S18, the controller 15 sets the value of the "strong flag" to 'make" the "weak" lamp 25 in the L2G, and makes the "strong" lamp 26 point-free "back to step Si". ❹ ,, after the above steps S1G to S2Q, the user operates the 'switch 31, the 'weak' light 25 and the strong, the light % alternately lights up. In the judgment of step S22, if there is a The input of the switch proceeds to step S24, and the controller 15 causes "in the process of generating, the lamp 7 is exempted" and then in step S26, the value of "strong flag," is 2 ςιϋ, 'off. If the value of "strongly labeled" is the value, the controller 15 performs the pre-drainage treatment in the step a, and then proceeds the forced water generation treatment in the proceeding to the step S28. If the value of "strong flag" is not in the judgment of step S26 (it is 201026610 〇), the controller 15 proceeds to step S300 to perform the process of generating the weak water in step S300. At the end of the generation process, in step 'Scene: lamp 27 is extinguished, and instead, in step S400 of "generation", control n 15 / , 28 is lit. Then in the step coffee: face money. Next, counting, in step S32, determining the upward ❹ 生 of the number of times ,, and if it is not up to the determination of the second step S32, if μ: proceeds to step S34, the control number is greater than the number of people. Proceed to step S10. ° 15 o'clock 売 cleaning notice "light 23, return to step dry ^ step = 36 cattle in the judgment 'if there is a "cleaning" switch 30 23 = = ^ 38 ' _ 15 annihilation "cleaning notice" light. (10) m wash/end" lamp 24 to perform the cleaning in the cleaning, and in the semi-locking step S500, the controller 15 performs the cycle cleaning process. In the % 840, the controller 15 resets the number of generations N by the "reset towel" by the "cleaning/ending" lamp 24 to display the end of the slipping, and returns to step S10. Referring to the detailed flowchart of FIG. 5, the steps in FIG. 4 are followed.

The discharge of SlOOa ^100b will be explained. In Figure 4, the steps

Sl〇〇a疋 pre-existing drainage treatment during strong water generation, step § legs are weak-tested aquatic oblique (four) front row of nuclear, but the two secrets are the same as the control II 15 shown in the adjustment 5 The same subroutine (subroutine) SlOO is executed. 201026610 = 5 In the 'step _' before the start of the draining process, first, the controller 15 turns on the water supply path opening and closing valve 6. At this time, the closed state of the water passage opening and closing valve 9 is maintained. Then, in step S1〇4, the drive (open) fruit 5 is controlled, and the original ί2t' is supplied from the water storage unit 电解 to the electrolytic cell 3, so that the water channel ^ _ 9 _ is passed from the = to 3a of the electrolytic cell 3 The path of the water passage opening and closing valve 9, the drainage path iu, and the claw, = water = 8 drainage. The drain portion 8 is drained from the anode chamber % of the electrolytic cell 3 to the drain portion 8 via the drain path. 15 ^ I am missing in the step, the controller before the specified time two temples. After the elapsed time, the step s (10) is entered, the controller Μ stops (turns off) and closes the water switch 6 to end the event I; and returns to the main routine. At this time, the discharge capacity of the main body unit 2 is replaced by the discharge capacity per unit time of the coffee maker 5 and the path from the main water supply port to the water supply port _6, the electrolytic water tank 3 to the drainage path u. For new, water storage. When the P 1 is supplied to the main body 2, the required amount of time for the raw water is added to the remaining amount, and when the operation for generating the test water is input, the retained water in the body 2 can be drained before the start of the test water generation. Since the portion 8 is discharged, there is an effect that it is possible to provide an electrolyzed water generating device which is hygienic in the passage of the electrolyzed water, and in the continuous generation of the water for the detection of water, the moon b is sufficient to contain no electrolytic cell in the test water. In the case of retained water inside, hygienic alkaline water is produced. 16 201026610 Next, the strong alkaline water generation process of step s2 of Fig. 4 and the weak alkaline water generation process of S300 will be described with reference to the detailed flowchart of Fig. 6. In the steps S200 and S300, the control of the pump 5, the voltage polarity control of the electrolytic cell 3, the opening and closing control of the water supply path opening and closing valve 6 and the water outlet opening and closing valve 9 are the same, and the current supplied to the electrolytic cell 3 is strong or electrolytic. The length of time to separate strong alkaline water formation and weak alkaline water

Since it is generated, in Fig. 6, steps S2 and S300 are combined into an alkaline water generation process for explanation. After the start of the alkaline water generation process in FIG. 6, first, in step 2, the controller 15 opens the water supply path opening and closing valve 6 and the water outlet opening and closing valve 9, and supplies a positive voltage to the electrolytic cell 3, and Kailin 5 . Thus, the water portion i is supplied with raw water to the electrolytic cell 3. The test water generated in the cathode chamber 3a is circulated to the water storage portion 1 through the water outlet. At the same time, the acid water generated in the anode chamber 3b is discharged to the drain portion 8 through the drain passage 11. Then in step S204, the controller 15 stands by until a predetermined time elapses. The predetermined time of the step S is determined based on the amount of water stored in the water storage unit and the electrolysis capacity of the electrolytic cell 3, in other words, from the controller = the energizing ability to the electrolytic cell 3. If the specified time becomes = then the electrolysis of the water is deeper and the testability (pH) increases. Therefore, in the case of the strong slanting 'and the weak weed water generation _, the longer setting of the rule S204 is 'after a predetermined period of time, the inlet, the opening and closing valve 6 and the water outlet opening _ 9, stopping to the electrolytic cell 3 & A positive voltage is supplied and the pump 5 is turned off. Thus, the electrolytic cell 3 17 201026610 = and the water circulation between the water storage portion 1 and the electrolytic cell 3 is stopped, and the water (electrolyzed water) generation process is completed, and the main routine is returned. The detailed flowchart of 辜H 7 will be described with reference to step S400 in Fig. 4 . Step _ is a treatment that is commonly used after the treatment of the strong water and the treatment of the weak water. After the start of the drain cleaning process, first, in the step, the water path Η ρ = Γ, Τ pump 5 is turned off, the water supply path opening and closing valve 6 is closed, and _ 9 is closed. The read 'controller 15 stops supplying power to the electrolytic cell 3 and stops the discharge of water from the cathode chamber 3a to the water storage core. Thereby, the natural drainage performed by the gravity of the retained water remaining in the tank 3 is opened. Then, in step S404, the controller 15 supplies the reverse slit to the electrolytic cell 3 in the state of the electrolytic sample 3 =. By the reverse electricity, the plate is in a positive potential, and the scale of the sputum secret component attached to the plate U is dissolved during the formation of the test water, and the remaining time is followed by the predetermined time. The controller water channel 4c ^ 骇 , , 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器 控制器The volume of each of the paths to the drainage section 8 and the time-production ί tsr determined by the natural drainage capacity of these twins, which are regarded as the end of the drainage, after a predetermined period of time, 'enter the step s: The reverse voltage is supplied to the electrolytic cell 3, and the process is terminated by the first step 18 201026610 'return to the main routine. The same as 'has the ability to keep clean in the waterway, refer to the figure "The effect of the long cell life. The processing is explained. Also, as shown in Fig. 8, although it is the first to provide the reverse voltage to the tank 3 The cycle cleaning process flute 9"i is removed from the reverse voltage supplied to the electrolytic cell 3, and becomes the second cycle cleaning process. i. After the start of the "cycling process" in Fig. 8, first in the step (10), the second device 15 opens the water supply path opening and closing valve 6, opens the water outlet opening/closing port 9, and supplies the reverse tank 'the reverse voltage' to the pump 5. As a result, the county is supplied from the water storage unit 3 to the electrolytic cell 3, and in the cathode chamber % which supplies a positive voltage to the cathode plate 13, the scale formed on the cathode plate 13 of the acid 14 water is dissolved by the acidic water, and the acid is dissolved. The water passes through the water outlet 10 and is looped to the water storage portion 1. At the same time, the geochemical water generated in the % pole to 3b to which the negative voltage is supplied is discharged to the drain portion 8 through the drain path η.

Then in step S504, the controller 15 stands by until a predetermined time elapses. The predetermined time of step S5〇4, the longer the time is, to some extent, the better the scale removal effect, but if it is too long, the scale will adhere to the anode plate 14 in turn. In addition, if the prescribed time is long, the user may feel inconvenience. Therefore, after the last cycle of the cleaning process, until the user is notified of the "cleaning notification" that the cycle cleaning is required, the time for generating the audited water in the electrolytic cell 3 is set to the maximum before the lamp 23 is turned on. The maximum time ' is the time S200 19 201026610 in FIG. 6 as the primary alkaline water generation time, multiplied by the predetermined number of times in step S32 in FIG. 4 to obtain S5G4 t 'after a predetermined time has elapsed, and proceeds to step S506. I closes the water outlet opening and closing valve 9 to the electrolysis A shut-off valve 6, stops 3 k for the reverse voltage 'closes the pump 5', thereby 'stops supplying the reverse voltage to the electrolysis' and the water jacket between the water storage portion 1 and the electrolytic cell 3 When the cycle cleaning process is completed, the process returns to the main routine. If, in step S502, the second cycle cleaning process is performed without supplying the reverse electricity I to the electrolytic cell 3. The second cycle cleaning process is to make the lemon A cleaning agent such as an acid is dissolved in the raw water of the water storage unit. 'When the raw water is circulated between the water storage unit 1 and the electrolytic cell 3, it is desirable to chemically remove the scale in the entire circulation path including the electrolytic cell. When a second cycle cleaning process is added in addition to the first cycle cleaning process, a selection switch may be provided on the operation panel 17, and the user may select the first cycle cleaning process and the second cycle cleaning process. In the operation panel 17, as the second cleaning notification lamp, for example, a "citric acid washing notice" lamp is provided, and the "cleaning washing notice" after the third cycle cleaning process is notified several times, as "citric acid washing notification", The citric acid cleaning can be facilitated by the user. With the above first and second cycle cleaning treatments, it is possible to remove the scale adhering to the electrode plate of the electrolytic cell and prolong the life of the electrolytic cell. The treatment has the effect of being able to cope with the cleaning of the electrolytic cell using a cleaning agent such as citric acid and the water passage. Although the present invention has been disclosed above in the preferred embodiment, it is not 20 201026610 2 Those skilled in the art can make some changes and refinements in the dry circumference of the present invention, so the scope of the invention is considered to be BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a structural view for explaining an overall configuration of an embodiment of an electrolyzed water generating apparatus according to the present invention. ❹ FIG. 2 and FIG. 2(a) are diagrams illustrating an open state of a water supply opening and closing valve (〇) Fig. 2) (2) is a diagram illustrating the closed state (OFF) of the water supply opening and closing valve; the figure is a diagram showing the open state of the waterway opening and closing valve (0N); Fig. 2(d) 5 Fig. 3 is a view for explaining the appearance of the operation panel. Fig. 4 is a flow chart schematically showing the operation of the control thief 15 in the electrolyzed water generating apparatus of the present embodiment. The flow chart of the pre-drainage treatment in the embodiment will be described in detail. Fig. 6 is a flow chart for explaining in detail the alkaline water generation treatment in the embodiment. Figure. Fig. 7 is a flow chart for explaining in detail the post-drain cleaning process in the embodiment. [Mainly, a flowchart of the cycle cleaning process in the embodiment will be described in detail. Explanation of the symbol of the component] Out ο Entrance Body body Body water supply 1 Water storage unit la lb 2 2a 21

201026610 X 2b Main body water outlet 3 Electrolytic tank 3a Cathode chamber 3b Anode chamber 4a, 4b, 4c Water supply path 5 Pump (supply mechanism) 6 Water supply path opening and closing valve 7 Drainage path 8 Drainage part 9 Outlet opening and closing valve 10 Water outlet 11 Drainage road 12 diaphragm 13 cathode plate 14 anode plate 15 controller (control mechanism) 16 power plug 17 operation panel (operating mechanism, display mechanism)

twenty two

Claims (1)

201026610 VII. Patent application scope: For the bucket (4) water-splitting generation device, the water storage portion for storing the raw water is detachable with respect to the body portion of the electrolytic cell provided with the electrolysis water of j, and the body water supply port of the water storage portion is connected to the above The inlet of the water storage unit is introduced into the raw water supplied from the water storage unit to the main body water supply port; the voltage of a predetermined polarity is applied to the electrolytic cell to generate electrolyzed water, and the water is circulated from the main water outlet to the water storage unit to operate the electrolysis. The water generating device includes: the electric power unit 'provides the raw water supplied from the main body water supply port to the upper water path closing mechanism', and supplies the above-mentioned electrolytic cell with the above-mentioned main body Φ Electrolyzing and discharging the water in the electrolytic cell to the drain portion: the wire pressing mechanism controls the energization of the electrolytic cell, and controls the upper peach, the lower structure, the water supply opening and closing mechanism, and the water outlet opening and closing mechanism; The cleaning mechanism is operated by the supply mechanism, and the cleaning operation is controlled by the upper electrolysis two = ? = the above-mentioned opening and closing mechanism to make the water in the electrolysis tank to the discharge portion Out = a fan electrolytic WEI Jia reversed polarity when the transfer voltage generating water. In the case of the electrolyzed water generating apparatus according to the first aspect of the invention, in the pot: ', the electrolyzed water generating apparatus includes an operating mechanism, and the operating mechanism inputs an operation; Φ an operation of inputting electrolyzed water from the operating unit Then, the controller controls the supply mechanism and the water supply passage opening and closing mechanism to supply raw water to the electrolytic cell in a predetermined period, and controls the water passage opening and closing mechanism to read the casting tank upward after the water is drained. The control means performs control for generating the electrolysis water. 3. The electrolysis water line device as described in _5 Stomach | Lifan (4), in which: After the completion of the dehydration of the machine 2, the mechanism of the upper part and the electrolysis of the water are reversed in the state of the stopped mechanism. The nucleus of the nucleus of the nucleus is applied to the draining surface to make it remain in the electrolytic cell; 4. The electrolytic water generating device according to item (4) of the fourth aspect of the invention, wherein the == generating device is provided with a display mechanism that displays the above-mentioned control mechanism when the above-mentioned ί electric power has been 54 to a predetermined number of times The display of the agency does not prompt the cleaning instructions to lose 5 · such as the scope of patent application! In the four items: display = generating device, shooting: towel-extracted electrolysis, the electrolyzed water raw silk is also provided with an operating mechanism, the jujube mechanism is transferred 24 24,266,610,10 operating from the operating mechanism to perform the first cycle cleaning process When the user does not enter the above-mentioned control unit, the water storage unit supplies the main water supply I 1 鄕 to the cleaning process: the polarity and the electrolyzed water are introduced into the electrolytic cell to guide the electrolytic cell and the electrolytic cell is cleaned, and the temperature is 4 2 hours. Reversed voltage to perform port circulation (4) water section. ^The cleaning water of the electrolyzer (4) is discharged from the main body. Prepared by:;:r: electricity = the circulating water from the circulation of the water to the water storage part of the water circulation 7', the electrolysis water generating device is provided: The mechanism supplies the raw water supplied from the upper body water supply σ to the water supply port: a closing mechanism, and supplies the above-mentioned electrolytic cell with the supply of the water supply from the main body to the water supply port for the switch to the water supply port. Discharging the electrolysis=water to the main body water outlet, or turning the water in the electrolysis tank to the drain portion, and controlling the upper control mechanism to control the energization of the electrolysis cell, 25 201026610 ^to the mechanism, the water supply duck Structure, the above-mentioned water outlet opening and closing mechanism; operating mechanism, input operation; cleaning instruction in the second cycle cleaning process: control = = water pipe body supply water supply In the electrolytic cell, the cleaning agent for the water in the water and the water solution is used to clean the electrolytic cell, and the washing water discharged from the electrolytic cell is circulated from the main water outlet to the water storage portion. 26