TW201026609A - Electrolyzed water generation apparatus - Google Patents

Abstract

An electrolyzed water generation apparatus that realizes miniaturization of an electrolytic tank is provided. An electrolyzed water generation apparatus 1 includes a water storage portion 4, a main body 3 having an electrolytic tank 2 that generates electrolytic water from water, a circulation flow path 14 passing through the water storage portion 4 and the electrolytic tank 2, and a circulation device 15 that lets the water in the circulation flow path 14 flow. The water circulates between the water storage portion 4 and the electrolytic tank 2, at the same time when the electrolytic water is generated, and the generated electrolytic water is stored in the water storage portion 4.

Description

A.doc 201026609 VI. Description of the invention: [Technical field to which the invention pertains] There is a kind of electrolyzed water generating device. [First technique] In the past, p knows a water; from the material; the aquatic silk, with: the water part, the electrolytic cell that generates the electrolyzed water from the water produced by the cell; and the literature 1) The water discharge is discharged to the external discharge port (for example, JP-A-2004-216349-00), in this type of electrolyzed water generating device, only water can be dehydrated through the electrolytic cell, and the connection is made. The problem of the ancient ^: In order to reliably obtain the electricity of the specified pH value [inventive content ^ electrolytic cell capacity, therefore, the electrolytic cell must be enlarged. Modeling = solution 2 = is provided - can achieve small storage of the electrolytic cell The first (4) electrolyzed aquatic raw silk provided with: the water storage unit, the flow path, the =: the electrolytic cell having the electrolyzed water generated by the water; the circulating water portion of the animal water and the electrolytic cell; the supply port, Provided in the bottom wall of the unit to constitute the circulation flow path, the water in the water storage unit is supplied to the wall of the main body shirt, and the water is installed in the bottom water of the water storage unit. When flowing into the supply of the specified amount of water or less, the household device is shut down to make the water and electricity in the circulation flow path: water The electrolytic cell and the flow-through device perform the treatment process. The electrolyzed water production process is:--the water is generated while circulating water between the water storage 201026609 33132pif.doc portion and the electrolytic cell, and the generated electrolyzed water is stored in the water. According to a second aspect of the invention, in the electrolyzed water generating apparatus of the first aspect, the height of the partition wall is located in the electrolyzed water whose pH is determined by the electrolyzed water production process. The third aspect of the present invention is the electrolysis of the water in the water storage unit before the electrolyzed water production process. In the fourth embodiment of the present invention, in the electrolyzed water generating apparatus of the third aspect, the water storage reference unit is a water level reference display unit that indicates the water level of the water in the water storage unit. The unit includes a raw water chamber that supplies water from the outside, and a water purification filter cartridge that filters water from the water to the supply port, and the water level reference display portion indicates a reference of the water level in the raw water chamber. The fifth aspect is that the first to fourth sides The electrolyzed raw silk of any one of the five is placed, the electrolytic cell and the flow-through device are operated by ©, and the value of the current flowing by the control unit in the electrolysis cell and the flow-through device In the case of abnormality, the electrolyzed water production process is stopped. [Effect of the Invention] According to the present invention, water is generated by electrolyzing water between the water storage portion and the electrolytic cell by the side The electrolyzed water is stored in the water storage unit, and the water in the water storage unit passes through the electrolytic cell a plurality of times. Therefore, the electrolytic cell can be made smaller than the structure in which the water can only be passed through. According to the present invention, in the case where the amount of water in the animal water portion is equal to or less than the predetermined amount of water, the partition wall prevents water from flowing into the supply port, so that the water can be stopped from passing through the electrolytic cell to obtain the electrolyzed water having a prescribed pH value. . The above and other objects, features, and advantages of the present invention will become more apparent and understood. An embodiment of the present invention is shown in Fig. 1 to Fig. D. Fig. 1 is a schematic view showing a configuration of an electrolyzed water generating apparatus. Fig. 2 is an external view showing an electrolyzed water generating apparatus. 4 is a cross-sectional view showing a lower portion of the electrolyzed water generating device, FIG. 5 is a cross-sectional view showing a state in which the supply port and the water supply port are connected, and FIG. 6 is a view showing a state in which the supply port and the water supply port are separated. Fig. 7 is a cross-sectional view showing the connection of the supply σ and the feed water σ through the middle and the middle, and Fig. 8 (a) to Fig. 8 (4) are explanatory diagrams for explaining the flow path and the operation of the benefit. The main body of the lid is opened.] The view '11 10 is a cross-sectional view showing the main body portion in the closed state. FIG. u is a cross-sectional view showing a separated state of the main body portion and the drain portion, and a plan view of the water reading portion. Figure 13 is a view showing a casing of the drain portion, FIG. 14 is a cross-sectional view showing the detecting portion for the water-repellent portion, and FIG. 15 is a cross-sectional view showing a state in which the buoy of the detecting portion is rotated, and FIG. Fig. 17 is a cross-sectional view showing a state in which the water storage unit is =, and Fig. 18 is a block diagram showing an electric system: _ 疋 shows a flowchart of processing executed by the control unit. As shown in FIG. 1 to FIG. 3, the electrolyzed water generating apparatus i includes a main body portion 3, 201026609 ay-pii.doc ===electricity = water core loading and unloading "coupling freely in the lower portion of the main body portion 3; ^5, the cut waste water; and the control unit 6 for driving and controlling the device] are discharged to the main body portion 3 in the state where the animal water portion 4 is coupled to the main body portion 3. The supply port 10 is provided in the main body portion. The supply of the water supply port of 3 is the return of the Lu 4 and the circulation of the main shaft 2 to the water storage via the water storage unit 4 and the electrolytic cell 2: the pump 15 makes the circulation flow path 2: The water is discharged to the drain portion 5 in the water storage portion 4";:! Here, the water is, for example, a self-made 1:: production =;: electrolysis = each part of the apparatus 1 will be described in detail. In the case of Fig. 3, the animal water portion 4 has a pot case 16 formed in a substantially bottomed cylindrical shape. In the cylinder of the can outer casing 16, a substantially bottomed cylindrical spacer 17' is accommodated, and the inside of the can outer casing 16 is partitioned into an upper substantially half of the raw water chamber 18 and the lower side. The roughly-half of the clean water room 19. Water is supplied from the outside to the raw water chamber 18, and the water supplied to the raw water chamber 18 passes through the purified water filter cartridge 2 and is supplied to the clean water chamber to flow to the supply port 10. The can outer casing 16 and the spacer 17 are formed of a transparent material so that the inside can be seen visually from their outside. On the bottom wall 17a of the spacer 17, a recessed portion 17b which is recessed downward and which is provided to be recessed downward is formed. The water purification cartridge 20 is inserted into the inside of the recess i7b from above and is embedded therein. An opening i7c is formed in the bottom wall of the recess 17b. The water purification cartridge 20 has a casing 2〇a which is formed into a substantially cylindrical shape, and an upper portion of the casing 20a is provided with an introduction port, and a lower portion is provided with an outlet port. Water Purifying Cartridge 2 吸附 An adsorbent such as granular or powdery activated carbon and a filter such as a hollow fiber membrane are housed inside the outer casing 20a. In the state in which the water purification cartridge 2 is fitted into the recess nb, the upper portion of the water purification cartridge 20 is exposed in the raw water chamber 18, and the water guiding port formed in the upper portion faces the raw water chamber 18. Further, in this state, the lower end portion of the water filter cartridge 20 is exposed from the opening 17c in the clean water chamber 19, and the outlet formed at the lower end faces the clean water chamber 19. In this state, the raw water in the raw water chamber is introduced into the water purification cartridge 2 from the water conduit of the water purification cartridge 20, and the water cartridge 20 adsorbs the mixed filter contained in the raw water introduced by the adsorbent. The impurities contained in the water are filtered to purify the water, and the purified water (purified water) is discharged from the outlet to the clean water chamber 19, and the net circulation is achieved by gravity. 5, water = above the water chamber 18, is provided with the formation of a water inlet, 22. The water port 22a is rotatably mounted on the top wall 22, and the soil 23 is switchably blocked. The lid of the lid 23 is opened at the top to be supplied to the raw water chamber through the water supply port 22a. Between the side wall of the raw water passage spacer 17 and the can outer casing 6 , a flow path 24 extending upward 19 - 19 is formed at a position where the can outer casing 16 bites the top water purifying chamber as the upper end portion of the flow path 24 . In the water injection port 2, in the middle, the tank-type outer casing 16 which is separated from the main body portion 3 is placed below the bottom portion, whereby the water can be discharged from the water-filling simmering 24a through the flow path 24 201026609

x jz, piI.QOC Purified water stored in the water chamber 19. Further, in the present embodiment, the water injection port 24a is closably blocked by the upper opening cover 25 rotatably supported by the can outer casing 16 or the top wall 2. In this case, when the can casing 6 is tilted, the cover 25 is rotated by the self-weight and the dynamic pressure of the water, so that the water inlet 24a can be opened.

As shown in FIGS. 4 and 5, the bottom wall of the water purification chamber 19 of the can outer casing 16 is provided with water for supplying the water in the water storage portion 4 (purifying water chamber 19) to the main body $3 white circulation passage 14 The supply port 1 in the middle and the return port 12 returning water from the circulation flow path 14 of the main body portion 3. The supply port 10 communicates with the water supply port η of the main body portion 3, and the return port 12 communicates with the water spout 13 of the main body portion 3. The water supply port 11 is provided in the upstream portion of the shield ring flow path 14 in the main body portion 3, and the water supply port 13 of the f water portion 4 is provided in the lower portion of the circulation flow path 14 in the main body portion 3 to return the water. Water Department 4. The supply port 1G and the water supply port are sealed between the sealed ports 13 by a 0-ring 2 (nng) 26 as a sealing member to ensure watertightness. A water stop valve 27 is provided on the ^ 10 and the return port 12. The structure of the surname (4) of the mouth supply port 10 and the return port 12 is also the same, and the water stop valve 27 and the water supply port I are exemplified by m 2 " and the water supply port of the supply port 10 - having: formed in: Oral:: 5~', for example, the rubber 27a that is attacked or detached from the valve seat portion 27a, the rod 27c that can be relatively fixed to the valve body 27b, the valve body 27b, and the solid valve limb 27b Mounted on the seat portion 27a 201026609 ^JlJ^pn.doc scoop. H cattle 27d. The rod body 27c can be opened up and down in the radial direction, and can be opened up and down from the outside of the squad, and the sputum 10 can be placed in the supply port 1 私. Come cut. (4) Support member 27 = branch member is shown as being supplied with π 1() _ by the cutting member 27e, and therefore, in the 10, except for the portion where the support member 27e is provided, the supply port has a second spring or the like == 27 427b Water: U closed state), close the supply port 10. The main body portion 3: a pin member 29 is provided on the pin member/water port 13 respectively, and the opening member for opening (opening) the water stop valve 27 is provided. When the animal water portion 4 is in the hiding area 3, the biasing force of the nuclear elastic portion of the pin member 29 pushes the valve body m through the rod 2?c, thereby causing the valve to disengage the seat portion 27a and open the water stop valve 27 . In the open state port, the supply port 1 is in communication with the water supply port u, and with respect to the return port 12, the return 12 is in communication with the water spout 13. Here, the 密封-shaped seal ring 26 is disposed at a position, that is, in the process of attaching and detaching the water storage portion 4 with respect to the main body portion 3, when the water stop threshold 27 is in an open state, the supply port 1 and the water supply port 1 are always provided. The position between the return port 12 and the water spout 13 is sealed. Further, a filter 3 is provided on the water supply port u and the return port 12. The ejector 30 is, for example, a metal mesh. Further, as shown in Fig. 3, a partition wall 31 is erected on the upper surface (bottom surface) of the soil of the water purification chamber 丨9 of the can outer casing 16. The partition wall 31 surrounds the supply, 'α, and when the amount of water in the water storage unit 4 is equal to or less than a predetermined amount of water, the water is prevented from being externally f.doc 1〇. The height of the partition wall 31 is located below the water level of the water in the purified water production process = the water storage chamber 19 in which the water storage unit 4 is present, which is required for the electrolyzed water to be treated by the electrolyzed water production process = = 疋, located below The water level indicated by the first water level reference age section 32

As shown in Fig. 2, the first reference display portion 32 is formed on the circumferential surface of the can outer casing 16 as a water level reference display portion indicating the water storage portion 4 t == water_reference. The first! Water level = j such as a line drawn with ink or the like. In addition, the two-water level reference display unit 33 of the i-position of the partition wall 3: != indicates that the raw water chamber 18 is an open-wired riding portion. The second water level reference display unit 疋 is formed on the step portion of the spacer 17.丨有支15 Figure 1 does not 'the main body 3 has a casing 4Ϊ' on the casing 41:::::Γ electrolytic cell 2, water supply η, water spray... control her;; polar water = two t Water (cathode water) and acidic water (positive 2a and anode chambers are not shown in Figure J: E-Teng = two: a solar coffee is provided as an electrode (a τυ-powered m-square paste flat electrode. The electrode passes through Titanium dioxide, or sintered uranium (Pt) or silver (Ir). It is composed of titanium, 201026609 jju^pxi.doc, polyethylene terephthalate, etc. = Figure: cathode chamber 2a and anode chamber 2b Each of the inlets 2f, & κ, and ° specifically communicates with the first pipe portion 45a, the pump 15, the third pipe, the first channel switch 46 as the channel switch, and the nozzle 11. The outlet of the cathode chamber 2a The second flow path cut 45d as a flow path switch communicates with the water spray port 13. The fourth portion 45e communicates with the drain portion 5, and the extremely outlet 21 passes through the fifth tube. The first pipe portion 45a, the fruit 15, the second pipe portion 45b, the first flow path switch 46, and the third pipe portion 45c are introduced into the cathode chamber 2a and the anode chamber 2b from the water supply port. Engage, to b after this, in the yin Plate 2d and yang im 2 electric r 'the cathode chamber 2a and the water in the anode chamber 2b are ionized water,: the impotence yoke is formed at the interface of the cathode plate to distort the water, and in the anode layer 2e and Acidic water is generated at the interface of the water. The alkaline generating acid generated in the cathode chamber 2a flows out from the outlet 2h by the second production path and the sub-water, and is switched through the second machine path and the fourth pipe part. The acidic water flows out from the outlet 2i, and is discharged to the drain portion $ via the fifth portion 45e. Thus, the main body portion 3 is formed to be switched from the water supply σ u through the boat second tube portion 45b and the first flow path. 46, the first: 邛 45c, the electrolytic cell 2, the second flow path switcher 3 s reach the electrolytic circuit 48 兮 g 4 of the water spout 13 and form a cycle = the electrolytic flow path 48 and the storage one Further, the sixth pipe portion 45f is provided in the main body portion 3, and the sixth pipe portion 12 ❹ ❹ 201026609 jjuzpif.doc 45f serves as a drain for the electrolytic cell 2 in the electrolytic flow path 48 and reaches the drainage portion 5. Road. H = road and connected to the brother 2 pipe 45b. The first channel switcher II Wu thief 46 uses the __loop 14. The first stream switch 46 = electricity 8_' =, (0N) open The flow path 14 connects the second and the opposite phase % & ° P45C and cuts off the circulation flow path on the first side of the first flow path switch 46 (the connection between the second camp and the upstream part) = The first pipe switch 46 of the water flow path is closed by the biasing force of the first to the road switch 46 as shown in the figure, and the second pipe portion 45b is cut off and the second pipe portion 45b is cut off. In addition, as shown in the figure, the seventh pipe portion 45g is branched from the electrolysis flow (four) on the downstream side of the electrolysis flow path '2a, and the second-electrode flow path is formed. Specifically, the seventh tube portion 45g is connected to the state 47 of the 22, and is switched by 筮0, ώg, and '° to the second flow path; the second unit 4;::?; 47 and the cathode The outlet of the chamber 2a is connected: the second flow path is switched: the solenoid valve ' is used to switch the circulation flow path 14. ^ ^ ^ (ON) is connected, and the outlet 2h of the #i' and the outlet of the fourth tube 45d pole chamber 2a are cut off = the circulation flow path on the upstream side of the second unit 47 (yin connection. ^ As the seventh pipe portion 45g of the drain flow path, the second flow path switch 47, as shown in Fig. 8(d), 13 201026609 jjuzpii.doc = electric (OFF) The flow closes the road 14' so that the circulation flow on the upstream side of the second flow path switch 47 is cloudy, the outlet 2h of the chamber 2a is connected to the seventh pipe portion, and the outlet 2h and the fourth portion of the cathode chamber 2a are cut off. The connection of the tube 4 brother. As shown in Fig. 3, the upper portion of the casing 41 of the main body portion 3 is provided with a placing portion 49' on which the % water portion 4 is placed. The placing portion 49 is provided with a water supply port. '

Further, in the main body portion 3, as shown in Figs. 3, 9 and 1B, a cover 5 covering the water supply port η and the water spout 13 is provided. The lid is rotatably attached to the casing 41, and the water supply port 11 and the water spout 13 are blocked by the switch in a state where the water storage portion 4 is detached. Further, in a lower portion of the casing 41 of the main body portion 3, as shown in Figs. 4 and u, a storage chamber 51 for accommodating the drain portion 5 is provided. An inlet 51a' is formed in the side of the accommodating chamber 51, and the draining portion $ can be taken out and inserted from the inlet and outlet 51a.

The drain portion 5 has an outer casing 52 that is open at the top and a top plate 53 that blocks the upper surface of the outer casing 52. As shown in Fig. 12, an inlet 53a communicating with the outlets of the fifth pipe portion 45e and the sixth f portion 45f is formed in the top plate 53, and waste water discharged from the fifth pipe portion 45e and the sixth pipe portion 45f is discharged from the inlet 53a. Introduced into the outer casing 52. Further, a drain port is formed in the deck 53. The drain port is switchably blocked by an open-type cover 54 rotatably attached to the top plate 53. In the present embodiment, the drain portion 5 detached from the main body portion 3 is tilted to make the drain port lower. Thus, the waste water stored in the outer casing 52 can be discharged from the drain port. 14 201026609 ijzpif.doc In addition, as shown in the figure, the electrolyzed water generating apparatus 1 is provided with a second nuclear detection section 61 as a first detecting unit for detecting a connection state of the water storage unit 4 with respect to the body. The water storage unit detecting unit 61 includes a first permanent magnet 61a provided in the water storage unit main body, and a first magnetic force detecting circuit 61b provided on the upper portion of the main body unit 3 for detecting the water permanent magnet 61a. In the water-storing portion 桧 61, the water storage unit 4 is attached to the main body 3, and the first ^

The detection circuit 61b detects the magnetic force of the first permanent magnet 61a, and outputs money indicating that the water storage unit j is attached to the main body unit 3, and outputs the money to the control unit 6 to remove the water storage unit 4 from the main body unit 3. In the state in which the first magnetic force circuit 61b does not detect the magnetic force of the first permanent magnet 61a, the first load cell detection circuit 61b outputs a signal indicating that the water storage unit 4 has been unloaded from the main body unit 3 to the control unit 6. . In addition, as shown in Fig. 4, Fig. 14, and Fig. 15, a drain portion detecting portion 62 is provided in the production of electrolyzed water. The drain portion detecting portion 62 is used as a second detecting portion for detecting the connection of the drain portion 5 to the main body portion 3, and is used as the remaining amount of water for detecting the drain portion 5.丨1. The drain portion detecting unit 62 includes, for example, a tree, a j float 64a provided in the drain portion 5, a second θ iron 62b fixed to the upper portion of the buoy 62a, and a second portion θ provided in the main body portion 3 for detecting the second portion. For the second time, the second magnetic force detecting circuit 62c of the human iron 62b is magnetized. The buoy 62a has a plurality of air chambers 62d that are open to the outside and accommodate the air. These air chambers 62d are separated and separated. The buoy 62a is housed in a detection chamber 52b constructed by a wall portion 52a that is erected on the outer surface of the drain portion 5, and the bottom portion , is rotatably coupled to the wall portion 52a via a support shaft 62e. 15 201026609 jjijzpn.doc In the drain portion detecting portion 62 of such a configuration, when the drain portion 5 is attached to the main body portion 3 and the amount of water in the drain portion 5 is equal to or less than a predetermined amount, the buoy is as shown in FIG. 62a is located at the initial position, and in this state, the second magnetic force detecting circuit 62c detects the magnetic force of the second permanent magnet 62b, and indicates that the drain portion 5 is attached to the main body portion 3 and the amount of water in the drain portion 5 is equal to or less than a predetermined value. The signal is output to the control unit 6. On the other hand, when the wastewater flows into the drain portion 5 and the water level of the wastewater rises, the wastewater flows into the detection chamber, the water level of the detection chamber 52b rises, and the buoy 62a rotates from the initial position by buoyancy. Thereafter, when the water amount of the entire drain portion 5 exceeds a predetermined value, as shown in Fig. 15, the second permanent magnet 62b is located outside the detection region of the second magnetic force detecting circuit 62c. In this state, the second magnetic force detecting circuit 62c outputs a signal indicating that it is not detected to the control unit 6. Further, in a state where the drain portion 5 is detached from the main body portion 3, the second permanent magnet 6 2 b is also located outside the detection region of the second magnetic force detecting circuit 6 2 c. Therefore, the second magnetic force detecting circuit 62c indicates that it is not detected. The meaning is output to the control unit 6. Further, as shown in Figs. 16 and 17, the electrolyzed water generating apparatus i has a crucible tray 64. The tray 64 is attached to a lower portion of the water storage portion 4 in a state of being detached from the main body portion 3, and blocks the supply port 1 and the return port 12. The tray can be detachably attached to the water storage unit 4. The tray 64 has a tray main body (10) and a pair of sealing members 64b attached to the tray main body 64a. The dense member 64b is fitted to the supply port 1 from the lower side of the supply port 1〇 and blocks the supply port ίο'. The other sealing member 64b is blocked from the lower port 12 of the return port 12 and blocks the return port 12. Person, 16 201026609 Heart Uzpif.doc Further, as shown in Fig. 1, the electrolyzed water generating apparatus i is provided with an operation unit 42 that accepts a user's operation. The operation unit 42 is provided with various buttons such as a field button and a cleaning button, and a warning display unit 42a that emits light by an abnormality notification unit such as an LED or the like. The control unit 6 is constituted by, for example, a micro-computer having a CPU, a RAM, a ROM, and a timer. Further, the control unit 6 is provided with a power supply circuit that supplies electric power to each part of the device ,, and can control the power supply of each part. As shown in Fig. 18, the control unit 6 is connected to the pump 15, the electrolytic cell 2, the first flow path switching benefit 46, the second flow path switch 47, the operation unit 42, the water storage unit detecting unit 61, and the drain unit. Detection unit 62. Further, the control unit 6 is connected to a galvanometer 71 that detects a current flowing through the pump 15, and a second galvanometer 72 that detects a current flowing through the electrolysis. Next, the treatment including the electrolysis water treatment by the control unit 6 is performed with reference to 胄. The control unit 6 keeps the standby state when the field button or the refresh button is not pressed (NO in step S1).

The control unit 6 starts the process corresponding to the press _ by inputting the money indicating that the pressed domain is pressed by the operation unit 42 and pressing the _ _ meaning of the _ city cleaning button (YES). . Specifically, the control unit 6 performs the electric field processing in the case where the domain is pressed. In the reduction of the money fabric, the Ministry = the 1st flow switch 46 and the 2nd flow switch Ο energize them to be in the ON state, and the electrolysis in the water and the main compartment 3 Circulate between slots 2. In the cycle 201026609 3iiJZplI.doc, the water and the acidic water are generated as the water purification chamber of the water portion 4, and the acid water is returned from the electrolytic cell 2 from the first supply to the electrolytic cell. 2. On the other hand, in. "M5e is discharged to the drain portion 5, and stored in the drain portion 5 5 1 t^ tt 71 2 (the current in step S3, / and the current flowing through the electrolytic cell 2 continues to step (4) of the water generation process (the success of step S4) The electrolytic ionized water of a predetermined time is processed. ^) 'When the predetermined pH value is passed, the predetermined time is passed (step s) and the ith flow path switch 46 and the second flow path are cut. The voltage 'turns them off. By the electric, 7 ^ ' 4 _ 19 stores the predetermined (four) Saki H water part 4, the control unit 6 generates the second treatment in the electrolyzed water. In the surface water such as t, _胄6 Pre-drainage, (10) state, and switching of the second flow path switch = In this state, when the pump !5 is specified, the FF state, the residual water in the path 14 is moved from the fifth pipe portion 45. Thereby, the circulatory water flow unit 5. The heart 7th tube portion is discharged to the platoon, and on the other hand, in the step, the control unit 6 flows through the electric pump J8 ii.doc 201026609 = ? In the case of an abnormality (step of the abnormality notification processing # = abnormality notification (notification) processing (step (6).), the warning display portion of the step portion 42 is turned on. 0 : Bundle electrolysis water generation processing. "Yes") Press the cleaning button under the mud (step Μ S5). Cleaning process at the cleaning time (step S2 to step 2nd flow path switching Ϊ 47 'Control) The portion 6 sends a voltage to the first flow path switch 46 for a predetermined time (reverse rotation, applying a regulation between the electrodes, and stopping the application of voltage to the ith i) and stopping the driving of the fruit 15 to make them in a shape The second 3 and the second flow path switch 4 are connected to 1 and the center of the heart. Thus, the electrolytic cell 2 and the water discharged into the row = s from the electrolytic cell 2 are discharged from the fifth tube portion and the sixth tube portion 45f. In the cleaning process, the process of step S3 and step S6 is performed in the same manner as the above-described cleaning process. The process of step S3 and step S6 is performed. The water storage unit detecting unit 61 detects the water storage unit 4 in the water storage unit detecting unit 61. (2) When the main body portion 3 is attached to the main body portion 3, when the drain portion detecting portion 62 detects that the portion 5 is not attached to the main body portion 3, or when the water amount of the drain portion 5 is detected to reach a predetermined amount of water, Electrolytic water generation treatment and cleaning treatment (prohibited). Specifically, in the = machine state T, even if the domain (ion) is pressed, press _cleaning, and save 4 or the drain portion 5 is not attached to the main body portion 3 or the amount of water in the drain portion is under the armpit water amount, (4) the initial electrolysis treatment process 19 201026609 jwpii.doc or washing treatment. In addition, in the electrolysis water generation treatment or In the case where the water storage portion 4 or the drain portion 5 is detached from the main body portion 3 during the cleaning process, or when the amount of water in the drain portion 5 reaches a predetermined amount of water during the dehydration generating process or the washing process, the electrolyzed water is stopped. When the value of the current flowing through one of the electrolytic cell 2 and the pump 15 is abnormal, the control unit 6 stops the electrolyzed water generating process. As described above, according to the present embodiment, the water is generated in the water storage unit 4 and the electrolysis unit 2, and the electrolyzed water is generated in the water storage unit. Since the water in the water portion 4 passes through the electric n-releasing tank 2 a plurality of times, the electrolytic cell 2 can be made smaller than the structure in which only water can pass through the electrolytic cell 2 once. Further, according to the present embodiment, the pH of the electrolyzed water can be adjusted by adjusting the execution time of the electrolyzed water production process. Further, according to the present embodiment, the water storage unit 4 is detachably coupled to the main body unit 3. Therefore, the main body unit 3 and the water storage unit 4 can be separately stored, and thus the degree of freedom of their storage places is increased. For example, only the water storage unit 4 storing the alkaline ionized water can be stored in a small space such as a refrigerator. In addition, according to the present embodiment, the water stop valve 27 closes the supply port 1 and the return port 12 in a state where the water storage unit 4 is detached from the main body=3, and therefore, the water storage unit 4 is detached from the main body unit 3. In the lower state, it is possible to prevent water in the water storage portion from leaking from the supply port 10 and the return port 12. Further, according to the present embodiment, in the process of attaching and detaching the water storage unit 4 to the main body unit 3, when the water stopping core 7 is in an open state, the O honey sealing ring 26 as a sealing portion 20 2〇i〇2m is always The main body portion 3 and thus the water storage portion 4 are sealed with respect to the main body portion 3, and the water storage portion 4_water is returned from the supply port 1 () and returned. Further, according to the present embodiment, After the regulation / exposure. The portion 6 is fed, that is, the electrolyzed water which is used as a flow-through device and is inspected and stopped from applying a voltage to the electrolytic cell 2, so that the pH is stopped. Further, according to the present embodiment, the drain portion 5 Μ defines that the body portion 3 can be freed from water and can be disposed of in the place where the main body portion 3 is provided. The free production of the place is set up. Therefore, you can use the wastewater when you need to drain the waste water (acid water). Further, according to the present embodiment, when the water storage unit detecting unit 6 as the second detecting unit detects that the water storage unit 4 is not connected to the unit 3, the control unit 6 does not perform electrolysis water, and the soil control device ! Idle.

In addition, according to the present embodiment, in the case where the drain portion detecting portion 62 as the second detecting portion detects that the drain portion 5 is not connected, the control portion 6 does not perform the electrolyzed water generating process, whereby the device can be used. In addition, in the case where the drain portion detecting unit 62 as the third detecting unit detects that the amount of water in the drain unit 5 has reached the constant water amount, the control unit 6* can prevent the soil from being generated. The wastewater in the drain portion 5 overflows from the drain portion 5. Further, according to the present embodiment, the supply port 10 and the return port 12 of the water storage portion 4 that has been detached from the main body portion 3 can be blocked by the water stop valve 27 and the tray 64, and therefore, it is possible to reliably Water is prevented from overflowing from the supply port 1 and the return port 12. Further, according to the present embodiment, the communication state between the circulation flow path 14 and the drainage flow path (the sixth tube portion 45f and the seventh tube portion 45g) can be made by the i-th flow path switch 46 and the second flow path switch 47. Set to be variable, therefore,

It is possible to prevent the water of the circulation flow path 14 from flowing to the drainage flow path, or the water of the flow path 14 to flow through the drainage flow path. Further, according to the present embodiment, since the filter 3 is disposed in the water supply port u and the water spray port 13, the foreign matter can be prevented from entering the water storage unit 4 by the filter 30. Main body 3. In addition, it is possible to prevent the foreign matter from being invaded by the water supply σ u and the water spout u in the state where the water storage unit 4 is detached from the water supply unit 4 in the south. In the low-fussing manner, the water supply port u and the water spout 13 are covered by the cover 50 in a state where the water storage portion 4 has been removed from the main body portion.

Two: You can pass the cover 5. In the main body portion 3 in a state where the foreign matter is removed from the water supply σ η and the sluice port X by the water storage unit 4: (4) The real money type can be generated by the purified water. electrolyte. ^ Here, in the case where the water stored in the water storage portion 4 has been treated, it is possible to generate an audited ionized water whose pH exceeds the rule 2': for example, the pH value of 1 〇. Therefore _ even in this fine _ saki gaze, cut "materials come to ^ 22 .doc 201026609 generated pH value exceeds the specified 1) 1 ^ value (for example ^ ^ value water. Specifically, the following In the point = the separation process, the acidic water is discharged, so that the amount of water in the generation of the treatment is reduced. The height of the partition 31 is set to η. " The generation process exceeds a predetermined threshold (for example, Yang Di

The value of the test ionized water prevents the water from supplying n)^PH ❹ ❹. Thus, in the case of generating a water exceeding the predetermined value of ρ (for example, the pH of the horse is verified to be 1 〇). The water is supplied to the main body 3 to stop the supply of water (electrolysis. According to the present embodiment, the water-repellent generation process obtains a predetermined pH value (for example, the value of the value; The electrolysis of kp value 7 to 10) is stored below the water level of the water storage unit 4 before the treatment, so that the water in the liquid stops supplying water to the electrolytic cell 2. Reference ί: Part 2: =::; The water level reference in which the first water level is set in the water storage unit 4 indicates the base of the water level of the water to generate the appropriate electrolyzed water. The water level reference display unit d: 'as the water level reference The base i of the water level in the second α of the display unit = the display position) 33 ' indicates that the raw water chamber is filled with an appropriate amount of material, and the W is promoted by the W-money surface water storage unit 4, and the electricity is used according to the second application ==. Any one of the middle workers: the neighboring 6 stops the electrolysis in the case where the values of the electrolysis tank 2 and the pump 15 are not normal, and the electrolysis is stopped 23 201026609

丄.d〇C water generation processing, therefore, it is possible to prevent the occurrence of a positive value by the warning display unit 42 of the operation unit 42 at two o'clock, and == the user', therefore, the user can clearly produce Ϊ Ϊ: In addition to the present embodiment, various other embodiments can be adopted without departing from the present invention. E.g,

The second water level reference of the display unit (water level indication) (the water level ' may be a rod-shaped temple that extends downward from the cover 23. The abnormality notification unit may notify the abnormality by voice. 6 Although the present invention The present invention has been disclosed in the above preferred embodiments, and it is not intended to limit the scope of the present invention. The present invention can be modified and retouched without departing from the spirit of the invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a structural view schematically showing an electrolyzed water generating skirt according to an embodiment of the present invention.

Fig. 2 is an external view showing an electrolyzed water generating apparatus according to an embodiment of the present invention. Fig. 3 is a cross-sectional view showing an electrolyzed water generating apparatus according to an embodiment of the present invention. Fig. 4 is a cross-sectional view showing a lower portion of an electrolyzed water generating device according to an embodiment of the present invention. Fig. 5 is a cross-sectional view showing a state in which a supply port and a water supply port are connected according to an embodiment of the present invention. twenty four

201026609H Fig. 6 is a cross-sectional view showing a state in which the supply port and the water supply port are separated according to an embodiment of the present invention. Fig. 7 is a cross-sectional view showing a stage in a process of connecting a supply port and a water supply port according to an embodiment of the present invention. 8(a) to 8(d) are explanatory views for explaining the operation of the flow path switch according to the embodiment of the present invention. Fig. 9 is a cross-sectional view showing a main body portion in an open state in a cover according to an embodiment of the present invention. Fig. 1A is a cross-sectional view showing a main body portion in a state in which a lid is closed in accordance with an embodiment of the present invention. Fig. 11 is a cross-sectional view showing a separated state of a main body portion and a drain portion according to an embodiment of the present invention. Fig. 12 is a plan view showing a drain portion according to an embodiment of the present invention. Fig. 13 is a perspective view showing the outer casing of the drain portion according to the embodiment of the present invention. Fig. 14 is a cross-sectional view showing a drain portion detecting portion ❿ according to an embodiment of the present invention. Fig. 15 is a cross-sectional view showing a state in which a float of a detecting portion for a drain portion according to an embodiment of the present invention is rotated. Fig. 6 is a cross-sectional view showing a water storage portion and a tray according to an embodiment of the present invention. Fig. 剖 is a cross-sectional view showing a state in which a tray is attached to a water storage unit according to an embodiment of the present invention. Figure 18 is a block diagram showing an electrical system of an embodiment of the present invention, 25 201026609 j : ujzpii.d〇c. Fig. 19 is a flowchart showing processing executed by a control unit according to an embodiment of the present invention. [Explanation of main component symbols] 1 : Electrolyzed water generating device 2 : Electrolyzer 3 : Main body 4 : Water storage unit

5 : Drainage section 6 : Control section 10 : Supply port 11 : Water supply port 12 : Return port 13 : Water spout 14 : Recirculation flow path 15 : Pump (circulation device)

18: Raw water chamber 20: Water purification cartridge (cartridge) 31: Partition wall 32: First water level reference display unit (water level reference display unit) 33: Second water level reference display unit (water level reference display unit) 42: Operation unit 45a~ g : 1st to 7th pipe sections 46 : 1st flow path switcher 26 201026609

j j i j^.pix.d〇C 47 : 2nd flow path switch 4 8 · Electrolytic flow path

27

Claims (1)

201026609 VII. Patent application scope: ι· An electrolyzed water generating device ” has: a water storage unit that stores water; a main body portion that has an electrolytic cell that generates electrolyzed water from water; a circulation flow path through which the water storage unit and the The electrolysis tank; the supply port' is disposed at a bottom wall of the animal water portion to constitute the circulation, and the water in the water storage portion is supplied to the main body portion; ιι" a partition wall is erected on a bottom wall of the water storage unit, and when the amount of water in the water storage unit is equal to or less than a predetermined water amount, water is prevented from flowing into the supply flow device, and water in the circulation flow path is caused to flow; And a control unit that controls the electrolysis cell and the flow-through device to perform electrolyzed water production processing. The electrolyzed water production process generates electrolyzed water while circulating water between the water storage unit and the electrolysis cell, and generates the generated water. The electrolyzed water chamber is present in the water storage unit. 2. In the electrolyzed water generating device according to the scope of the patent application, The height of the partition wall is required to be required for the electrolyzed water having a predetermined pH value obtained by the electrolyzed water generating treatment, and the electrolyzed water is generated below the water level of the water stored in the water storage portion. . The electrolyzed water generating device according to the present invention, wherein the water level reference display portion for indicating the water level of the water stored in the water storage portion is provided in the first or second aspect of the invention. The electrolyzed water generating apparatus of the third aspect of the invention, wherein the water storage unit includes a raw water chamber that supplies water from the outside and a furnace 'from the raw water to the supply port A water purification filter for water; a cylinder, the water level reference display portion indicating a reference of a water level in the raw water chamber. 5. The electrolyzed water generating device according to claim 1 or 2, wherein the electrolysis cell and the flow-through device operate by electric power, and the control unit is in the electrolysis cell and the circulation When the value of the current flowing in any one of the devices is not normal, the electrolyzed water generating process is stopped. 29