CN1435378A - Electrolytic water producing device - Google Patents

Electrolytic water producing device Download PDF

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Publication number
CN1435378A
CN1435378A CN03101922A CN03101922A CN1435378A CN 1435378 A CN1435378 A CN 1435378A CN 03101922 A CN03101922 A CN 03101922A CN 03101922 A CN03101922 A CN 03101922A CN 1435378 A CN1435378 A CN 1435378A
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CN
China
Prior art keywords
electrolytic water
aqueous electrolyte
pump
electrolyte liquid
brine electrolysis
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Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN03101922A
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Chinese (zh)
Inventor
古田铁也
眼目生一郎
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Mikuni Corp
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Mikuni Corp
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Publication date
Application filed by Mikuni Corp filed Critical Mikuni Corp
Publication of CN1435378A publication Critical patent/CN1435378A/en
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    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/46Treatment of water, waste water, or sewage by electrochemical methods
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/30Hydrogen technology
    • Y02E60/36Hydrogen production from non-carbon containing sources, e.g. by water electrolysis

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  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Electrochemistry (AREA)
  • General Chemical & Material Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Hydrology & Water Resources (AREA)
  • Engineering & Computer Science (AREA)
  • Environmental & Geological Engineering (AREA)
  • Water Supply & Treatment (AREA)
  • Organic Chemistry (AREA)
  • Water Treatment By Electricity Or Magnetism (AREA)
  • Apparatus For Disinfection Or Sterilisation (AREA)
  • Electrolytic Production Of Non-Metals, Compounds, Apparatuses Therefor (AREA)

Abstract

The invention provides an electrolytic water production device that is convenient to carry and has a small power consumption and that supplies any amount of the anodic electrolytic water or the cathodic electrolytic water in any time and in any site. The electrolytic water production device is provided with an electrolyte aqueous tank 8, a pump 14 which feeds under pressure an electrolyte aqueous solution in the tank 8 having a power storage part provided therein to an electrolytic tank 18, the electrolytic tank 18 which produces the anodic electrolytic water and the cathodic electrolytic water by electrolyzing the electrolyte aqueous solution, a nozzle 26 which discharges either one of the resulting anodic electrolytic water or the cathodic electrolytic water, a waste tank 30 which stores the other resulting electrolytic water, a switch 36 which is interlocked with the power storage part and a constant-current circuit 34 which feeds an electric power to the electrolytic tank when the switch is turned on.

Description

Electrolytic water generating device
Technical field
The present invention relates to the portable electrolytic water generating device that anode side brine electrolysis that the aqueous electrolyte liquid electrolysis is obtained or cathode side brine electrolysis are sprayed.
Background technology
By membranaceous charged membrane that ion exchange resin is made as barrier film and have the non-charged membrane of microporous structure, the electrolyzer of the nonactive electrode of compositions such as platinum or platinum alloy is disposed in utilization, with alkali-metal muriatic thin aqueous electrolyte liquid electrolysis, the low anode side brine electrolysis (sour water) of pH value that taking-up generates in the anode side electrolysis, using it for sterilization and disinfectant technology is well-known (spy opens flat 11-90442 communique).In addition, utilizing the technology that does not have membranous electrolyzer to make brine electrolysis also is known (spy opens flat 6-246272).
Owing in the anode side brine electrolysis that anode side generates, comprise hypochlorous acid, hypochlorous strong oxidation and chlorization are applied to sterilization and sterilization, this using method is popularized in medical office.And,, studying as the surgery assisting therapy because the ozone of the trace that comprises in the anode side brine electrolysis and the molten oxygen of depositing have the effect that promotes that granulation generates.In addition, along with the process of time, useful effect reduces known brine electrolysis after manufacturing.So brine electrolysis preferably uses after manufacturing immediately.
These electrolytic ionized water producing apparatus are equipped with electrolyzer, pump etc., are the relatively large devices of ratio that is provided with in hospital etc.Therefore, the manufacturing installation of above-mentioned brine electrolysis is for being that the personal use of purpose is unaccommodated to supply with fresh brine electrolysis after just the generating of desired number at any time.
Open among the 2001-276826 the spy, put down in writing a kind of small-sized electrolytic water generating device that can in general family, rationally use.This electrolytic water generating device, be a kind of during switch connection,, when electrolyzer is supplied with aqueous electrolyte liquid, on electrode, apply voltage and carry out electrolysis in liquid-feeding pump action, the anode side brine electrolysis that generates is not separated with the cathode side brine electrolysis and the structure of spraying from nozzle together.
But in the occasion of this device, except the needed electric power of electrolysis, electric power is also wanted in the driving of pump, is the occasion of being supplied with by battery at electric power, and battery consumption is quite big.
In addition, anode side brine electrolysis and cathode side brine electrolysis, the performance difference, purposes is different.The spraying together because above-mentioned electrolytic water generating device antianode side brine electrolysis does not separate with the cathode side brine electrolysis can't be according to anode side brine electrolysis and cathode side brine electrolysis performance applications separately in the problem of optimal purposes so exist.
Summary of the invention
The present invention In view of the foregoing finishes just, and its purpose is to provide a kind of and is easy to carry, power consumption is little, can supply with the anode side brine electrolysis of any amount or the electrolytic water generating device of cathode side brine electrolysis at any time.
The present invention that can realize above-mentioned purpose is as described below.
[1] a kind of electrolytic water generating device comprises: the aqueous electrolyte liquid groove of storing aqueous electrolyte liquid; The aqueous electrolyte liquid with in the above-mentioned aqueous electrolyte liquid groove with storage power unit is sent to the pump of electrolyzer; The aqueous electrolyte liquid electrolysis of force feed is generated anode side brine electrolysis and cathode side brine electrolysis electrolyzer; With the brine electrolysis of generation or the nozzle of a kind of ejection in the cathode side brine electrolysis; The waste liquid tank that holds the another kind of brine electrolysis of above-mentioned generation; Switch with storage power unit interlock; And when above-mentioned switch connection to the constant-current circuit of electrolyzer with electricity.
[2] electrolytic water generating device of being put down in writing as [1], wherein the pump utilization is stored in the aqueous electrolyte liquid of the energy force feed predetermined amount in the storage power unit.
[3] electrolytic water generating device of being put down in writing as [1] is wherein stored the energy that the power unit utilization is stored by the distortion of spring.
[4] electrolytic water generating device of being put down in writing as [1] is wherein stored the energy that the power unit utilization is stored by the compression of gas.
With reference to the accompanying drawings the present invention is described in detail.
Description of drawings
Fig. 1 is the synoptic diagram that an example of electrolytic water generating device of the present invention is shown.
Fig. 2 is the schema that the formation of electrolytic water generating device of the present invention is shown.
Fig. 3 illustrates the constructed profile with example of the pump of storing power unit used in the present invention.
Fig. 4 (A) is for illustrating another routine constructed profile with pump of storage power unit used in the present invention.
Fig. 4 (B) is for illustrating the graphic representation of its stroke profile.
Fig. 5 illustrates another routine constructed profile with pump of storage power unit used in the present invention.
Fig. 6 illustrates another routine constructed profile with pump of storage power unit used in the present invention.
Embodiment
Fig. 1 is the synoptic diagram that an example of electrolytic water generating device of the present invention is shown.Among Fig. 1, the 20th, electrolytic water generating device is bottom and Handheld Division 4 and the base portion 6 formation one in synthetic resin frame portion 2.
Be provided with aqueous electrolyte liquid groove 8 in above-mentioned frame portion 2, store electricity is separated the matter aqueous solution 10 in groove.Aqueous electrolyte liquid is for dissolving the solution of organic electrolytes such as inorganic electrolytes such as an alkali metal salt, alkaline earths salt and xitix in water.Preferably about 0.1~2 quality % of electrolytical concentration.
12 is first feed pipes, is connected with above-mentioned aqueous electrolyte liquid groove 8 and pump 14, by this first feed pipe 12, with aqueous electrolyte liquid 10 supply pumps 14 in the aqueous electrolyte liquid groove 8.
Said pump 14, has storage power unit (not shown) described later, the handle 16 that will be arranged at manually on the pump 14 is operated on the direction of arrow A, pump can be driven energy and be stored in the storage power unit, utilize this energy the above-mentioned aqueous electrolyte liquid 10 of specified amount can be sent to electrolyzer 18 described later.
20 is second feed pipes, is connected with the ejection side of said pump 14 and the inlet side of above-mentioned electrolyzer 18.Above-mentioned electrolyzer 18, anode 22 and negative electrode 24 with configured in parallel in flat electrolyzer framework.Above above-mentioned anode 22, be connected with brine electrolysis jetting nozzle 26, and above negative electrode 24, be connected with an end of sewer pipe 28.In addition, the 30th, the waste liquid tank that is connected with the other end of sewer pipe.
The 32nd, battery transmits electric power to constant-current device 34, and above-mentioned anode 22 and negative electrode 24 are supplied with in controlled constant current.In addition, the 36th, the power switch with storage power unit interlock by above-mentioned handle 16 is spurred on the direction of arrow, makes handle 16 contact with power switch 36, and power switch 36 becomes on-state.
Spur on the direction of arrow as handle 16, power switch 36 is connected, constant current is supplied with the anode 22 and the negative electrode 24 of electrolyzer 18 above-mentioned electrolytic water generating device.On the other hand, the energy that is stored in the above-mentioned storage power unit makes pump 14 actions, so the aqueous electrolyte liquid 10 in the aqueous electrolyte liquid groove 8 is sent to electrolyzer 18 through first feed pipe 12, pump 14 and second feed pipe 20.
Flow into the aqueous electrolyte liquid in the electrolyzer from the bottom of electrolyzer 18, keep laminar flow regime and electrolyzer 18 in, above it, carrying out constant-current electrolysis by the voltage that puts between anode 22, the negative electrode 24 in mobile, near anode 22, generate anode side brine electrolysis (sour water), and near negative electrode 24, generate cathode side brine electrolysis (alkaline water).
On the other hand, the cathode side brine electrolysis that generates in electrolyzer 18 is moved upward along negative electrode 24, is sent to the waste liquid tank 30 of the below that is arranged at electrolyzer 18 by sewer pipe 28, store as waste liquid 38 temporarily, then discards.
Fig. 2 is liquid (aqueous electrolyte liquid, brine electrolysis) and the electric schema that electrolytic water generating device of the present invention is shown.
(example) with pump of the first storage power unit
Fig. 3 is the diagrammatic sketch of an example that the pump that can adopt above-mentioned electrolytic water generating device is shown and has the storage power unit of pump.
Among Fig. 3, the 40th, be roughly columned casing, its front end is by the airtight plug of inaccessible plate 42 liquid.The 44th, the taphole that on said machine casing 40, forms.In said machine casing 40, insert main shaft 46,, simultaneously the periphery of diaphragm 48 is fixed on the casing 40 and forms pump chamber 50 by diaphragm 48 being installed at its front end from rear end side.
The 52nd, be arranged at the storage power spring in the casing, above-mentioned main shaft 46 is had rely on the potential energy of extreme directions (arrow B direction) before the casing 40.In addition, on above-mentioned main shaft 46 along axial formation tooth bar 54.
First handle 56 and second handle 58, but be installed on the casing 40 as the mode that pivoting point rotates with independence and freedom with tumbler pin 60, and above-mentioned second handle 58 constitutes ratchet mechanism with tooth bar 54 interlocks that form on above-mentioned main shaft 46.
In the above-described configuration, at first, attract aqueous electrolyte liquid, make in the pump chamber 50 and fill with aqueous electrolyte liquid from taphole 44 by main shaft 46 being pulled to casing rear end side (arrow surplus capacity C direction) with manual mode.Under this state, main shaft 46 is given potential energy on the arrow B direction by storage power spring 52, first handle 56 withstands on the tumbler pin 62 with the second handle 58 of above-mentioned tooth bar 54 interlocks, the reactive force of first handle 56 and the spring 64 that inserts between casing 40 keeps equilibrium state, make main shaft 46 at arrow such as, mobile the stopping on the direction.
Afterwards, the occasion to the aqueous electrolyte liquid that pumps out specified amount that utilizes this formation is illustrated.At first,, be pressed onto on the tumbler pin 62 of second handle 58, remove the interlock of second handle 58 and tooth bar 54 by first handle 56 being pushed on arrow D direction with manual mode.Its result, main shaft 46 is on the arrow B direction, and the time size that pushes on arrow D direction with first handle 56 moves accordingly and the aqueous electrolyte liquid of specified amount is sent.
On the other hand, by the manual operation that first handle 56 is pushed on arrow D direction, make the switch of being formed at the contact 66 that forms and the contact 68 that on first handle 56, forms at casing 40 become and be on-state, supply with constant current and carry out electrolysis to electrolyzer as previously mentioned.
(example) with pump of the second storage power unit
Fig. 4 (A) is for illustrating the example of the pump with second storage power unit.In this example, the front end of fluid cylinder 80 is by inaccessible plate 84 obturations with aqueous electrolyte liquid taphole 82.The axis of the piston 88 that is arranged at the piston 86 in the cylinder 80 is connected with the rotary cover 90 at the rear that is arranged at fluid cylinder 80, and is chimeric with the spiral goove 94 on the periphery that is opened in fluid cylinder 80 in the projection 92 that forms on the inner peripheral surface of rotary cover 90 simultaneously.The 96th, be disposed at the storage power spring in the fluid cylinder 80, by this piston 86 is given the potential energy of preceding extreme direction (arrow E direction) towards fluid cylinder 80.In addition, the 98th, piston packing ring, the 100th, store the electrolyte solution in pump chamber 102.
When electrolyte solution was filled with this pump, rotation rotary cover 90 made the foremost side shifting of above-mentioned projection 92 to spiral goove.Thus, piston 86 moves to the front of fluid cylinder 80.Under this state, by rotation rotary cover 90 projection 92 is moved towards the rear end of spiral goove 94 piston 86 is retreated, when aqueous electrolyte liquid 100 passed through taphole 82 inflows, storage power spring 96 was compressed distortion and storage injection energy.
Aqueous electrolyte liquid 100 during to the electrolyzer force feed, is manually being rotated above-mentioned rotary cover 90 projection 92 is moved towards the front end of spiral goove 94.Thus, move towards front, the aqueous electrolyte liquids in the pump chamber 102 are sent to electrolyzer by taphole 82 with the thrust pressure piston 86 of storage power spring 96.In this occasion, because the thrust pressure of storage power spring 96 is the intrinsic certain values of this spring, so the liquor charging speed of aqueous electrolyte liquid and total liquor charging amount are certain forever.This forms profile shown in Fig. 4 (B).
In addition, on second feed pipe that connects this pump and electrolyzer, the pressure switch (not shown) is installed, when the force feed aqueous electrolyte liquid, detects the driving pressure of pump and connect constant-current circuit, so to electrolyzer with electricity.
(example) with pump of the 3rd storage power unit
In this example, as shown in Figure 5, the pump 120 of use is metered injection pump such as piston pump preferably.By handle 121 with the manual mode of operation pump, make aqueous electrolyte liquid pass through first feed pipe, 122 inflow pumps 120, flow out from second feed pipe 124.In addition, the 126, the 138th, be installed in the reverse checkvalve on first, second feed pipe 124, the 130th, throttling valve.
Above-mentioned second feed pipe 124 is provided with one along separate routes between throttling valve 130 and reverse checkvalve 128, be connected with energy storage 134 on this by-pass tube 132.The formation of above-mentioned energy storage 134 is included in the pushing diaphragm 138 in the close container 136 of liquid and pushes the storage power spring 140 of this diaphragm 138.As utilize pump 120 that aqueous electrolyte liquid is supplied with second feed pipe 124, then because the back-pressure that produces as the throttling valve 130 of flow path resistance makes aqueous electrolyte liquid pass through by-pass tube 132 flows in the energy storages 134, push away on diaphragm 138 in the thrust pressure of antagonism storage power spring 140.Thus, energy is sprayed in storage in the storage power spring.
Afterwards, utilize the energy that is stored in the storage power spring 140, aqueous electrolyte liquid is forced in the by-pass tube 132 according to the flow with the thrust pressure regulation of storing power spring 140, be sent to not shown electrolyzer via throttling valve 130.
In addition, the pressure switch (not shown) is installed, utilizes the driving pressure of pump at second feed pipe that connects this pump and electrolyzer, only during making electrolysis connect the pump action with constant-current circuit to electrolyzer with electricity.
(example) with pump of the 4th storage power unit
Have the 4th the storage power unit pump example as shown in Figure 6.In this example, the piston of pump becomes energy storage.In other words, the axis of the piston 164 that is connected with piston 162 in the fluid cylinder 160 is provided with storage power spring 166, piston 162 is given the potential energy of the preceding extreme direction (arrow F direction) towards fluid cylinder 162.As on the arrow G direction, spurring manual handle 172, then in storage power spring 166, store and spray energy owing to be installed on the back-pressure that flow path resistance the produced pushing storage power spring 166 of the throttling valve 170 on second feed pipe 168.Make aqueous electrolyte liquid pass through by-pass tube 132 and flow in the energy storages 134, push away on diaphragm 138 in the thrust pressure of antagonism storage power spring 140.Thus, energy is sprayed in storage in the storage power spring.Because this energy is with spring inherent thrust pressure pushing piston 162, so aqueous electrolyte liquid is with the flow of regulation the specified amount of the aqueous electrolyte liquid in the pump 174 to be supplied with not shown electrolyzer by feed pipe 168.Among the figure, the 176th, be installed on the reverse checkvalve on first feed pipe, the 186th, be installed on the reverse checkvalve on second feed pipe.
In addition, on second feed pipe 168 that connects this pump and electrolyzer, the pressure switch (not shown) is installed, detects the driving pressure of pump and connect constant-current circuit, only during the driving of pump to electrolyzer with electricity.
Electrolytic water generating device of the present invention because in the spraying of aqueous electrolyte liquid liquor charging and brine electrolysis, use manual pump, so do not need these liquor chargings to operate needed electric power, its as a result device constitute can miniaturization and, be easy to carry.In addition, the pump of Shi Yonging has the storage power unit in the present invention, and the flow change is little, can make the electrolytic condition optimization, can obtain to have the electrolysis generation water of superperformance expeditiously.In addition, because can the control of liquor charging amount is a certain amount of, can avoid generating superfluous brine electrolysis and cause waste.

Claims (4)

1. an electrolytic water generating device comprises: the aqueous electrolyte liquid groove of storing aqueous electrolyte liquid; The aqueous electrolyte liquid with in the above-mentioned aqueous electrolyte liquid groove with storage power unit is sent to the pump of electrolyzer; The aqueous electrolyte liquid electrolysis of force feed is generated anode side brine electrolysis and cathode side brine electrolysis electrolyzer; With the brine electrolysis of generation or the nozzle of a kind of ejection in the cathode side brine electrolysis; The waste liquid tank that holds the another kind of brine electrolysis of above-mentioned generation; Switch with storage power unit interlock; And when above-mentioned switch connection to the constant-current circuit of electrolyzer with electricity.
2. the electrolytic water generating device of putting down in writing as claim 1, wherein the pump utilization is stored in the aqueous electrolyte liquid of the energy force feed predetermined amount in the storage power unit.
3. the electrolytic water generating device of putting down in writing as claim 1 is wherein stored the energy that the power unit utilization is stored by the distortion of spring.
4. the electrolytic water generating device of putting down in writing as claim 1 is wherein stored the energy that the power unit utilization is stored by the compression of gas.
CN03101922A 2002-01-28 2003-01-23 Electrolytic water producing device Pending CN1435378A (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP018736/2002 2002-01-28
JP2002018736A JP2003211162A (en) 2002-01-28 2002-01-28 Electrolytic water production device

Publications (1)

Publication Number Publication Date
CN1435378A true CN1435378A (en) 2003-08-13

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Application Number Title Priority Date Filing Date
CN03101922A Pending CN1435378A (en) 2002-01-28 2003-01-23 Electrolytic water producing device

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JP (1) JP2003211162A (en)
KR (1) KR20030064640A (en)
CN (1) CN1435378A (en)
TW (1) TW200302207A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110195236A (en) * 2018-02-24 2019-09-03 苏州倍爱尼生物技术有限公司 A kind of coupling type electrolytic water generating device

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112245627B (en) * 2020-10-28 2022-01-28 许昌市立医院 Energy-saving and environment-friendly device for medical face-lifting disinfection
CN115607714B (en) * 2022-11-07 2023-05-16 广州映博智能科技有限公司 Remote-control disinfection robot

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110195236A (en) * 2018-02-24 2019-09-03 苏州倍爱尼生物技术有限公司 A kind of coupling type electrolytic water generating device

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TW200302207A (en) 2003-08-01
KR20030064640A (en) 2003-08-02
JP2003211162A (en) 2003-07-29

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