JP2000070953A - Water sterilizing and washing device using ozone - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a water sterilizing and washing device using ozone small in size, low in generation of nitrogen oxides (NOx), capable of obtaining homogeneous gaseous ozone-containing water at low cost and also easy in handling and high in safety. SOLUTION: In the water sterilizing and washing device using ozone comprising an ozone generator main body X which is connected to a mixing plug with a gas tube 32 and is constituted of a purifying part of air supplied to an ozone generating part, the ozone generating part, an ozone conduit tube 5 connected to the ozone generating part and a switch actuated nonreturn valve 6 connected to the ozone conduit tube 5, the mixing plug is constituted of a water plug outlet mounting lip, a mixing center cylinder in which the gaseous ozone supplied from the ozone conduit tube 5 is incorporated in the water and an ozone- incorporating water discharging cylinder.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ozone generator body and an ozone disinfection washing water dispenser using the same, and more particularly, to an ozone gas generator using oxygen in air as a raw material and an ozone gas generator. The present invention relates to an easy-to-handle ozone sterilizing and washing water device comprising a mixing tap for mixing the discharged ozone gas into tap water or the like. Further, according to the present invention, there is provided an apparatus for producing ozone disinfection cleaning water which can effectively exhibit its disinfection and cleaning action by using ozone as a gaseous substance.

[0002]

2. Description of the Related Art Conventional tap water has been sterilized with chlorine only for the purpose of removing various bacteria contained in tap water and has been prepared to be drinkable. However, in order to remove various bacteria adhering to cooking utensils, raw vegetables, fresh fish, meat, etc. using this tap water, the body must be carefully washed for at least 3 minutes so that there are no unwashed parts. It can be sterilized to the extent that it does not harm, but the following problems have been pointed out. For example, in reality, it is often not possible to take a sufficient time for cleaning, and depending on the object to be cleaned, there is often a back surface, a corner, and a wave, so that the water required for sterilization is not sufficiently applied. In addition, fresh fish, meat, and the like often have a change in surface or a decrease in freshness.

[0003] Under such circumstances, various methods have been conventionally proposed as a method for improving the above-mentioned problem of disinfection in tap water, but all of them have disadvantages. For example, there is a method of using a chemical, but the method is difficult to use, and the method of irradiating with light such as ultraviolet rays has a disadvantage that, depending on the irradiation method, a burn may be caused or a portion not irradiated with light may not be sterilized at all. There is also a method using ultrasonic irradiation, but this method has a problem that only specific bacteria can be sterilized. Further, as a method of using ozone, for example, ozone gas from an ozonizer is discharged and filled into a reaction tube, and ozone water obtained by discharging trickle water into the reaction tube and contacting with the ozone gas is supplied from a tap. There has been proposed an ozone water hand-washing device for discharging for a predetermined time (Japanese Patent Publication No. 4-53529).
No. reference. ).

However, gas is more effective than water for cleaning a complicated shape or structure of an object to be cleaned, for example, for cleaning even a minute portion such as a wrinkle or a lizard.
Therefore, sterilization cleaning is extremely effective if it is possible to mix a gas having a sterilizing action into water in a bubble state, break the bubble when the bubble collides with the object to be cleaned, and spread the gas to every corner. It is.

On the other hand, ozone gas is effective for sterilization and cleaning, but is very unstable, and the effect time of ozone is 1 second to 1 second.
Since it is a short time of about / 10 seconds, it is necessary to utilize it for sterilization cleaning within a short effective time. In addition, when using ozone gas, a conventionally proposed ozone generator using air as a raw material has a problem that when a high electric field is applied, nitrogen in the air is also oxidized to generate impurities such as nitrogen oxides (NOx). In addition, there are many cases where the conditions of the raw material air are not suitable for ozone generation in terms of humidity, odor and other impurities, and the air has high humidity and compounds having odors such as nitrogen compounds. When ozone (O ₃ ) is contaminated, it is involved in the ozone generation reaction and secondary products are generated. As a result, the time during which ozone (O ₃ ) is stably present becomes extremely short, so that the sterilization effect of ozone is drastically reduced. There is also a problem. Furthermore, the above-described ozone water producing apparatus is inevitably complicated in its structure, and it is difficult to control the ozone concentration. It has been demanded to establish an apparatus for producing ozone gas-mixed water which is easy to operate and has a remarkable sterilization effect by ozone.

[0006]

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to reduce the size of NOx and to generate ozone in conjunction with water discharge from a faucet in view of the above-mentioned problems of the prior art. Another object of the present invention is to provide an ozone disinfecting and washing water dispenser that uses an ozone generator whose output can be controlled, can obtain homogeneous ozone gas-mixed water, and is easy to handle.

[0007]

The inventor of the present invention has conducted various studies to solve the above-mentioned problems. As a result, the present inventors have developed a small-sized ozone generator which suppresses the generation of NOx and an ozone generator generated by the ozone generator. By combining a special orifice with a good mixing property of ozone gas and water, and by interlocking the discharge of the faucet and the operation of the ozone generator, the cleaning of the raw material air is further performed to achieve the above problem. Can be solved, and the present invention has been completed based on these findings.

That is, a first aspect of the present invention is characterized in that the ozone generator comprises an ozone generator, an ozone conduit tube connected to the ozone generator, and a switch operating unit connected to the ozone conduit tube. It is about the main body.

A second aspect of the present invention is a cleaning section for purifying raw air supplied to the ozone generation section, the ozone generation section,
The present invention relates to an ozone generator main body, comprising: an ozone conduit tube connected to the ozone generation unit; and a switch operation unit connected to the ozone conduit tube.

[0010] A third aspect of the present invention is an ozone disinfection and washing water device in which an ozone generator main body and a mixing tap detachably connected to a faucet outlet are connected by a gas tube. The main body includes an ozone generating unit, an ozone conduit tube connected to the ozone generating unit, and a switch operating unit connected to the ozone conduit tube, wherein the mixing tap is a faucet outlet mounting lip, and the ozone conduit tube A mixing body for mixing ozone gas supplied from water into water,
The present invention relates to an ozone sterilizing and washing water device comprising an ozone-containing water discharge cylinder.

Further, a fourth aspect of the present invention is an ozone sterilizing / washing water device in which an ozone generator main body and a mixing tap detachably connected to a faucet outlet are connected by a gas tube. The main body includes: a purifying unit for air supplied to an ozone generating unit; the ozone generating unit; an ozone conduit tube connected to the ozone generating unit; and a switch operating unit connected to the ozone conduit tube. A mixing faucet, a faucet outlet mounting lip, a mixing body for mixing ozone gas supplied from the ozone conduit tube into water,
The present invention relates to an ozone sterilizing and washing water device comprising an ozone-containing water discharge cylinder.

[0012] It is preferable that the air purifying section of the air supplied to the ozone generating section is a granular activated carbon packed bed. Further, in the air purifying section, the diameter of the air supply hole of the filter plate is made smaller as the air supply hole is closer to the air supply tube to the ozone generator so that the introduced air passes through the filter on average, so that the air is reduced. It is preferable that the whole air cleaning section is circulated. Also,
Preferably, the ozone generator is a plasma resonance type ozone generator. Further, the mixing tap is preferably provided with a strainer for dispersing and equalizing the water flow.

[0013]

Next, the present invention will be described in more detail. The ozone disinfection washing water device of the present invention is configured by connecting the ozone generator main body and a mixing tap which is detachably connected to a faucet outlet by a gas tube. The ozone generator main body of the present invention has at least an ozone generator connected to a supply cylinder of air as an ozone raw material, an ozone conduit tube connected to the ozone generator, and a switch operating unit connected to the ozone conduit tube. Things. More preferably, a purifier for purifying the air supplied to the ozone generator is provided in front of the ozone generator. Further, the switch actuating section comprises a check valve provided with a power supply for the ozone generator.

The configuration of the ozone generator main body of the present invention will be described more specifically. FIG. 1 is a plan view of an ozone generator main body according to an embodiment of the present invention, and FIG.
It is an A 'direction cross section schematic diagram. Reference numeral 1 in FIG. 2 denotes a push switch for turning on or off a power input. The switch being input has a structure in which a lamp is turned on.
One of the power supply wire cords 2 from this switch is for inputting power to the ozone generator main body, and the other power supply wire cord 3 is a power supply input cord to the ozone generator 4.

As shown in FIG. 2, the ozone generator comprises an ozone generator 4 and a transformer 4 '. The ozone generator 4 has a transformer 4' screwed to a fixed plate 14 integrally formed with a bottom plate 13. Is fixed at the top of the The bottom plate 13
A body 15 having an outlet of the ozone conduit tube on a side surface is screwed and fixed on the upper side, and includes the switch-operated check valve 6 and the transformer 4 '. A body cap 18 having an insertion hole for the push switch 1 and an air supply cylinder 17 is fitted on the upper part thereof. Thereby, the ozone generator 4 is built in.

Examples of the ozone generator 4 include an ozone generator using any one of a plasma resonance method, a high voltage discharge method, an ultraviolet excitation method, a creeping discharge method and the like. The high voltage discharge method is a method for generating an electric spark between both electrodes, and the ultraviolet excitation method is a method for exciting ultraviolet light having a long wavelength. The surface discharge method is
It is known as a method of applying a high voltage to the surface of a ceramic and depositing ozone by high vibration. As the ozone generator of the ozone disinfection washing water device of the present invention, an ion charge pump called a nuclear electric resonance method (NER) which is small and simple in structure among these methods and generates little NOx is used. It is preferable to use a method based on a plasma resonance method applying the principle of the above.

FIG. 3 illustrates the structure of the principle of the ozone generator based on the plasma resonance method. When an alternating current having a specific waveform is applied to the generator of FIG. 3, the mixed crystal base of the ferromagnetic material and the strong derivative causes high-frequency resonance. At this time, a circularly-deflected electromagnetic field is generated between the sintered metal electrode (tungsten) A and the alumina base B, and oxygen atoms with high energy are pumped into a space of 100 to 200 μ above the nitrogen trap (overlay coat) C, so that the oxygen atoms are effectively pumped. Ozonation bonds. Therefore, oxygen is concentrated on the surface of the generator in the form of a film, and nitrogen atoms are not excited. Therefore, generation of nitrogen oxides in the generated ozone gas can be suppressed.

As shown in FIG. 2, an ozone conduit tube 5 is connected to the ozone generator 4. As the ozone conduit tube, a silicon resin tube is used, but a tube made of another material resistant to ozone may be used. A switch-operated check valve 6 is connected to the ozone conduit tube 5 while reaching the side outlet of the ozone generator body.

Next, the air cleaning section will be described. The air cleaning section is composed of an air intake, an air filtration agent packed layer, and a filter plate. As the air filtering agent, an adsorbent, a fiber aggregate or a non-woven fabric, or the like is used.As the adsorbent, activated carbon, silica, alumina, silica-alumina, zeolite, or the like can be used. Although activated, activated carbon is particularly preferred. The shape of the adsorbent can also be arbitrarily determined along with the size so that air can flow well and cleaning can be performed efficiently. In addition, it is preferable that the adsorbent granules, the fiber aggregate, or the nonwoven fabric is used alone or the adsorbent is filled into a nonwoven fabric bag and used as the air filtration agent packed layer.

To explain a specific example, as shown in FIG. 2, a hole 19 is provided at the upper part of the body cap 18 at the center of the push switch insertion and a plurality of air supply holes around the lower part of the air filter filling layer. A filter plate 21 having a push switch insertion hole 2 is provided on the body cap and the filter plate.
2 and an upper cap 24 having a gap 23 therearound are screwed and fixed to the body cap with screws 25. The space between the upper cap and the filter plate 21 is filled with the air filtering agent 26 (a bag of non-woven fabric containing activated carbon). Thereby, the gap 23
The air taken in for ozone generation from can be cleaned.
As shown in a plan view of FIG. 5, the diameter of the air supply hole 20 decreases as it approaches the inlet of the air supply cylinder 17 that supplies air to the ozone generator 4. It is configured such that it does not concentrate on the air supply cylinder 17 but passes through the inside of the air filtration agent filled layer 26.

FIG. 5 is a plan view of the filter plate 21 of the air cleaning section. The diameter of the air supply hole 20 of the filter plate 21 is not the same, but is smaller as the inlet of the air supply cylinder 17 is closer. By adopting such a configuration, the air flowing from the gap 23 can be brought into uniform contact with the entire air filtration agent packed bed.

Air as an ozone raw material has high humidity,
When impurities, particularly compounds having an odor such as nitrogen compounds, oils, etc. are contained, their reaction products may be mixed into the produced ozone. If such impurities are present in the ozone gas, ozone (O ₃ ), The time of stable presence is reduced, the sterilization effect of ozone is reduced, and the life of the ozone generator may be shortened. When the humidity of the air increases, the amount of ozone generated decreases. Therefore, it is important to control the humidity of the air to efficiently generate a constant amount of ozone. Therefore, in the ozone generator body of the present invention, in the air purifying section, the above-mentioned adsorbent is used to adjust the humidity to 60% or less and to remove compounds having an odor such as nitrogen compounds and other impurities, thereby achieving ozone generation conditions. Set. As a result, it is possible to continuously obtain ozone gas-mixed water having a small concentration change without contamination of impurities.

Next, the switch operating portion of the ozone generator body of the present invention will be described. The switch operating section comprises a switch operated check valve 6 connected to the ozone generator 4 via the ozone conduit tube.
Since the ozone disinfection washing water device of the present invention uses a high voltage, a place where water is used from the viewpoint of ensuring safety, that is, avoiding providing an electric circuit near the faucet, while using ozone gas-mixed water For the sake of convenience, the configuration is such that the ozone generator operates so that the discharge of water from the faucet and the mixing of ozone gas are linked. Specifically, an interlocking system of faucet discharge and ozone gas mixing is performed by the action of the switch-operated check valve 6. The switch-operated check valve 6 has a valve seat 62 inserted and fitted into a cylindrical valve case 61 as shown in a sectional view of FIG. 4, and a top float 63 is provided inside the valve case 61. It is interpolated closely to the inner surface of 61,
A spring 65 connected to the top float 63, a support 66 for supporting the spring, and a support member 67 for supporting the support 66
Consists of The stay 68 has a ring shape.
Inscribed in The top of the top float 63 has a conical shape. A limit switch 64 is provided on a side surface of the valve case 61, and a gas flow passage 67 is provided on a part of the facing surface thereof.
Is provided. The limit switch is not particularly limited, and any type of limit switch can be used. The main material of the switch-operated check valve 6 is preferably formed of an oxidation-resistant resin. The structure of the switch-operated check valve, for example, the structure and material of the check valve and the float may be appropriately selected and used as long as they satisfy the structure of the present invention. The switch-operated check valve 6 is fixed to the ozone conduit tube 5 by a fixture 5 ′ in the ozone generator main body X.

The material of each part in the embodiment of the present invention is a resin molded product for the bottom plate, the fixing plate, the body, the filter plate and the upper cap, and a transparent resin molded product for the body cap. Can be used. In addition, as long as it satisfies the configuration of the ozone disinfection washing water device of the present invention, other synthetic resins and filtering agents can be used without being limited to the above-described materials. Further, the assembling is not limited to the above embodiment, and other shapes and assembling methods can be used.

Next, a mixing tap constituting the ozone disinfection washing water device of the present invention will be described. FIG. 6 is a plan view of the mixing tap. FIG. 7A is a side view of the mixing tap, and FIG.
FIG. 7 is a sectional view taken along the line AA ′ of FIG. In FIGS. 7A and 7B, reference numeral 27 denotes a mounting lip, reference numeral 28 denotes a mixing intermediate cylinder having an outlet along the inner periphery, and reference numeral 29 denotes a connecting portion between the ozone generator main body and the silicon resin gas tube 32. And
Reference numeral 30 denotes a discharge cylinder. The respective parts are integrated by bonding to form a mixing stopper.

The attachment lip 27 of the mixer tap is a portion to be attached to a water tap or the like, and is formed of polyethylene resin which is relatively easy to attach. In addition, the mixing body 28 is a portion where the ozone gas supplied from the connecting portion 29 is mixed into the water from the outlet along the circumference by passing the gas tube 32, and is made of ABS resin from the viewpoint of shape holding strength. Molded.
Further, the discharge cylinder 30 is a part for discharging water mixed with ozone, and is formed of an ABS resin from the viewpoint of shape retention strength. In addition, as long as each part of the mixing tap satisfies the configuration of the ozone disinfection washing water device of the present invention, the shape and material thereof may be appropriately modified or molded using another synthetic resin. it can.

As shown in FIG. 7 (b), the mixer tap is provided with a strainer for dispersing the water flow throughout the mixer tap so as to generate an air flow for operating the check valve 6 even when the amount of water is small. 31 and a strainer 31 'for equalizing the water flow. Each strainer is appropriately provided with a water flow passage hole having an arbitrary hole diameter.

Next, the operation of the ozone disinfection washing water device of the present invention will be described. As described above, the ozone generator main body includes the air cleaning unit, the ozone generation unit, and the switch operation unit. When the push switch 1 shown in FIG. 2 is pressed to turn on the power and the faucet outlet is opened,
The check valve 6 is actuated by the air flow generated by the mixing tap, and the power of the ozone generator 4 is turned on.
Is activated while opening the faucet outlet. The generated ozone gas passes through the ozone conduit tube 5, passes through a switch check valve 6 connected to the ozone conduit tube 5, and is sent to the mixing tap. Regarding the operation of the switch-operated check valve 6, when there is no ventilation, the top surface of the top float 63 is brought into close contact with the inner surface of the valve case 12 by the elasticity of the spring 64, and the top float is moved upstream. And the limit switch 64 projects. When the limit switch 64 projects, the power supply circuit of the ozone generator 4 is opened. On the other hand, when there is ventilation (when the water tap is opened when using the ozone disinfection washing water device described later), the top float 63 is sucked and moved by the suction force exceeding the elasticity of the spring 65, and its tip portion 63 '. Is in contact with the limit switch 64 and is depressed, whereby electricity is supplied to the wiring to the ozone generator 4 to generate ozone. The generated ozone passes through the top float and a gas flow passage 67 provided in a part of the inner surface of the valve case 61, is passed through the ozone conduit tube 5, and is supplied to the mixing tap Y.

FIG. 8 is an explanatory view of an example of use of the ozone disinfection washing water device of the present invention. The method of using the ozone sterilizing and washing water dispenser will be described with reference to FIG. Mixer tap Y (28, 29, 3
Attach 0) to the tap and fix it with screws. Fix the ozone generator body close to the tap. The mixing tap and the ozone generator main body are connected by the gas tube 32.
Insert the power cord plug into the outlet of the ozone generator. Next, the tap is opened and the push switch 1 of the ozone generator is pressed while flowing water. The energizing lamp of the switch is turned on, and ozone (O ₃ ) gas is generated and mixed into tap water. At this time, the resonance part of the ozone generator main body glows purple and can be confirmed by the transparent part 18 of the ozone generator. When changing to normal tap water, when the push switch 1 is pressed again, the energizing lamp is turned off, mixing of ozone gas stops, and the tap water is changed to ordinary tap water. Also,
The circuit is set so that the operation of the ozone generator 4 is stopped when the tap is closed even if the push switch 1 is kept pressed.

As described above, the following are specific examples of more preferred embodiments of the ozone generator main body of the present invention. (1) a push switch, a power input wire cord to the ozone generator body connected thereto and a power input wire cord to the ozone generator, (2) the ozone generator and an ozone conduit tube connected thereto, (3) A) a switch-operated check valve connected to the ozone conduit tube and provided in the ozone generator main body; and (4) a bottom plate integrated with the fixed plate of the ozone generator and a body fixed thereon.
(5) a body cap having the push switch insertion hole fitted on the body and an air supply cylinder to the ozone generator; and (6) the push switch insertion hole at the center on the body cap. A filter plate having a plurality of ventilation holes having different diameters; (7) an air filter agent on the filter plate; and (8) a removable filter on the body cap, the push switch insertion hole and the periphery thereof. An ozone disinfection washing water device comprising an ozone generator main body comprising an upper cap having a gap, and the ozone generator main body, and a mixer tap detachably connected to a faucet outlet connected by a gas tube. An outlet mounting lip, a mixing cylinder for mixing ozone gas supplied from the ozone conduit tube into tap water, and an ozone mixing water discharge cylinder. Sterilizing and washing water circuit is provided.

As described above, according to the ozone generator main body and the sterilizer / washer in the embodiment of the present invention, the concentration is 0.1 pp.
m of ozone gas is generated and mixed with tap water to obtain uniform ozone gas-mixed water having a concentration of 0.03 to 0.05 ppm. The ozone concentration was measured by an ozone monitor GE-2001 manufactured by EBARA ENGINEERING CO., LTD.

When the ozone disinfection washing water device was operated in the same manner as described above without filling the activated carbon in the air cleaning section, the amount of generated ozone was reduced to 0.05 ppm, and the ozone generation was reduced to the concentration in tap water. 0.003 ~
It falls to 0.005 ppm. Further, nitrogen compounds and the like generated by the foreign gas in the raw material air were also mixed.

Example of Use The mixer tap of the above-mentioned ozone sterilizing and washing water device was connected to a water tap and passed for 20 minutes, and then water containing ozone (ozone concentration 0.05 pp) was used.
m) was used as adhering water, and 1.3 × 10
⁷ cfu / ml of E. coli (O-157) was inoculated.
The sterilization rate of the number of bacteria after 5 seconds was 100%. On the other hand, E. coli was inoculated into the ozone gas-mixed water obtained in the same manner as described above by connecting the mixer tap of the ozone sterilization washing water device not filled with activated carbon, but the sterilization rate of the number of bacteria after 5 seconds decreased, A sufficient bactericidal effect was not obtained.

[0034]

According to the present invention, it is possible to easily produce a small-size, homogeneous mixture of ozone gas-mixed water with little NOx by opening and closing a tap, easy to handle, and high in safety. Further, the obtained ozone gas-mixed washing water contains bacteria (such as Escherichia coli O-
157 (including 157) can be sterilized within 90% or more and within 5 seconds. Further, the ozone gas-mixed water is also effective for cleaning "gargles" and wounds, and cleaning of food has no effect on the human body. Also, if you do not keep drinking in large quantities,
Drinking does not harm the human body. Therefore, it is extremely useful as water for cleaning foods and cooking utensils.

[Brief description of the drawings]

FIG. 1 is a plan view of an ozone generator main body of the present invention.

FIG. 2 is a schematic cross-sectional view taken along the line A-A ′ of FIG.

FIG. 3 is a principle diagram of a plasma resonance type ozone generator.

FIG. 4 is a sectional view of a switch-operated check valve of the ozone generator of the present invention.

FIG. 5 is a plan view of a filter plate of the air cleaning unit of the present invention.

FIG. 6 is a plan view of the mixing tap of the present invention.

FIG. 7 (a) is a side view of the mixing tap of the present invention.
(B) It is sectional drawing of the direction of AA 'of FIG.

FIG. 8 is an explanatory view of use of the ozone disinfection washing water device of the present invention.

[Explanation of symbols]

 X Ozone generator main body Y Mixing tap A Sintered metal electrode (tungsten) B Alumina base C Nitrogen trap (overlay coat) 1 Push switch 2, 3 Power supply wire cord 4 Small plasma resonance type ozone generator 4 'Transformer 5 Ozone conduit tube 6 Switch operated check valve 13 Bottom plate 14 Fixing plate 15 Body 17 Air supply cylinder 18 Body cap 21 Filter plate 24 Upper cap 26 Air filtration agent filling layer 27 Mounting lip 28 Mixing intermediate body 30 Discharge port 31, 31 'Strainer 32 Gas tube

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) C02F 1/50 550 C02F 1/50 550D A47K 7/00 A47K 7/00 A C01B 13/10 C01B 13/10 D

Claims (9)

[Claims] 1. An ozone generator main body comprising: an ozone generator, an ozone conduit tube connected to the ozone generator, and a switch operating unit connected to the ozone conduit tube. 2. An ozone generator, comprising: a purifier for purifying raw material air supplied to an ozone generator; an ozone generator; an ozone conduit tube connected to the ozone generator; and a switch operating unit connected to the ozone conduit tube. An ozone generator body characterized in that: 3. The ozone generator main body according to claim 1, wherein said ozone generator is a plasma resonance type ozone generator. 4. The ozone generator main body according to claim 1, wherein the switch operating section is a switch-operated check valve provided with a power supply for the ozone generating section. 5. An ozone disinfection and washing water device in which an ozone generator main body and a mixing tap detachably connected to a faucet outlet are connected by a gas tube, wherein the ozone generator main body is:
An ozone generating section, an ozone conduit tube connected to the ozone generating section, and a switch operating section connected to the ozone conduit tube, wherein the mixing tap is supplied from a faucet outlet mounting lip and the ozone conduit tube. An ozone disinfection washing water dispenser, comprising: a mixing cylinder for mixing ozone gas into water; and an ozone-mixed water discharge cylinder. 6. An ozone disinfection and washing water device in which an ozone generator main body and a mixing tap detachably connected to a faucet outlet are connected by a gas tube, wherein the ozone generator main body comprises:
The mixing plug comprises: a purifying section for raw air supplied to the ozone generating section, the ozone generating section, an ozone conduit tube connected to the ozone generating section, and a switch operating section connected to the ozone conduit tube. Comprises a faucet outlet mounting lip, a mixing cylinder for mixing ozone gas supplied from the ozone conduit tube into water, and an ozone-mixed water discharge cylinder. 7. An ozone sterilizing and washing apparatus according to claim 5, wherein the air purifying section is an air filtration agent packed bed. 8. The ozone sterilizing and washing apparatus according to claim 5, wherein the ozone generator is a plasma resonance type ozone generator. 9. The ozone disinfection washing water device according to claim 1, wherein the switch operation section is a switch operation check valve.