JP2001225074A - Electrolytic acidic water discharge device, electrolytic acidic water making apparatus and electrolytic acidic water making set - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electrolytic acidic water discharge device, an electrolytic acidic water making apparatus and an electrolytic acidic water making unit capable of being put in a handbag or a pocket, easy to carry all the time, simple in operation and developed for the purpose of sterilization, disinfection, the removal of bacteria and astringency. SOLUTION: The electrolytic acidic water discharge device has an electrolytic water container with a volume of 10-150 ml housing electrolytic acidic water and a jet and/or spray discharge means. The electrolytic acidic water making apparatus is set to a position where electrolytic acidic water flowing out of an outflow nozzle is injected in the electrolytic water container when the electrolytic water container is mounted on a mounting part. The electrolytic acidic water making unit consists of the electrolytic acidic water discharge device and the electrolytic acidic water making apparatus.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrolytic acidic water generator for producing electrolytic acidic water for sterilization, disinfection, sterilization, and astringent in a portable state, an electrolytic acidic water discharger, and an electrolytic acidic water discharger. Acidic water generation set.

[0002]

2. Description of the Related Art A method for producing electrolyzed water, which produces chlorine compounds by electrolyzing water containing sodium chloride, has been used for many purposes since ancient times. For example, it is generally known that electrolytic acid water generated by electrolysis is useful in fields such as agriculture and food. In particular, in recent years, due to the breadth of the antibacterial spectrum of electrolytic acidic water and its excellent safety, its use in the medical field, for example,
Cleaning and disinfecting (disinfecting) the skin surface for the purpose of skin care for areas with rough skin such as atopy, hot flashes, acne, and baby diaper rash. Use for bacteria (disinfection) is being considered. Such electrolytic acid water is obtained by adding a solute that produces ions by dissolution, for example, sodium chloride, potassium chloride, magnesium chloride, calcium carbonate, etc., and electrolyzing it to increase the electric conductivity of the water to be electrolyzed. Can be Further, by using water to which a pH adjuster is added, electrolytic acid water having a pH in a preferable range can be obtained without providing a diaphragm between the anode and the cathode during electrolysis.

[0003] As described above, electrolytic acid water is spreading to ordinary households because of its wide use. The conventional electrolyzed acidic water generator is connected to a tap water pipe, and is a stationary large type that adjusts a large amount of electrolyzed water, or a relatively small and constant amount of water to be electrolyzed by immersing the electrodes in the electrolyzed water. A batch type that decomposes is used. When a stationary type is installed in a general household, it is bulky and occupies a large area at all times, which is inconvenient and cannot be carried around every day. Further, in the case of the batch type, a fixed amount must be prepared regardless of the amount to be used, and it is not portable to go out every day. Further, even a small-sized type in which an electrolysis mechanism and a spraying mechanism are integrated, none of them has both daily portability and operability.

Therefore, when used in a general household,
It is easy to carry with a simple structure.Also, when going out everyday, it is possible to always carry electrolytic acidic water for hygiene management such as skin washing and disinfection of tools and skin care, and it can be easily used for spraying etc. when necessary. Things have not been seen before.

[0005]

DISCLOSURE OF THE INVENTION The present invention solves the above-mentioned problems, and can be put in a handbag, a pocket, or the like, can be easily carried at all times, and can be easily sterilized, disinfected, and removed. Provided are an electrolytic acidic water discharger, an electrolytic acidic water generator, and an electrolytic acidic water generation set for bacteria and astringent.

[0006]

The present invention provides the following (1).
This is achieved by taking the configuration of (4) to (4).

(1) Capacity for accommodating electrolytic acid water 10 to 10
An electrolyzed acidic water discharger having a 150 ml electrolyzed water container, a discharge means for injecting and / or spraying the electrolyzed acidic water, and a contact portion provided on the electrolyzed water container to which the discharge means can be freely attached and detached. is there.

(2) A mounting portion for mounting the electrolytic water container of the above (1), and an outflow nozzle through which the electrolytic acidic water flows out, wherein the outflow nozzle is provided when the electrolytic water container is mounted on the mounting portion. An electrolytic acid water generating apparatus in which the outflow nozzle is set at a position where the electrolytic acid water flowing out of the container is injected into the electrolytic water container.

(3) The electrolyzed acidic water generator according to (2), further comprising an electrolyzer, a power source and a power control circuit, wherein the electrolyzed water is passed through the electrolyzer to electrolyze the electrolyzed acidic water.

(4) An electrolytic acidic water generation set comprising the electrolytic acidic water discharger of (1) and the electrolytic acidic water generator of (2) or (3).

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention relates to a capacity 1 for storing electrolytic acid water.
Electrolytic acid water discharge having a 0 to 150 ml electrolytic water container, discharge means for injecting and / or spraying the electrolytic acid water, and a contact portion provided in the electrolytic water container to which the discharge means can be freely attached and detached. Vessel, and a mounting portion for mounting the electrolytic water container, and an outflow nozzle from which the electrolytic acid water flows out, and when the electrolytic water container is mounted on the mounting portion, the electrolytic acid water flowing out of the outflow nozzle is An electrolyzed acidic water generator set at a position to be injected into the electrolyzed water container, and an electrolyzed acidic water generation set including the electrolyzed acidic water discharger and the electrolyzed acidic water generator.

[0012] The present invention provides a capacity of an electrolyzed water container so that a required amount of electrolyzed acidic water can be easily carried in a clothes pocket or a handbag at the time of daily life, childcare, housework, or going out. Is preferably 10 to 300 ml, more preferably 10 to 150 ml. More preferably, the volume is 30 to 100 ml. If the amount is less than the lower limit, the amount used normally is insufficient. If the amount is more than the upper limit, it is difficult to store it in portable means such as a handbag or a bag, which is not convenient. The electrolyzed acidic water container of the present invention accommodates electrolyzed water flowing out from the electrolyzed water outflow nozzle, and is freely detachable from the electrolyzed acidic water generator.

The material of the electrolyzed water container is not particularly limited, but a hard resin container made of polypropylene, polycarbonate, polyethylene phthalate or the like or a hard inorganic material container made of aluminum, glass or the like is preferable because it is easy to operate. Polyolefin films such as vinyl chloride, polyethylene and EVA, polyester films such as PET and PBT, polyurethane, polyamide, silicone, polyester elastomer, polyamide elastomer, thermoplastic elastomer such as styrene-butadiene-styrene copolymer, nylon, aluminum sheet Alternatively, a soft container made of a material such as one obtained by appropriately combining two or more of them may be used.

Further, the electrolyzed water container has a contact portion,
Since the contact portion is in liquid-tight contact with a discharge means capable of spraying or spraying the electrolytic acid water, it can be easily used in an appropriate amount when necessary. As the discharging means of the present invention, there are a piston type using a piston movement in a cylinder, and a method of discharging a liquid in the electrolytic acidic water discharger by pressing a pusher to pressurize the electrolytic acidic water discharger. The latter method is preferable because the mechanism is simple. Further, a switching means for switching the ejection state between injection and spray may be provided near the ejection port.

The engagement mechanism of the engagement section may be a screw-in type, a taper engagement type, or any other type capable of engaging in a liquid-tight manner. Therefore, in this case, a thread groove is cut or tapered in the engagement portion.

The electrolyzed acidic water generator of the present invention has a mounting portion for mounting the electrolyzed water container, and an outflow nozzle through which the electrolyzed acidic water flows out. When the electrolyzed water container is mounted on the mounted portion, As long as the outflow nozzle is set at a position where the electrolyzed acidic water flowing out from the outflow nozzle is injected into the electrolyzed water container, it can be used. A smaller size is preferable for use in ordinary households, and a head-type electrolytic acid water generator having no fixed amount liquid sending means such as a pump is particularly preferable.

Further, an apparatus for producing a preferred electrolytic acidic water by using an electrolyzed water which produces an acidic water by non-diaphragm electrolysis is preferable because it can have a simple structure.

Since the apparatus for producing electrolytic acid water of the present invention has the above-described configuration of the mounting portion and the outflow nozzle, the generated electrolytic acid water does not require a special re-pumping operation, and the electrolytic acid water can be converted to the electrolytic water. Can be stored in a container.

A head type electrolyzed acidic water generating apparatus according to one embodiment of the present invention comprises an electrolyzed water storage section for storing electrolyzed water that generates acidic water by electrolysis, an electrolytic bath, an electrolyzed water outflow nozzle, , A power supply, a current control means, and an electrolytic acidic water container can be used. In order to provide an electrolyzed water generator that is simple in structure and convenient to carry, there is no active liquid feeding means such as a pump, and a continuous type (electrolyzed water on the electrode surface in an electrolyzer, which can be electrolyzed efficiently) In this case, the electrolyzed water is circulated in the electrolytic cell only by natural head.

Here, at least one chloride is required for the electrolyzed water which is electrolyzed in the electrolytic cell having no diaphragm to generate acidic water. In addition, at least one pH adjuster is used. By using a pH adjusting agent, the electrolyzed water can be adjusted to a preferable pH using a diaphragm-free electrode in which the structure of the apparatus is simple.
Can be adjusted.

The chloride is preferably at least one selected from the group consisting of sodium chloride, calcium chloride, potassium chloride and magnesium chloride, and more preferably sodium chloride. Sodium chloride has no deposits on the electrodes and is very safe when used on the skin.

The pH adjuster is at least one selected from hydrochloric acid, succinic acid, acetic acid, tartaric acid, citric acid, trans-aconitic acid, potassium hydrogen phthalate, sodium hydrogen maleate, or a mixture thereof. It is preferable to use a mixture of an acid and sodium hydroxide, and a mixture of an organic acid such as citric acid and sodium citrate, acetic acid and sodium acetate, and a sodium salt thereof. Above all, it is more preferable to use succinic acid, acetic acid, or a mixture of these organic acids and their sodium salts, in which the activity of active chlorine generated by electrolysis has a low degree of decrease in activity over time.

The electrolyzed water reservoir according to the present invention is used by pouring an amount of electrolyzed water to be treated from the outside, and an individual container in which the electrolyzed water is measured and stored in advance is attached to the electrolyzed water reservoir. And those that communicate with the electrolytic cell. Also,
An electrolyzed water supply container containing an amount of electrolyzed water several times the capacity of the electrolyzed water storage portion is connected to the electrolyzed water storage portion, and the electrolyzed water supply container is removed from the electrolyzed water supply container by a single treatment amount. It may be transferred to the electrolyzed water storage section and subjected to electrolytic treatment. Further, the electrolyzer and the electrolyzed water reservoir may be separated via a connecting pipe for communicating the electrolyzed water. It may be one that is continuously supplied to and passed through an electrolytic cell from a tap water pipe or the like.
Electrolysis electrodes may be immersed in a container in which the water to be electrolyzed is stored.However, it takes time for electrolysis, and the method of continuously passing the electrolyzed water through the electrolysis tank for electrolysis is efficient in a short time. It is preferable because electrolysis can be performed.

The material of the electrolyzed water storage section, the individual container, and the electrolyzed water supply container is not particularly limited.
For example, natural rubber, butyl rubber, styrene butadiene rubber, rubber such as nitrile butadiene rubber, polyvinyl chloride, polyethylene, polyolefin such as EVA,
Polyester film such as PET, PBT, polyurethane, polyamide, silicone, polyester elastomer, polyamide elastomer, thermoplastic elastomer such as styrene-butadiene-styrene copolymer, nylon, aluminum sheet, or an appropriate combination of two or more of these Or a hard container made of polypropylene, polycarbonate, polyethylene phthalate, or the like.

As the power source of the present invention, it is preferable to use a dry cell in order to easily use the electrolytic acidic water generating apparatus in ordinary households and to easily carry it. For example, an alkaline battery, a manganese battery, a lithium battery, or the like is preferable as a primary battery, and a lithium secondary battery, a nickel cadmium battery, a nickel hydride battery, or the like is preferable as a rechargeable secondary battery.

The electrolyzed water obtained by electrolyzing the water to be electrolyzed is
The temperature is preferably pH 3 to 7 at 25 ° C, more preferably pH 4 to 6.5, and pH 4.5 to 5.5.
Is more preferred. By preparing the electrolytic acidic water in this pH range, the abundance ratio of hypochlorous acid (HOCl) in the electrolyte, which is particularly excellent in the bactericidal effect in the presence of protein, is increased.

The temperature of the electrolyzed water at the time of preparation and use is as follows:
0 to 60 ° C is preferable, 5 to 50 ° C is more preferable, and 1
0-40 degreeC is more preferable. If the temperature is lower than the above-mentioned temperature, there is a possibility that a phenomenon of freezing of water may occur.

The present invention is an electrolytic acid water generation set combining the above-mentioned electrolytic acid water discharger and an electrolytic acid water generator. By making these a set,
It can be used simply.

An embodiment of the electrolytic acidic water discharger, electrolytic acidic water generating apparatus and electrolytic acidic water generating set of the present invention will be described with reference to the drawings. FIG. 1 is a front view having a partially cutout portion of one embodiment of the electrolytic acid water generation set of the present invention. FIG. 2 is a cross-sectional side view of one embodiment of the present invention of FIG. FIG. 3 is a block diagram of an electric system of the apparatus for generating electrolytic acidic water according to one embodiment of the present invention shown in FIG. FIG.
BRIEF DESCRIPTION OF THE DRAWINGS It is a front view of the electrolytic acidic water discharger of one Example of this invention. The electrolyzed acidic water generator 1 of the present invention includes an electrolyzed water tank 4 serving as an electrolyzed water storage section, and an electrolyzed water tank lid 41.
, An electrode 51, an electrode case 52, a switch 9, a dry cell 92 as a power supply, an opening / closing means 7, an outflow nozzle 82
And a spray nozzle holder 33. The electrolytic acidic water discharger of the present invention is composed of an electrolytic acidic water bottle 2 as an electrolytic water container and a spray nozzle 3 as a discharging means. The electrode 5, the switch 9, the dry cell 6, and the opening / closing means 7 are connected by the power control means 91 and electric wiring.

The bottom of the electrolyzed water tank 4 has a continuous portion with the electrolysis tank 5, and is designed so that the electrolyzed water stored in the electrolyzed water tank 4 continuously flows into the electrolysis tank 5. I have. Therefore, the bottom of the electrolyzed water tank 4 is slightly inclined toward a continuous portion with the electrolytic cell 5.

The electrolyzer 5 has an electrolyzed water tank 4 at its upper part.
On the other hand, there is an outlet 54 at the lower end, and the liquid feed pipe 6 is connected. In the electrolytic cell 5, two electrode plates 51, 51 are arranged to face each other. One of the two electrode plates 51 is an anode and the other is a cathode. The number of electrode plates in the electrolytic cell 5 is not limited to two,
A large number of anodes and cathodes may be alternately arranged. The electrode plate has an end 53 extending to the outside of the electrode case 52, and is connected to electric wiring.

The liquid feed pipe 6 connected to the outlet 54 at the lower end of the electrolytic cell is connected to the outlet nozzle 8 at the other end. Opening / closing means 7 is provided in the liquid feed pipe 6, and the liquid passage is opened / closed in conjunction with a power switch 9 to control the flow of electrolyzed water and electrolysis. The liquid sending pipe 6 may be made of a plastic or a metal material. However, when the flow of the electrolyzed water is controlled together with the opening / closing means 7, a material suitable for the mechanism of the opening / closing means 7 may be selected.

The power switch 9 of the electric circuit that energizes the electrode 51 is electrically and / or physically connected to the opening / closing means 7. When the switch 9 is turned on, the opening / closing means 7 is opened, Electrolytic current flows through 51, and when switch 9 is off, opening / closing means 7 is in a closed state, and no electrolytic current flows through electrode 51. The type of the opening / closing means 7 is not particularly limited, and may be a manual type such as a stopcock type, a cam type, a roller clamp type, or an electric type such as an electromagnetic valve, an electric clamp, or a solenoid. When the electrolyzed water is injected into the electrolyzed water tank 4 with the opening / closing means 7 open, the electrolyzed water flows down without being electrolyzed. It is more preferable to use

When the opening / closing means 7 and the power switch 9 are electrically connected, the opening / closing means 7 is set to be closed when the power switch 9 is off, and the power switch 9 is turned on. At the same time, the current control means 91 controls the opening / closing means 7 to be in the open state. For example, when a solenoid composed of a coil and a plunger is used, the liquid feed pipe 6 between the electrolytic cell 5 and the outflow nozzle 8 is made of a soft plastic as shown in FIG. 2, and the plunger is urged by a spring. When the liquid supply pipe is closed and closed, and the power switch 9 is turned on,
Simultaneously, when the coil is energized, the solenoid operates, and the plunger can open the liquid feed pipe 6 against the force of the spring.

When the connection between the opening / closing means 7 and the power switch 9 is physically performed, for example, the electrolytic cell 5 and the outflow nozzle 8
The liquid supply pipe 6 is made of a soft plastic, and a portion for sandwiching the liquid supply pipe 6 and a part for opening the liquid supply pipe 6 are provided on an internal extension of the power switch 9 which is turned on by pressing the switch. Is pulled out, the liquid feeding pipe 6 is closed at the pinching portion, and the liquid supply pipe 6 is positioned at the open part when the power switch 9 is turned on, that is, when the power feeding switch 6 is pushed in. , Can be in an open state. Needless to say, the connection between the opening / closing means 7 and the power switch 9 is not limited to the above-described embodiment.

When all the electrolyzed water in the electrolyzed water storage container 4 flows down, the electrolysis is terminated. At this time, the opening / closing means 7 and / or the means for closing the energizing circuit of the electrode 51 include:
When the electrolysis current is controlled at a constant current, the electrolysis voltage is detected, and when the electrolysis voltage exceeds a predetermined value, energization of the electrodes is stopped and the opening / closing means 7 is closed at the same time. Since the capacity of the storage container 4 is fixed and the falling speed is almost constant, the time when the falling is completed after the switch 9 is turned on is estimated, and the opening / closing means 7 may be closed after a certain time. After stopping the current, the opening / closing means 7 may be closed after a certain time.

When the opening / closing means 7 and the power switch 9 are physically linked, it is possible to prevent the electrolyzed water tank lid 41 from opening when the opening / closing means 7 is open. Conversely, if the power switch 9 is turned off and the opening / closing means 7 is not in the closed position, the next electrolyzed water cannot be injected because the electrolyzed water tank lid 41 cannot be opened. The electrolyzed water does not flow without being electrolyzed.

An outflow nozzle 8 is connected to the lower end of the liquid sending pipe 6. The outflow nozzle 8 has a constricted portion 81, which constitutes the minimum flow path cross-sectional area in this embodiment. The flow rate of the electrolyzed water is adjusted by the constricted portion 81. The minimum flow path cross-sectional area may be in any of the electrolyzed water storage section 4, the electrolysis tank 5, the transition section 42 between the electrolyzed water storage section and the electrolysis tank, the liquid feed pipe 6, and the outflow nozzle 8. In order to adjust the flow-down condition until the last electrolyzed water flows down, it is preferably formed in a downstream portion of the electrolytic cell 5.

In the electrolyzed acidic water discharger 2 of this embodiment, the electrolyzed water container 21 is engaged with the spray nozzle 3 having a spray function. The electrolytic acidic water generator 1 of the present embodiment has a spray nozzle holder 33 for locking the spray nozzle 3. The electrolysis water container engagement part 22 of the electrolysis water container 2 of the present embodiment.
Has a screw thread, and a thread groove is formed in the nozzle engagement portion 32 of the spray nozzle 3. The spray nozzle 3 has a spray port 31 and a pusher 34, and after the spray nozzle 3 is brought into liquid-tight contact with the electrolytic water container 2,
When the pusher 34 is pushed in, the internal pressure in the electrolytic acidic water discharger increases, and the contained electrolytic acidic water is sprayed from the spray port 31 through the pipe 35. A protective cap 23 that can be connected in a liquid-tight manner to the electrolytic water container 21 and / or the spray nozzle 3 may be further attached to the spray nozzle portion of the electrolytic acidic water discharger 2.

The operation of the present invention will be described with reference to examples.
First, confirm that the power switch 9 is in the off state, open the electrolyzed water tank lid 41, pour electrolyzed water (not shown) into the electrolyzed water tank 4 in an appropriate amount, for example, 50 ml. Close the lid 41. In this embodiment, the electrolyzed water is filled up to the electrolytic cell 5 by injecting the electrolyzed water. At this time, the electrolyzed water container 21 is installed at a position that can receive the electrolyzed acidic water flowing out from the outflow nozzle 8 of the main body 11.

Next, the switch 9 is turned on, a voltage is applied to the electrodes, and the electrolysis of the electrolyzed water in the electrolytic cell is started. At the same time, the opening / closing means 7 is opened, and the flow of the electrolyzed water starts. Is done. The electrolyzed water filled in the electrolyzed water tank 4 is electrolyzed when passing through the surface of the electrode 51,
After acidic water is generated on the anode side and alkaline water is generated on the cathode side, they are mixed and flow down to the electrolyzed water container 21 via the liquid feed pipe 6 and the outflow nozzle 8. By satisfying the conditions of the present invention, electrolytic acid water having an effective chlorine concentration is finally stored in the electrolytic water container 21. Electrolyzed water tank 4
When all the water to be electrolyzed flows down to the electrolyzed water container 21, the electrolyzed acidic water generation step by electrolysis is completed.

Next, the electrolyzed water container 21 containing the generated electrolyzed acidic water is removed from the main body 11, the spray nozzle 3 is removed from the spray nozzle holder 33, and the electrolyzed water container 21 and the spray nozzle 3 are connected. It can be carried in a pocket of clothes, in a handbag, or the like until it is used as the electrolytic acid water discharger 2. If necessary, a protective cap 23 may be attached. Electrolytic acidic water can be sprayed or sprayed on a part to be sprayed, such as a diaper rash or hand washing when going out.

[0043]

EXAMPLE An electrolysis experiment was carried out for the embodiment of the present invention shown in FIGS. The water to be electrolyzed has a sodium chloride concentration of 0.9 w / v% and succinic acid of 0.01 w / v.
% And the amount of water to be electrolyzed was 50 ml. Electrode area 4cm ² ,
The electrolysis was performed at an electrolytic current of 200 mA. Immediately after generation and 2
The effective chlorine concentration in the electrolyzed water after 4 hours was measured, and the results are shown in Table 2.

[0044]

[Table 1]

(Measurement method of available chlorine) The iodine method was used as a method of measuring the available chlorine concentration. That is, the sample 30 ml
In a flask, add RO water to make 300 ml, further add 10 ml of 7.5% potassium iodide solution, 50 ml
% Acetic acid (5 ml), and allowed to stand in a refrigerator for 5 minutes.
Titrate with N-sodium thiosulfate solution (titer f = 0.999), and after the solution becomes light yellow, 3m of starch solution
1 was added and titration was performed until the blue color of the iodine starch disappeared. The available chlorine concentration was calculated from equation (1). Effective chlorine concentration (ppm) = 0.3545 x titer (ml) x f x
1000 / 30..Formula (1)

[0046]

According to the present invention, the capacity for accommodating electrolytic acid water is 1
Electrolytic acid water discharge having a 0 to 150 ml electrolytic water container, discharge means for injecting and / or spraying the electrolytic acid water, and a contact portion provided in the electrolytic water container to which the discharge means can be freely attached and detached. Vessel, and a mounting portion for mounting the electrolytic water container, and an outflow nozzle from which the electrolytic acid water flows out, and when the electrolytic water container is mounted on the mounting portion, the electrolytic acid water flowing out of the outflow nozzle is Since it is an electrolytic acid water generator set at a position to be injected into the electrolytic water container, and an electrolytic acid water generator set including the electrolytic acid water discharger and the electrolytic acid water generator, everyday, child care and housework When going out, the required amount of electrolytic acid water can be easily carried in a clothes pocket or a handbag.

[Brief description of the drawings]

FIG. 1 is a front view having a partially cutout portion of one embodiment of an electrolytic acid water generation set of the present invention.

FIG. 2 is a cross-sectional side view of one embodiment of the present invention of FIG.

FIG. 3 is a block diagram of an electric system of the apparatus for producing an electrolytic acidic water of one embodiment of the present invention in FIG. 1;

FIG. 4 is a front view of the electrolytic acidic water discharger of one embodiment of the present invention in FIG. 1;

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Electrolyzed acidic water generator 11 Main body 2 Electrolyzed acidic water discharger 21 Electrolyzed water container 22 Acidic water storage container engagement part 23 Protective cap 3 Spray nozzle 31 Spray port 32 Nozzle engagement part 33 Spray nozzle holder 34 Presser 35 Pipe 41 Electrolyzed Water tank lid 42 Transition section 5 Electrolyzer 51 Electrode 52 Electrode case 53 Electrode end 54 Outflow port 6 Connection pipe 7 Opening / closing means 8 Outflow nozzle 81 Narrow section 82 Outflow nozzle tip 9 Power switch

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 4D061 DA03 DB07 DB10 EA02 EB01 EB04 EB14 EB19 EB20 EB39 ED12 ED13 ED20 GC12 4K021 BC01 CA08 CA09 DA17 DC15

Claims (4)

[Claims] 1. A capacity of 10 to 150 for accommodating electrolytic acidic water.
an electrolyzed water container, a discharge means for injecting and / or spraying the electrolyzed acidic water, and a contact portion provided on the electrolyzed water container to which the discharge means can be freely attached and detached. Acidic water ejector. 2. A mounting part for mounting the electrolyzed water container according to claim 1, and an outflow nozzle through which the electrolyzed acidic water flows out,
Wherein the outflow nozzle is set at a position where the electrolytic acid water flowing out from the outflow nozzle is injected into the electrolytic water container when the electrolytic water container is mounted on the mounting portion. Generator. 3. The electrolytic acidic water according to claim 2, further comprising an electrolytic cell, a power supply, and a power control circuit, wherein the electrolytic acidic water is electrolyzed by passing water to be electrolyzed through the electrolytic cell. Generator. 4. An electrolytic acidic water generation set comprising the electrolytic acidic water discharger according to claim 1 and the electrolytic acidic water generator according to claim 2 or 3.