JP3522041B2 - Electrolytic water generator for washing - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrolytic water for cleaning,
In particular, use electrolytic water for cleaning, which performs cleaning with sterilization and disinfection.
The present invention relates to an apparatus for generating and supplying electrolytic water for cleaning. [0002] For example, in the fields of agriculture, food and the like,
Electrolyzed water produced by electrolysis is useful,
Generally known. In particular, in recent years, electrolytic water
Focus on sterilization and disinfection, use in the medical field, examples
For example, killing affected areas, incisions, percutaneous openings of indwelling catheters, etc.
Use for bacteria and disinfection is being considered. [0003] Such electrolyzed water is electrically conductive water to be electrolyzed.
Solutes that generate ions by dissolution to increase the degree, eg
For example, sodium chloride, potassium chloride, magnesium chloride
And calcium carbonate, and adjust pH if necessary
Electrolysis of water (electrolyzed water) to which a strong acid is added for
It is obtained by doing. [0004] In addition, electrolysis is performed by an anode and a cathode.
Cell with a pair of electrodes, or between the anode and cathode
This is carried out using an electrolytic cell having a configuration in which a diaphragm is arranged. this
As a conventional device for producing such electrolyzed water, the device is
Generates water to be electrolyzed directly to water pipes such as pipes
It is stored in a water tank in the device, and electrolysis is performed in the water tank.
To generate and store electrolyzed water, and to use this electrolyzed water as needed
Some are taken out and used. [0005] The former device is used for large-scale electrolysis such as for industrial use.
Suitable for producing water, but the equipment is large and
Also, since the place of use is limited to the vicinity of the water supply facility,
Small amount in hospitals and general households (for example, about 200 to 500cc)
Not suitable for using electrolyzed water of degree. For example, continuous
Indwelling catheter in dynamic portable peritoneal perfusion (CAPD)
As in the case of sterilization and disinfection at the outlet of the patient
If it is assumed that it will be used at home,
In addition, it is required that the device be easy to handle. Further, the latter device (electrolysis water storage type device)
Can produce relatively small devices, but then
There are many disadvantages like: Electrolyte water storage type
Since it is not possible to predict the amount of water used,
In consideration of this, a certain amount of electrolyzed water is electrolyzed and stored.
Need to be stored. That is, for example, 200
Even if a small amount of electrolyzed water of about 500 cc is used,
It is necessary to electrolyze and store more than
It is necessary. [0007] The electrolyzed electrolyzed water is stored and stored in a water storage tank.
Remember, using it when you need it is
This leads to deterioration of characteristics. In other words, the electrolyzed water is
Activity decreases over time due to irradiation of air, contact with air, etc.
Lowers the disinfecting and disinfecting effect. In particular, electrolyzed water
Storage time, the disinfection and disinfection effects vary.
You. Also, consider that the activity decreases during storage.
Consideration should be given in advance under electrolysis conditions that increase the activity.
Decomposition is possible, but the storage time of electrolytic water
(Time from generation of electrolyzed water to use)
The activity of the electrolyzed water during use,
The sterilization and disinfection effects also vary. [0009] Electrolyzed water that has been electrolyzed once (storage and storage)
Electrolyzed water) is electrolyzed again as water to be electrolyzed.
It is possible to restore the activity, but in this case
In this case, the appropriate setting of the electrolysis conditions such as the electrolytic current
For the pH of the water to be electrolyzed, the residual chlorine concentration, the electrical conductivity, etc.
It is necessary to understand the characteristics. Therefore, measure those values.
And perform re-electrolysis according to the measured value
However, such measurement and setting of conditions require a great deal of trouble.
It is not practical. Further, when a small amount of electrolyzed water is used,
Waste water or use electrolyzed water that has passed the effective storage time.
Must be disposed of, but the electrolyzed water is
Some electrolyzed water is drained as it is
If it is discarded, etc., the drainage channel will corrode, water pollution, etc.
This causes problems such as causing pollution. Therefore, electrolyzed water
Should be avoided as much as possible. SUMMARY OF THE INVENTION The object of the present invention is to
Immediately before the required amount of electrolyzed water is generated,
For supplying required amount of electrolyzed water when needed
An object of the present invention is to provide an electrolyzed water generation device. [0012] Such an object is as follows.
This is achieved by the present inventions (1) to (13). (1) A storage section for storing the water to be electrolyzed,
An electrolyzing section for electrolyzing the electrolyzed water to be electrolyzed water for cleaning;
A jet nozzle for jetting the electrolyzed water generated by the electrolysis unit
For cleaning, comprising: and a liquid sending means for sending the water to be electrolyzed.
A water generation device, wherein electrolyzed water is generated by operation of the electrolysis unit.
The generation and the ejection of the electrolytic water from the ejection nozzle are synchronized.
And from the jet nozzle
Is characterized by the fact that the electrolyzed water
Electrolytic water generator for washing. (2) A storage section for storing the water to be electrolyzed,
An electrolyzing section for electrolyzing the electrolyzed water to be electrolyzed water for cleaning;
A jet nozzle for jetting the electrolyzed water generated by the electrolysis unit
And a liquid feed path connecting the storage section and the ejection nozzle
And a liquid sending means for sending the electrolyzed water along the liquid sending path.
Washing, wherein the electrolysis unit is installed in the middle of the liquid sending path.
A purified electrolyzed water generating apparatus, wherein liquid is sent by the liquid sending means.
Generating the electrolyzed water by the operation of the electrolysis section,
The discharge of electrolytic water from the nozzle is performed synchronously.
Electrolyzed water is formed linearly from the jet nozzle.
Cleaning electrolysis characterized by spraying in a shower or shower
Water generator. (3) a storage section for storing the water to be electrolyzed;
An electrolyzing section for electrolyzing the electrolyzed water to be electrolyzed water for cleaning;
A jet nozzle for jetting the electrolyzed water generated by the electrolysis unit
And a liquid feed path connecting the storage section and the ejection nozzle
And a liquid sending means for sending the electrolyzed water along the liquid sending path.
And an operation unit for performing operations for ejecting electrolyzed water
Cleaning electrolyzed water generating apparatus, comprising:
By the operation, the liquid sending by the liquid sending means and the operation of the electrolytic unit.
Generation of electrolyzed water by pulsation and electrolyzed water from the jet nozzle
And the ejection of is performed synchronously, and said
Electrolyzed water is sprayed in a linear or shower form from the jet nozzle.
An electrolytic water generator for washing, which is provided. (4) The operation unit is separated from the storage unit.
The electrolytic water for cleaning according to (3) above, which is installed in a distance.
Generator. (5) The electrolytic section and / or the jet
(3) or the outlet nozzle is installed in the operation unit.
Is an apparatus for generating electrolytic water for cleaning according to (4). (6) The liquid sending means is provided in the middle of the liquid sending path.
The above is provided with a liquid sending pump installed therein.
Electrolytic aquatic solution for cleaning according to any one of (1) to (5)
Device. (7) The liquid feeding means is provided inside the reservoir.
The above is provided with a pressurizing pump for pressurizing
Electrolytic aquatic solution for cleaning according to any one of (1) to (5)
Device. (8) The liquid feeding means may be provided in the liquid feeding path or
Does not have a valve for opening and closing the jet nozzle (1)
(7) The apparatus for generating electrolyzed water for cleaning according to any one of (7) and (7). (9) The electrolysis section comes into contact with the water to be electrolyzed.
An electrode pair, a diaphragm provided between the electrodes, and the electrode pair.
Any of (1) to (8) above,
An apparatus for generating electrolyzed water for cleaning according to any one of the claims. (10) The storage section is flexible and air-tight.
(1) to (3), which are made of a dense bag
The washing electrolyzed water generator according to any one of (9) and (9). (11) By pressing the bag body,
And discharging the water to be electrolyzed in the bag body according to the above (10).
Electrolysis water generator for cleaning. (12) The bag body is exchangeably installed.
The electrolytic water for cleaning according to the above (10) or (11),
Generator. (13) A jet ejected from the ejection nozzle
Streams collide and exert a cleaning function with sterilization and disinfection
The cleaning electrode according to any of (1) to (12) above.
Dewatering generator. DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the generation of electrolytic water for cleaning according to the present invention will be described.
The device will be described in detail based on a preferred embodiment shown in the accompanying drawings.
I do. FIG. 1 shows an apparatus for generating electrolytic water for cleaning according to the present invention.
(Hereinafter simply referred to as "electrolyzed water generator")
The side view, FIGS. 2 and 3, respectively, shown in FIG.
Cross-sectional side view schematically showing the structure of the operation unit of the electrolyzed water generator
FIG. 4 is a diagram showing a structure of a storage unit of the electrolyzed water generating apparatus shown in FIG.
FIG. 5 is a cross-sectional side view schematically showing FIG.
It is sectional drawing. In addition, for convenience of explanation, FIG.
6 to 15 to be described later, the “proximal end” and the left
The "tip" is referred to as "top", the upper side as "upper end", and the lower side as "lower end". As shown in FIG. 1, the electrolyzed water generating apparatus of the present invention
The device 1A has a storage section 2 for storing the electrolyzed water and a jetted electrolyzed water.
Operation unit 3 for performing an operation for discharging water to be electrolyzed
(Electrolysis) Electrolysis part 4 which becomes electrolyzed water
A jet nozzle 5 for jetting the generated electrolyzed water, and a storage unit 2
Feed path 7 for connecting fluid and jet nozzle 5,
And a liquid sending means for sending the liquid along the liquid sending path 7. Less than
Below, these are demonstrated. The storage section 2 is preferably an airtight container.
It is composed of a vessel 21. The container 21 is a rigid one
May also be soft, but in the case of this embodiment, for example,
Consists of various hard resins, metals, glass, ceramics, etc.
It is considered to be hard. The capacity of the container 21 is particularly limited
However, in consideration of miniaturization of the device, 100 to 100
About 0 ml is preferable, and about 200-500 ml is more preferable.
New As shown in FIG. 4, inside the container 21
A predetermined amount of electrolyzed water 25 is stored. Electrolyzed water 25
As, for example, sodium chloride, potassium chloride, salt
Examples include aqueous solutions in which an electrolyte such as magnesium iodide is dissolved.
It is. Hereinafter, the electrolyzed water 25 is replaced with an aqueous sodium chloride solution.
This will be described in tabular form. The electrolyzed water 25 contains the obtained electrolyzed water.
To enhance the activity of water 26, for example,
Liquid addition may be added. In addition, such additive liquid
May be added at the time of use. In the upper part (lid part 211) of the container 21,
As a means, a liquid sending pump 6 is provided. This embodiment
As shown in FIG. 5, the liquid feeding pump 6 in
Of the casing 61 and the casing 61
A rotor 64 rotatably mounted on the
And a motor 66 for rotating the rotor 64
It is composed of A plurality of blades 65 are equally spaced on the rotor 64.
It is installed at a distance. Also, on the outer peripheral portion of the casing 61,
Is a discharge projecting tangentially to the inner peripheral surface of the casing 61.
An outlet 62 is formed, and this outlet 62 is described later.
The proximal end of the tube 70 is connected. Casing 6
Three suction ports 63 are formed at the bottom of one. Ma
The rotating shaft 67 of the motor 66 fits in the center of the rotor 64.
Has been entered. Each suction port 63 passes through the upper part of the container 21.
The upper end of the pipe 72 is connected via the connector 71
The lower end of the pipe 72 is immersed in the water 25 to be electrolyzed.
I have. In such a liquid sending pump 6, the motor 66
Drives the rotor 64 to rotate clockwise in FIG.
And the water to be electrolyzed 25 in the container 21 is connected to the pipe 72 and the connector.
Through the suction port 63 into the casing 61
And is further accelerated in the casing 61 and discharged.
Discharged from 62 and transferred to operation section 3 through tube 70
Is done. The lumen of the pipe 72, the connector 71 and
And the inside of the casing 61, the lumen of the tube 70, and
A liquid feed path is formed by an internal flow path 31 of an operation unit main body 30 described later.
7 is formed. The operation unit 3 is an operation unit having an internal flow path 31
The main body 30 and the operation unit main body 30 are rotatably installed.
Lever 33. At the bottom of the operation unit main body 30
Has a grip portion 32 for gripping by hand.
You. The lever 33 is shown near the pivot point.
Do not apply a biasing means such as a torsion spring.
To the direction away from the grip portion 32.
Have been. The electric field section 4 is provided inside the operation section main body 30.
An internal flow path 31 is provided at the tip of the operation section main body 30.
The communicating jet nozzle 5 is formed (or connected).
You. At the proximal end of the operation section main body 30, the inner cavity is
The end of the tube 70 is connected so as to communicate with 1.
I have. The tube 70 has flexibility, for example,
Polyvinyl chloride, polyethylene, polypropylene, ethi
Polyolefin such as len-vinyl acetate copolymer (EVA)
, Polyamide, polyester, silicone rubber, poly
It is made of a polymer material such as urethane. The electric field part 4 is formed in the middle of the internal flow path 31.
Electrolytic cell 40, and placed in the electrolytic cell 40 so as to face each other.
An electrode pair comprising a plate-shaped anode 41 and a cathode 42, and an electrode
And an energizing circuit 43 for the pair. Anode 41 and
The cathode 42 is made of, for example, platinum on a titanium metal plate.
Although plated ones can be used, this configuration
It is needless to say that the present invention is not limited to this. The power supply circuit 43 includes a power supply (DC power supply) 44
And a current control circuit 45 for controlling a current applied to the electrode pair.
And a switch 46. Plug of power supply 44
Terminal is connected to the anode 41 via the current control circuit 45.
The negative terminal of the power supply 44 is connected to the cathode 42
I have. The switch 46 is located on the tip side of the grip 32.
Has an operating piece 47 projecting toward the lever 33.
You. The operating piece 47 is moved in the distal direction by a spring (not shown).
To form a normally open switch. As shown in FIG. 2, the switch 46 is open.
Then, no electricity is supplied to the electrode pair. Also shown in FIG.
Gripping the lever 33 in the proximal direction,
When the lever 33 is rotated in the direction approaching the
Actuation piece 46 is pressed in the proximal direction by the proximal end surface of
Then, the switch 45 is closed. This allows the current
The control circuit 45 operates to apply a predetermined current to the electrode pair.
You. The energizing circuit 43 is provided with the above-described liquid feeding pump.
It also functions as an energizing circuit for the motor 66 of the step 6.
That is, it is connected to the minus terminal of the motor 66.
The lead wire 68 is connected to the negative terminal of the power supply 44,
Lead wire 69 connected to the plus terminal of motor 66
Is connected to the plus terminal of the power supply 44 via the current control circuit 45.
It is connected. Therefore, current flows between the anode 41 and the cathode 42.
When power is supplied, the motor 66 is not energized at the same time.
The pump 6 is operated to feed the water 25 to be electrolyzed,
Water 26 is generated and ejected, and an anode 41 and a cathode 42 are formed.
When power is not supplied during that time, power to the motor 66 is also supplied.
No, the liquid feed pump 6 stops. It should be noted that instead of the current control circuit 45,
A control circuit can also be used. In this case, the power control circuit
Is, for example, application of a voltage to the electrode pair and
It may have a function that can control power supply independently.
No. In such an electric field part 4, an anode 41, a cathode
Electric power is supplied between the liquid supply pumps 6 and 42.
Electrolyzed water 25 sent by movement passes through electrolytic cell 4
Then, the water 25 to be electrolyzed is electrolyzed, and the
In response, hypochlorous acid (HClO) is generated on the anode 41 side
Sodium hydroxide (NaOH) and water
Raw gas (H _Two ) Are produced, and the electrolytic water 26 containing these is produced.
Is obtained. The electrolytic water 26 is sprayed from the nozzle 5.
Will be issued. Embedded image Embedded image When the lever 33 is released, the electrode pair
Power supply to the motor 66 and power supply to the motor 66 are stopped.
Formation and eruption stop. The electrolyzed water 25 in the container 21
When empty, replenish the container 21 with the electrolyzed water 25 and use it.
Can be continued. As described above, in the electrolyzed water generator 1A,
The operation of the lever 33 in the operation unit 3 causes the electrolysis unit 4 to operate.
Generation of electrolyzed water 26 by operation and ejection nozzle by liquid sending
The ejection of the electrolyzed water 26 from 5 is performed synchronously. So
Then, while holding the lever 33, the electrolyzed water 26 gushes out.
Therefore, depending on how long the lever 33 is held, the electrolytic water 2
6 can be adjusted. The operation section 3 is relatively small and lightweight.
At the same time as being separated from the storage section 3 and having flexibility.
The position and position can be set freely
Therefore, the operation of spouting the electrolyzed water 26, especially for doctors and nursing
The operation of spraying electrolyzed water into the living body by women, patients, etc.
And can be done easily. The ejection nozzle 5 is suitable for cleaning.
The form is not particularly limited as long as it is
Or jet of electrolyzed water 26 linearly (as a jet)
Or the electrolytic water 26 can be spouted in a shower.
It is assumed that Such a jet of the electrolyzed water 26 is suitable for cleaning.
Cleaning, especially with sterilization and disinfection with electrolyzed water
Suitable for. In the illustrated configuration, the ejection nozzle 5 is
Although integrally formed or fixed to the main body 31,
It can also be made detachable from the main body 31. Ma
In addition, multiple jet nozzles 5 of different types and shapes can be replaced
It is good also as a structure attached to. In addition, lead wire 6
8, 69 are integrated with or bundled with the tube 70
It is preferred that FIG. 6 shows a second embodiment of the electrolyzed water generating apparatus of the present invention.
FIG. 7 is a side view showing an embodiment, and FIG. 7 is an electrolyzed water generating apparatus shown in FIG.
FIG. 8 is a cross-sectional side view schematically showing the structure of the storage section of FIG.
FIG. 9 is a sectional side showing the operation principle of the pressurizing pump.
10 and 11 show the electrolyzed water generating apparatus shown in FIG.
FIG. 2 is a cross-sectional side view schematically illustrating a structure of an operation unit of the device. Less than
Hereinafter, the second embodiment will be described with reference to these drawings.
The description of the same items as in the first embodiment is omitted.
I do. As shown in FIG. 6, the electrolyzed water generating apparatus of the present invention
The storage device 1B includes a storage 21 that stores the electrolyzed water 25.
Operation unit including the retaining unit 2, the electrolysis unit 4 and the ejection nozzle 5
3, a liquid feed path 7 connecting the storage section 2 and the ejection nozzle 5
And a liquid sending means for sending the electrolyzed water 25 along the liquid sending path 7.
And The container 21 is the same as in the first embodiment.
In the upper part (lid part 211), as a liquid sending means,
A pressurizing pump 8 is provided. Pressurization in this embodiment
The pump 8 is a manual pump as shown in FIGS.
The main part of the system is to be protruded into the container 21.
Linder 80 and plan to be inserted into cylinder 80
A jar 81 and a gutter installed at the lower end of the plunger 81.
And a sket 82. The gasket 82
As the plunger 81 reciprocates, the cylinder 80
Slides hermetically against the inner surface. An opening is provided at the bottom (lower end) of the cylinder 80.
A valve 85 capable of opening and closing the opening 83 is provided.
Is placed. The gasket 82 has an opening 84.
A valve 86 capable of opening and closing the opening 84 is provided.
ing. As shown in FIG. 8, the plunger 81 is
When pulled inward, valve 86 opens opening 84 and valve 85 opens opening 8.
3 closed and surrounded by cylinder 80 and gasket 82
The volume of the space 87 increases, and the space 87 passes through the opening 84.
Then air is introduced. As shown in FIG. 9, the plunger 81 is moved downward.
When pushed inward, valve 86 closes opening 84 and valve 85 closes opening 8.
3, the volume of the space 87 is reduced, and the space 87 is opened.
Air is discharged through the port 84 and the air is discharged into the container 21.
Injected. The plunger 81 moves up and down (going forward)
Is performed a predetermined number of times, so that the inside of the
Can be pressurized to pressure. The proximal end of the tube 70 is connected through an L-shaped tube 73.
And is connected to the upper end of the pipe 72. In this embodiment,
For the lumens of pipe 72, L-shaped tube 73 and tube 70
In addition, the liquid flow path 7 is formed by the internal flow path 31 of the operation section main body 30.
It is formed. The operation section 3 is provided with the same internal flow path 31 as described above.
And an operation section main body 30 having a grip section 32 and a lever.
-33, an electrolysis unit 4, and a jet nozzle 5.
At the base end of the operation unit main body 30, the inner cavity is
The ends of the tubes 70 are connected so that they can communicate with each other.
You. The electric field part 4 is connected to the conducting circuit 43 by a lead wire.
The same as in the first embodiment except that there is no connection of 68 and 69
The anode 41 and the shadow are interlocked with the operation of the lever 33.
Electric current is supplied / disconnected between the poles 42. At the tip of the internal flow path 31, a jet nozzle 5
A poppet valve 90 that opens and closes is provided. Poppet
The valve 90 is a valve operating mechanism composed of a predetermined link mechanism or the like.
It is connected to the upper end of the lever 33 via 91. You
That is, the poppet valve 90 is linked with the operation of the lever 33.
Then, it is moved in the lateral direction in FIG.
Contact and separate from packing 93 made of elastic material,
It is configured to open and close a flow path to the outlet nozzle 5. In the electrolyzed water generating apparatus 1B having the above configuration,
In operation, first, operate the pressurizing pump 8 as described above.
Then, the inside of the container 21 is pressurized to a predetermined pressure. This state
Then, by the pressurization, the pressure of the internal flow path 31 also increases.
In the state where the lever 33 shown in FIG.
The lever 33 is moved to the distal end side by the urging means described above.
The switch 46 is open, and
The poppet valve 90 closes the ejection nozzle 5, and thus,
No generation or ejection of electrolyzed water occurs. Next, as shown in FIG.
And grip the lever 33 to move it in the proximal direction,
When it is rotated in the direction approaching the locking part 32,
When the switch 45 is closed and the current control circuit 45 is activated,
Power is supplied to the pole pair. At the same time, the valve
Poppet valve 90 moves in the proximal direction due to displacement of mechanism 91
Then, the ejection nozzle 5 opens. The inside of the container 21 is pressurized
Therefore, the electrolyzed water 25 stored in the container 21 is
Through the pipe 72, the L-shaped tube 73 and the tube 70 in order.
Is transferred to the internal flow path 31,
It is decomposed into electrolyzed water 26 and ejected from the ejection nozzle 5.
It is. When the lever 33 is released, the electrode pair
Is stopped, the poppet valve 90 closes, and the power is turned off.
The production and ejection of the effluent are stopped. Such electrolytic aquatic
In the synthesizing device 1B, the same operation as the electrolyzed water generating device 1A is performed.
・ It has an effect, and the liquid feeding means is a manual pressure pump.
Power 8 and lighter weight
There is an advantage that the size and size can be reduced. FIG. 12 shows a third embodiment of the electrolyzed water generating apparatus according to the present invention.
Sectional side view which shows typically the structure of the storage part in an Example.
It is. The third embodiment is different from the third embodiment except that the configuration of the storage unit is different.
Is the same as in the second embodiment. Hereinafter, the second embodiment and
Will be described. Storage in Electrolyzed Water Generator of Third Embodiment
The part 2, as shown in FIG.
The container 21 has flexibility (flexibility) and airtightness.
Is stored. In the bag 22,
Electrolyzed water 25 is stored. In the upper part of the bag 22,
An outlet 23 for flowing out the electrolyzed water 25 is formed,
The base end of the tube 70 and the outlet 23 are connected via an L-shaped tube 73.
Connected. In this embodiment, the L-shaped tube 73 and the
Of the tube 70 and the internal flow path 3 of the operation section main body 30
1 forms the liquid feed path 7. Further, the upper part (lid part 211) of the container 21
Is equipped with the same pressurizing pump 8 as the liquid sending means
Have been. Activate the pressure pump 8 to pressurize the inside of the container 21
Then, the bag body 22 is pressed, and the lever 33 is gripped.
And the electrolyzed water 25 in the bag 22 flows out of the outlet 23.
And sent to the operation unit 3 via the L-shaped tube 73 and the tube 70.
Liquid. When the electrolyzed water 25 in the bag body 22 becomes empty,
Replace with a new bag 22 filled with electrolyzed water 25,
Use can be continued. In the apparatus for producing electrolyzed water of this embodiment,
The same operation, effects and advantages as those of the water generators 1A and 1B
And has a sanitary replenishment and replacement of electrolyzed water 25
Especially the advantage that it can be performed aseptically and the use
The total amount of electrolyzed water used by the number of bags 22
There is an advantage that can be. FIGS. 13 and 14 show the present invention, respectively.
Of the operation unit in the fourth embodiment of the electrolyzed water generating apparatus
FIG. 15 is a schematic cross-sectional side view, and FIG.
4 schematically shows the structure of the storage unit in the fourth embodiment of the forming apparatus.
FIG. Hereinafter, based on these figures, the second
An embodiment will be described, and the same matters as in the first embodiment will be described.
Therefore, the description is omitted. As shown in FIG. 13 and FIG.
The operation unit 3 in the electrolyzed water generation device of the embodiment includes a grip unit.
Operation unit main body 30 having a lever 32, a lever 33, and an electrolysis unit
4 and an ejection nozzle 5. The operation section main body 30 has an internal flow path 31
And a recovery channel 3 for recovering the liquid in contact with the cathode 42.
4 are formed. The recovery flow path 34 is provided in the internal flow path 3
1 (in the vicinity of the electrolytic cell 40), the internal flow path 31
And turn 180 ° to turn the base end of the operation unit body 30
Extending in the direction. At the base end of the operation section main body 30, an internal flow path 31 is provided.
Communicates with the tube 70 and the recovery channel 34 that communicate with the
Tubes 74 are respectively connected. Tube 74
Is flexible and has the same material as the tube 70 described above.
It is composed of Collection channel 34, tube 74 and
A waste liquid (recovery liquid) 28 is formed by a second space 27b described later.
Is formed. The electric field portion 4 is different in the configuration near the electrode pair.
The other parts are the same as those of the first embodiment. That is, the anode 41
Between the cathode and the cathode 42, a diaphragm 48 is provided.
The electrolytic cell 40 is divided by 48 into an anode chamber and a cathode chamber.
ing. As the diaphragm 48, the flow of ions is suppressed.
Such is preferably used, for example, a porous membrane,
Examples include ion exchange membranes, nonwoven fabrics, etc.
You. The anode chamber, that is, the space on the anode 41 side from the diaphragm 48
Communicates with the flow path to the ejection nozzle 5, and is connected to the cathode chamber, that is,
The space on the cathode 42 side of the diaphragm 48 communicates with the recovery flow channel 34.
are doing. In the configuration having such a diaphragm 48,
Alkaline liquid (waste liquid 28) generated by passing through the pole room
Can be separated and removed, so that the pH value passed through the anode chamber is low.
(PH = about 3 to 7) Electrolyzed water 26 is obtained.
The activity of the electrolyzed water 26 is increased, and the sterilizing power is improved. Further, the inner flow path 31 is located at a position closer to the base end than the electrolytic cell 40.
On the side, a liquid sending pump 60 as a liquid sending means is installed.
I have. In the present embodiment, an impeller is used as the liquid sending pump 60.
-Type pump is used. Lead of pump 60
The wires 68 and 69 are connected to the energizing circuit 43 in the same manner as in the first embodiment.
It is wired to. As shown in FIG. 15, the storage section 3
It is composed of the same rigid container 24 as the container 21. this
In the container 24, a partition wall 29 is provided.
Therefore, the inside of the container 24 includes the first space 27a and the second space 2
7b. In the first space 27a, the water 25 to be electrolyzed is stored.
Has been retained. On the other hand, the second space 27b is
4 and the waste liquid 28 collected through the tube 74 is stored.
Space (collection container). The tube 70 is placed above the container 24 (the lid 2).
41) and inserted into the first space 27a of the container 24.
The base end is immersed in the electrolyzed water 25. Ma
In addition, the tube 74 is located above the container 24 (the lid 241).
Inserted into the second space 27b of the container 24 through the upper part
Have been. Outside the container 24, the tube 70 and the tube
The head 74 is, for example, a bundled portion of an adhesive tape, a band, or the like.
With the material 75, a plurality of members are arranged at predetermined intervals along the longitudinal direction.
Some parts are bundled. In the apparatus for producing electrolyzed water of this embodiment, FIG.
When the lever 33 shown is not held, the lever 33
Is located on the tip side by the urging means described above.
As a result, the switch 46 is opened, and the power is
And the feed pump 60 is not energized,
Generation and eruption do not occur. Next, as shown in FIG.
And grip the lever 33 to move it in the proximal direction,
When it is rotated in the direction approaching the locking part 32,
When the switch 45 is closed and the current control circuit 45 is activated,
Electric current is applied between the pole 41 and the cathode 42. Also, with this
At the same time, power is supplied to the motor of
Is started. The operation of the liquid feed pump 60 causes the container 24
The electrolyzed water 25 stored in the first space 27a is
It is transferred to the internal flow path 31 via the tube 70,
Electrolytes when passing through zero. At this time,
Thus, in the anode compartment, hypochlorous acid (HClO) is generated.
Thus, acidic electrolytic water 26 containing hypochlorous acid is obtained.
You. The electrolyzed water 26 is further transferred to the distal end side,
It is ejected from the nozzle 5. On the other hand, by electrolysis,
Sodium chloride (NaOH) and hydrogen gas (H _Two )
An alkaline liquid is generated, and this liquid becomes waste liquid 28.
Through the recovery flow path 34 and the tube 74 in sequence.
Returned to part 2. That is, the second space 27 of the container 24
b, stored and collected. Hold the lever 33
When released, the power supply to the electrode pair and the liquid feed pump 60 is stopped.
And the generation and ejection of the electrolyzed water stop. In the apparatus for producing electrolyzed water of this embodiment,
While having the same operation and effect as the water generation device 1A,
The activity of electrolyzed water 26 is increased by lowering the pH, resulting in better killing.
Bacterial power can be obtained. Further, a means for collecting the waste liquid 28 is provided.
Therefore, no adverse effects such as scattering of the waste liquid 28 occur.
A collection container for the waste liquid 28 is formed integrally with the storage unit 2.
Therefore, the size of the device can be reduced and the handling is easy. FIG. 16 shows a fifth embodiment of the electrolyzed water generating apparatus according to the present invention.
It is a side view which shows an Example. Below, based on this figure,
The fifth embodiment will be described.
The description is omitted. The electrolytic water generator 1C shown in FIG.
The unit 2 and the operation unit 3 are integrally formed, so that the size is further reduced.
It is a thing. The storage unit 2 is composed of the same container 21 as described above.
The electrolyzed water 25 is stored therein.
The container 21 is provided with a handle 212. The operation section 3 has an internal flow path 31.
It has the same functions as the operation unit main body 30 and the lever 33.
Lever 35, electrolysis section 4, ejection nozzle 5, lever
And a valve 92 for opening and closing the internal flow path 31 by the operation of
are doing. The proximal end of the internal flow path 31 is
The lower end of the pipe 72 is connected to the upper end of the
It is immersed in water 25. The lever 35 is located above the handle 212.
And is urged upward by the same urging means as described above.
I have. For example, while grasping the handle 212, the thumb of the hand
With this, the lever 35 can be turned in the vertical direction. In the electrolyzed water generating apparatus 1C having the above configuration,
Operates the pressurizing pump 8 to maintain the inside of the container 21 at a predetermined pressure.
When the lever 35 is moved downward in a pressurized state,
When electricity is supplied to the electrode pair installed in the electrolytic unit 4,
Then, the valve 92 releases the cutoff of the internal flow path 31. This
The electrolyzed water 25 stored in the container 21 is
Through the pump 72 and the internal flow path 31,
When passing through, it is electrolyzed into electrolyzed water 26,
Squirted from chisel 5. Release the finger from the lever 33, and release the urging means.
When it is moved upward by the action, the power to the electrode pair stops.
At the same time, the valve 92 shuts off the internal flow path 31,
Generation and eruption stop. In such an electrolyzed water generating apparatus 1C,
It has the same operation and effect as the electrolyzed water generator 1B.
Can be made smaller and lighter,
It is convenient to wear. As described above, the electrolyzed water generating apparatus of the present invention is
Although the present invention has been described based on the embodiments, the present invention is not limited to these.
For example, the electric field part and the ejection nozzle
At least one of which is not provided on the operation unit
You may. In this case, the electric field portion is located anywhere in the liquid feed path.
It can be installed at these locations. Further, the liquid feeding means such as a pump is provided with a liquid feeding path.
Can be installed at any position on the way. Ma
In addition, the liquid sending means is not limited to the one using a pump, but has a simple structure.
For example, put the storage unit at a high place,
It may have a configuration for more liquid feeding. [0097] The apparatus for producing electrolyzed water according to the present invention can be used for living bodies,
In particular, at the exit of an indwelling catheter in the affected area or CAPD
Other cases such as sterilization and disinfection, for example, in the oral cavity,
Applicable for washing wounds and exit points of colostomy, daily hand washing, etc.
You can also. In addition, the application field is limited to medical use
For example, food, agricultural, industrial, etc.
Can be used for As described above, the cleaning electrolyte of the present invention is used.
According to the water generator, the required amount of electrolyzed water is generated when needed
And always use it to supply highly active electrolyzed water
And there is no variation in the activity of the electrolyzed water. In particular,
In the case of using an electrolytic part with a configuration in which a diaphragm is installed between the poles,
Electrolyzed water with higher activity can be obtained. Like this
If electrolytic water for cleaning is used for sterilization and disinfection,
Excellent sterilization and disinfection effects in addition to cleaning effects
be able to. In addition, the stored water to be electrolyzed
To generate and use electrolyzed water equivalent to the amount used
It is necessary to dispose of excessively generated electrolyzed water
Therefore, it is advantageous for protection of drainage channels and environmental health. Further, the apparatus for generating electrolyzed water for cleaning according to the present invention comprises:
Suitable for reducing the size and weight of the device,
It is also excellent in operability such as the operation of spouting water. Special
When the operation unit is installed away from the storage unit,
The work area is small and light, and its freedom of movement is wide.
Operability is further improved, and the operation unit is
When integrated with the device, the size of the device can be further reduced
You. Therefore, the cleaning electrolyte of the present invention
If the water generator is applied for medical use, doctors and nurses
In addition, the patient himself sprays electrolyzed water to his body
Cleaning with sterilization and disinfection
Become.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing an embodiment of an apparatus for generating electrolytic water for cleaning according to the present invention. FIG. 2 is a cross-sectional side view schematically showing a structure of an operation unit of the apparatus for generating electrolytic water for cleaning shown in FIG. 3 is a cross-sectional side view schematically illustrating a structure of an operation unit of the electrolytic water generation device for cleaning illustrated in FIG. FIG. 4 is a cross-sectional side view schematically illustrating a structure of a storage unit of the apparatus for generating electrolyzed water for cleaning shown in FIG. FIG. 5 is a sectional view taken along line VV in FIG. 4; FIG. 6 is a side view showing a second embodiment of the electrolytic water generator for cleaning of the present invention. FIG. 7 is a cross-sectional side view schematically showing a structure of a storage unit of the apparatus for generating electrolyzed water for cleaning shown in FIG. FIG. 8 is a sectional side view showing the operation principle of the pressurizing pump. FIG. 9 is a sectional side view showing the operation principle of the pressurizing pump. FIG. 10 is a cross-sectional side view schematically showing a structure of an operation unit of the apparatus for generating electrolyzed water for cleaning shown in FIG. FIG. 11 is a cross-sectional side view schematically illustrating a structure of an operation unit of the apparatus for generating electrolyzed water for cleaning illustrated in FIG. 6; FIG. 12 is a cross-sectional side view schematically illustrating a structure of a storage unit in a third embodiment of the electrolytic water generator for cleaning of the present invention. FIG. 13 is a cross-sectional side view schematically showing a structure of an operation unit in a fourth embodiment of the cleaning electrolyzed water generator of the present invention. FIG. 14 is a cross-sectional side view schematically showing a structure of an operation unit in a fourth embodiment of the electrolyzed water for cleaning of the present invention. FIG. 15 is a cross-sectional side view schematically showing a structure of a storage section in a fourth embodiment of the electrolytic water generation device for cleaning of the present invention. FIG. 16 is a side view showing a fifth embodiment of the electrolytic water generation device for cleaning of the present invention. DESCRIPTION OF SYMBOLS 1A to 1C Electrolyzed water generator 2 Reservoir 21 Container 211 Lid 212 Handle 22 Bag (flexible container) 23 Outlet 24 Container 241 Lid 25 Electrolyzed water 26 Electrolyzed water 27a First Space 27b Second space 28 Waste liquid 29 Partition wall 3 Operation section 30 Operation section main body 31 Internal flow path 32 Grip section 33 Lever 34 Recovery flow path 35 Lever 4 Electrolysis section 40 Electrolysis tank 41 Anode 42 Cathode 43 Current supply circuit 44 Power supply 45 Current control Circuit 46 Switch 47 Actuating piece 48 Diaphragm 5 Jet nozzle 6 Liquid feed pump 60 Liquid feed pump 61 Casing 62 Discharge port 63 Suction port 64 Rotor 65 Blade 66 Motor 67 Rotary shaft 68, 69 Lead wire 7 Liquid feed path 70 Tube 71 Connector 72 Pipe 73 L-shaped tube 74 Tube 75 Bundle member 8 Pressure pump 80 Cylinder 82 Gasket 83, 84 Mouth 85, 86 valve 87 the space 90 poppet valve 91 valve actuating mechanism 92 valve 93 packing

Claims (1)

(57) [Claim 1] A storage unit for storing electrolyzed water containing salt,
The electrolytic unit to the electrolytic water for cleaning by electrolysis to be electrolytic water, and jetting nozzles for ejecting the electrolytic water generated in the electrolytic unit, out該噴 a liquid feeding means for feeding the object to be electrolytic water No
An electrolyzed water generator for washing having an operating part having a skewer , wherein the electrolyzed water generating apparatus has a
When the switch is closed, current is applied to the electrode pair, the electrolyzed water is generated by the operation of the electrolysis unit, and the poppet valve is opened.
The line of the electrolyzed water from the jet nozzle.
Or the shower-like ejection is performed synchronously, and the storage section is formed of a flexible and airtight bag.